Scientific Program

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ALL Plenary Lecture Biomaterials design Biomaterials processing and biofabrication Biomaterials for theranostics Biomaterials for tissue engineering Biomaterials characterization Biomaterials for specific medical applications Biomaterials for in vitro (extracorporeal) analysis Biomaterials for pre-clinical and clinical translation Biomaterials for industrial applications Biomaterials enabling technologies Bioactive materials Special Lectures Oral Session Luncheon Seminar Workshop

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Session TrackBiomaterials for specific medical applications
Session TitleBiomaterials for environment sensitive drug release
Session CodeSP-T06-0278
Date & Time / RoomMay 27 (Mon) 13:00~14:30 / Room 323

Organizer: Won Jong Kim (Pohang University of Science and Technology, Korea, Republic of)

Chair

Jihoon Kim (Chung-Ang University, Korea, Republic of)

Zhen Gu (Zhejiang University, China)

Keynote Speaker: 13:00~13:25 : Bioresponsive Drug Delivery Zhen Gu (Zhejiang University, China)

Zhen Gu
(Zhejiang University, China)

Dr. Zhen Gu is a Qiushi Distinguished Chair Professor and Dean of College of Pharmaceutical Sciences at Zhejiang University. He also serves as the Director of the National Key Laboratory of the Advanced Drug Delivery and Release Systems. Dr. Gu received his B.S. degree in Chemistry and M.S. degree in Polymer Chemistry and Physics from Nanjing University. In 2010, he obtained Ph.D. from the Department of Chemical and Biomolecular Engineering at UCLA. He was a Postdoctoral Associate working with Dr. Robert Langer at MIT and Harvard Medical School during 2010 to 2012. Before he moved to Zhejiang University in 2020, he was a Full Professor in the Department of Bioengineering and Director of the NIH Biotechnology Training in Biomedical Sciences and Engineering Program at UCLA. From 2012 to 2018, he was working in the Joint Department of Biomedical Engineering at the University of North Carolina at Chapel Hill and North Carolina State University, where he had been appointed as a Jackson Family Distinguished Professor. Dr. Gu's group studies controlled drug delivery, biomaterials and cell therapy. He has published over 240 research papers and applied over 150 patents. He is the recipient of the Felix Franks Medal of the Royal Society of Chemistry (2020), Young Investigator Award of Controlled Release Society (2017), Sloan Research Fellowship (2016) and Pathway Award of the American Diabetes Association (2015). MIT Technology Review listed him in 2015 as one of the top innovators under the age of 35. He was elected to the College of Fellows of the American Institute for Medical and Biological Engineering (AIMBE) in 2019 and the International Academy of Medical and Biological Engineering (IAMBE) in 2021. Dr. Gu serves as an Associate Editor for Science Advances, Nano Research and Regenerative Biomaterials .

Invited Speaker: 13:25~13:40 : Lipid based nanovesicles for targeted delivery of immune stimulating molecules Hyejung Mok (Konkuk University, Korea, Republic of)

Oral Presenter

13:40~13:50 : Sustained delivery of acetic acid to combat burn wound infection Thomas Robinson (University of Birmingham, United Kingdom)

13:50~14:00 : Infection-Triggered Adhesive Nanoparticles Capable of On-Demand Releasing Antibiotics for Self-Defensive Antibacterial Therapy Ji Won Choi (Kyungpook National University, Korea, Republic of)

14:00~14:10 : Antimicrobial solutions based on the controlled release of nitric oxide Xuewei Wang (Virginia Commonwealth University, USA)

Session TrackBiomaterials for specific medical applications
Session TitleBiomaterials for inflammatory bowel disease therapy
Session CodeSP-T06-0023
Date & Time / RoomMay 31 (Fri) 9:30~11:00 / Room 321-B

Organizer: Dong Yun Lee (Hanyang University, Korea, Republic of)

Chair

Joonseok Lee (Hanyang University, Korea, Republic of)

Jung Seung Lee (Sung Kyun Kwan University, Korea, Republic of)

Keynote Speaker: 9:30~9:55 : Regulatory mechanism of the gut epithelial barrier function in inflammatory bowel diseases Sang H. Rhee (Oakland University, USA)

Sang H. Rhee
(Oakland University, USA)

I completed my B.S. and M.S. degrees in the Department of Molecular Biology at Pusan National University, South Korea, and my Ph.D. training in Biochemistry at Louisiana State University Baton Rouge in August 2001. I then moved forward the postdoctoral training in Dr. Matthew Fenton's lab at Boston University School of Medicine and later in Dr. Harry Charalabos Pothoulakis' lab at Harvard Medical School. In 2007, I moved to Los Angeles, California, to study mucosal immune responses as a research faculty at the David Geffen School of Medicine, UCLA. In August 2016, I joined the Department of Biological Sciences at Oakland University in Michigan and was promoted to Associate Professor with tenure. My laboratory has been interrogating the role of PTEN in the gastrointestinal tract, the interaction between gut inflammation and brain function, and Toll-like receptor-regulated microbial recognition in the gut. Through these projects, our research goal is to understand the systemic correlation encompassing gut epithelial cell biology, host-gut microbial interaction, and extra-intestinal impacts of gut inflammation.

Invited Speaker

9:55~10:10 : Oral TNF-α siRNA delivery via milk-derived exosomes for effective treatment of inflammatory bowel disease Yoosoo Yang (Korea Institute of Science and Technology, Korea, Republic of)

10:10~10:25 : Mesalamine prodrug nanoassemblies for the treatment of inflammatory bowel disease Sun Hwa Kim (Korea Institute of Science and Technology, Korea, Republic of)

Oral Presenter

10:25~10:35 : Uniform gold nanostructure formation via weakly adsorbed gold films and thermal annealing for reliable localized surface plasmon resonance-based DNase-I detection Joon-Ha Park (Chung-Ang University, Korea, Republic of)

10:35~10:45 : Submucosal hydrogel for spring-mediated intestinal lengthening Narelli de Paiva Narciso (Stanford University, Brazil)

10:45~10:55 : Leveraging polymer-derived drug delivery systems to combat inflamamtory bowel disease Yuji Pu (Sichuan University, China)

Session TrackBiomaterials for specific medical applications
Session TitleSex as a biological variable in biomaterials research
Session CodeSP-T06-0042
Date & Time / RoomMay 30 (Thu) 16:30~18:00 / Room 322

Organizer: Brian Aguado (University of California San Diego, USA)

Chair

Brian Aguado (University of California San Diego, USA)

Shelly Peyton (University of Massachusetts Amherst, USA)

Keynote Speaker: 16:30~16:55 : Matrix-dependent regulation of endothelial-mesenchymal transition in Turner Syndrome: relevance to bicuspid aortic valves Jane Grande-Allen (Rice University, USA)

Jane Grande-Allen
(Rice University, USA)

Dr. Grande-Allen is Professor of Bioengineering and Associate Dean for Faculty Development in the School of Engineering at Rice University.

Invited Speaker

16:55~17:10 : Biomaterial Tools to Interrogate Sex Differences in Knee Connective Tissue Regeneration Jenny Robinson (University of Washington, USA)

17:10~17:25 : Dissecting Cell-Matrix Interactions in Endometrial Disorders using Tissue Engineered Models Juan Gnecco (Tufts University, USA)

Oral Presenter

17:25~17:35 : Biomimicking trilayer scaffolds with high stretchability and sustained estradiol release for uterine tissue regeneration Min Wang (Department of Mechanical Engineering, The University of Hong Kong, Pokfulam Road, Hong Kong, Hong Kong SAR, China)

Min Wang
(Department of Mechanical Engineering, The University of Hong Kong, Pokfulam Road, Hong Kong, Hong Kong SAR, China)

Min Wang earned his BSc (1985) and PhD (1991) degrees in Materials Science and Engineering at Shanghai Jiao Tong University, China, and University of London, U.K., respectively. Dr.Wang is a tenured professor at The University of Hong Kong (HKU) since 2008. He has also been a Guest Professor or Adjunct Professor of several universities in mainland China (Shanghai Jiao Tong University, Zhejiang University, Tianjin University, Southwest Jiaotong University, South China University of Technology, etc.). As Programme Director, he led HKU’s interfaculty Medical Engineering Programme in 2013-2018. He is now an elected member of HKU’s Senate. Prior to joining HKU in 2003, Dr.Wang conducted research and teaching in universities in the UK (1991-1997), Singapore (1997-2002) and Hong Kong (2002-2003). For his achievements and contributions, he is elected a fellow of professional societies in the UK, Hong Kong, USA and internationally (FIMMM, 2001; FIMechE, 2007; FHKIE, 2010; FBSE, 2011; FAIMBE, 2012; WAC Academician, 2013; FRSC, 2020). His research interests include biomedical materials, tissue engineering, controlled release, and bionanotechnology. He has authored a large number of publications in peer-reviewed journals, books and conference proceedings. He has given many conference presentations, including over 190 invited talks at international conferences. He and his team have won many awards at international conferences. He has been developing new biomaterials using the composite/hybridization approach since 1991 and has been conducting tissue engineering research since 1999. The seminal research on bioactive bone analogue materials for bone substitution conducted in London by him and his colleagues in the 1990s were widely reported by the press (The Times in the UK, Chinese Science News in China, etc.). He is a leading researcher internationally on biomedical composite research and his work on biomedical composites has been widely cited by researchers in many countries. Dr.Wang and co-workers have also investigated various fabrication technologies for tissue engineering scaffolds, including freeze-drying, electrospinning and 3D printing, and the scaffolds developed are used to regenerate tissues such as bone, osteochondral tissue, blood vessel, peripheral nerve and gastrointestinal tract. His group also develops new materials and mechanisms for 4D printing in tissue engineering. He has authored chapters on 3D printing for authoritative books. Dr.Wang has been the Series Editor of Springer Series in Biomaterials Science and Engineering (http://www.springer.com/series/10955) books since 2012 and Editor or Associate Editor of journals (Progress in Materials Science, Medical & Biological Engineering & Computing, IET Nanobiotechnology, etc.). He served/serves in the Editorial Board of more than 20 international journals, including Journal of Materials Science: Materials in Medicine, Composites Science and Technology, Biomedical Materials, Biomaterials Research, and Journal of Orthopaedic Translation. Dr.Wang has served as Chair/Co-Chair and/or Organizer/Co-Organizer of 29 international conferences/symposia/workshops, including symposium/workshop in four World Biomaterials Congresses. Dr.Wang was/is an elected Council Member of Hong Kong Institution of Engineers, Chinese Society for Biomaterials (CSBM), Asian Biomaterials Federation, World Association for Chinese Biomedical Engineers (WACBE), and International Federation for Medical and Biological Engineering (IFMBE). Currently, he is also an elected member of the Steering Committee and Treasurer of IUS-BSE’s International College of Fellows.

17:35~17:45 : Sex-based differences in human mesenchymal stem cell osteogenic response on mineralized collagen scaffolds Vasiliki Kolliopoulos (Rice University, USA)

17:45~17:55 : Y-chromosome linked genes modulate sex-specific valvular myofibroblast methylation on hydrogels Rayyan Gorashi (University of California, San Diego, USA)

Session TrackBiomaterials for specific medical applications
Session TitleChallenge to Microbiology Using Nanomaterials
Session CodeSP-T06-0057
Date & Time / RoomMay 28 (Tue) 9:30~11:00 / Room 323

Organizer: Hu-Lin Jiang (China Pharmaceutical University, China)

Chair

Chong-Su Cho (Seoul National University, Korea, Republic of)

Hu-Lin Jiang (China Pharmaceutical University, China)

Keynote Speaker: 9:30~9:55 : Challenge to Microorganism by Polysaccharide Nanoparticles as an Intracellular Inducer Chong-Su Cho (Seoul National University, Korea, Republic of)

Invited Speaker

9:55~10:10 : Tissue Fibrosis Therapy Hu-Lin Jiang (China Pharmaceutical University, China)

Amit Bandyopadhyay (Washington State University, USA)

Oral Presenter

10:25~10:35 : Microbe-material biointerface design of polyelectrolyte nanocomplexes to treat bacterial infections Joel Finbloom (University of British Columbia, Canada)

10:35~10:45 : Combatting antimicrobial resistance with selenium nanoparticle-antimicrobial peptide conjugates Shaveen Sasanka Bogahapitiya Gamage (University of Melbourne, Australia)

10:45~10:55 : Au/Pt bimetallic nanoparticles-decorated nonwoven mat promotes wound healing: meng-yi bai (National Taiwan University of Science and Technology, Chinese Taipei)

Description

Recently, nanomaterials have become a research hotspot for researchers in many fields. Among them, we aim to approach the therapy of bacterial infection using nanomaterials because the evolution of antimicrobial resistance has posed great challenges to the existing antibacterial treatment regimes and there is an urgent need to develop new approaches to overcome bacterial infections.

We proposed new therapeutic strategies to solve bacterial resistance. The first presenter challenged microbiology using polysaccharide-based nanoparticles (PSNPs) as a new formulation of prebiotics because the internalization of PSNPs into probiotics showed higher antimicrobial activities against Gram-positive and Gram-negative pathogens. The second presenter challenged bacterial membrane vesicles (MVs) as nanocarriers against bacterial infections because the various MVs induced both humoral and cellular immunity to protect mice from bacterial infections, and MVs-coated nano-delivery systems acted as antibacterial agents. The third presenter challenged the mechanism of cellular uptake of metallic nanomaterials because the antibacterial properties of nanomaterials stem from biophysical interactions between nanoparticles and bacteria, and the cellular uptake is affected by size, shape, shell structure, surface chemistry, and protein corona formation of the metallic nanomaterials. The fourth presenter challenged the mechanism of how to regulate the pathological barriers of tissue fibrosis using biomaterials.

Researchers from academies, institutes, companies, and hospitals are the intended audience.

The therapy of bacterial infection using nanomaterials will be expected to be a novel approach to solving antimicrobial resistance.

Keywords : Antimicrobial resistance, Nanomaterials, Pathological barriers

Session TrackBiomaterials for specific medical applications
Session TitleBiomaterials from Creation to the Present and Beyond
Session CodeSP-T06-0058
Date & Time / RoomMay 29 (Wed) 16:30~18:00 / Room 320-B

Organizer: Tzu-Wei Wang (National Tsing Hua University, Chinese Taipei)

Chair

Tzu-Wei Wang (Department of Materials Science and Engineering, National Tsing Hua University, Taiwan, Chinese Taipei)

James Lai (Department of Bioengineering, University of Washington, USA)

Keynote Speaker: 16:30~16:55 : Metallo-elastomers as biomaterials: why, how and what Yadong Wang (School of Biomedical Engineering, Cornell University, USA)

Invited Speaker

16:55~17:10 : Keratin Based Gradient Hydrogels for Wound Healing and Beyond Kee Woei NG (School of Materials Science and Engineering, Nanyang Technological University, Singapore)

17:10~17:25 : Cell-adhesive self-healing hydrogel as a new platform to construct biomimetic environment Won-Gun Koh (Yonsei University, Korea, Republic of)

Oral Presenter

17:25~17:35 : MXene-Decorated Nanofibrous Membrane with Programmed Antibacterial and AntiInflammatory Effects via Steering NF-κB Pathway for Infectious Cutaneous Regeneration Shuai He (sichuan university, China)

17:35~17:45 : β-Chitin chemical extraction from squid pens using ammonium-based ionic liquid for β-chitosan production Susiana Melanie (Imperial College London, United Kingdom)

Session TrackBiomaterials for specific medical applications
Session TitleHarnessing Biomaterials Strategies to Model Lung Disease, Repair Damaged Tissue, and Deliver Drugs for Treatment
Session CodeSP-T06-0314
Date & Time / RoomMay 31 (Fri) 9:30~11:00 / Room 320-B

Organizer: Chelsea Magin (University of Colorado, Denver | Anschutz, USA)

Chair

Chelsea Magin (University of Colorado, Denver | Anschutz, USA)

Riccardo Gottardi (University of Groningen, Netherlands)

Keynote Speaker: 9:30~9:55 : Enhancing Therapeutic Efficacy in Lung Diseases: Tailoring Drug Carriers for Better Results Jaehong Key (Yonsei University Mirae Campus, Korea, Republic of)

Jaehong Key
(Yonsei University Mirae Campus, Korea, Republic of)

- 2023.03 - Present: Professor, Biomedical Engineering, Yonsei University, Wonju, Korea
- 2023.03 - 2025.02: Adjunct Researcher, KIST Gangneung Institute of Natural Products, Gangneung, Korea
- 2022.05 - Present: Deputy Director, Digital Healthcare Cencer in Gangwon Innovation Regional Platform
- 2022.03 - 2024.02: Adjunct Professor, Dept. of Integrative Medicine, Yonsei University, College of Medicine, Seoul, Korea.
- 2021.03 - 2022.03: Visiting Scholar, The University of Utah, Salt Lake City, UT, USA
- 2020.07 - 2022.07: Expert Advisor, In-vitro Diagnostics, Ministry of Food and Drug Safety, Korea
- 2019.06 - 2021.06: Expert Advisor, Medical Equipment, Ministry of Food and Drug Safety, Korea
- 2019.03 - 2020.02: Chair, Department of Biomedical Engineering, Yonsei University, Wonju, Korea
- 2019.01 - Present: Director, Information & Communications, The Korean Society of Medical & Biological Society, Korea
- 2018.03 - 2023.02: Associate Professor, Biomedical Engineering, Yonsei University, Wonju, Korea
- 2017.01 - 2018.12: Director, General Affairs, The Korean Society of Medical & Biological Society, Korea
- 2016.03 - Present: IACUC Committee Member, Yonsei University, Wonju, Korea
- 2015.02 - 2017.02: Assistant Professor, Biomedical Engineering, Yonsei University, Wonju, Korea
- 2012.05 - 2015.01: Post-doctor, Methodist Research Institute in Texas Medical Center, Houston, TX, USA
- 2007.09 - 2012.05: Ph.D., Weldon School of Biomedical Engineering, Purdue University, West Lafayette, IN, USA
- 2004.07 - 2007.06: Researcher, Korea Institute of Science and Technology, KIST, Seoul, Korea

Invited Speaker

9:55~10:10 : Advances in biomaterials for modeling in vivo microenvironments in human lung disease Janette Burgess (University of Groningen, Netherlands)

10:10~10:25 : Engineering 3D Lung Tissue Models to Improve Drug Discovery and Validation Chelsea Magin (University of Colorado, Denver | Anschutz, USA)

Sungjune Jung (POSTECH, Korea, Republic of)

Oral Presenter: 10:40~10:50 : Development of 3D-shaped cell delivering patch for skin regeneration Gunjae Jeong (The Catholic University of Korea, Korea, Republic of)

Description

Millions of people worldwide suffer from life-altering respiratory conditions. As SARS-CoV-2 infections continue, this number is expected to increase. Therefore, the need to engineer models for studying these conditions, treatments to repair lung damage, and/or targeted drug delivery is at an all-time high. Biomaterials are a promising tool to study and repair the lungs. Natural materials, such as human lung decellularized extracellular matrix, are scaffolds for tissue engineering, biomaterial-based lung sealants are treating injuries, nanoparticles are effective for drug delivery, and click-chemistry mechanisms are enabling temporal alterations in the cellular microenvironment. These technologies emphasize the role of biomaterials in a new vision for the future of pulmonary healthcare. This symposium will focus on using biomaterials to engineer the lung microenvironment, enhance therapeutic drug delivery, repair damaged tissue, and how these advances impact pulmonary medicine.

We propose one Keynote Speaker, two Invited Speakers, and talks selected from unsolicited abstract submissions. Keynote and Invited Speakers have confirmed their participation if this session is accepted. The Keynote Speaker, Dr. Key, from Yonsei University Mirae Campus, Republic of Korea, will open the session with a presentation on biomaterials for targeted drug delivery to the lungs. Dr. Westergren-Thorsson, Lund University, Sweden, will present on biomaterials for lung tissue engineering. Dr. Burgess, University of Groningen, will discuss biomaterials for modeling lung disease. The convergence of these topics closely relates to the conference theme because the future of healthcare must address the millions of patients suffering from chronic respiratory diseases.

Our intended audience is engineers, scientists, clinicians, students, postdocs, and other researchers interested in harnessing biomaterials to study or repair lung tissues. We expect that this session, which includes speakers from diverse regions, will catalyze new international collaborations across the globe to craft a new vision for the future of pulmonary healthcare.

Keywords : Lung, Drug Delivery, Tissue Engineering

Session TrackBiomaterials for specific medical applications
Session TitleAnti-pathogen surface technologies for medical devices
Session CodeSP-T06-0332
Date & Time / RoomMay 30 (Thu) 16:30~18:00 / Room 321-B

Organizer: Helmut Thissen (CSIRO, Australia)

Chair

Helmut Thissen (CSIRO, Australia)

Wei-Bor Tsai (National Taiwan University, Chinese Taipei)

Keynote Speaker: 16:30~16:55 : Serum proteins adsorption on the nanostructured surfaces: does it compromise the mechano-bactericidal efficacy and immunomodulation of titanium surfaces? Elena Ivanova (RMIT University, Australia)

Elena Ivanova
(RMIT University, Australia)

Elena P. Ivanova is Distinguished Professor at Royal Melbourne Institute of Technology University (Melbourne). Elena received her Doctor of Philosophy from the Institute of Microbiology and Virology, Ukraine, Doctor of Science from the Pacific Institute of Bio-organic Chemistry, Russian Federation, Juris Doctorate from the University of Melbourne and Graduate Diploma from the Law Institute, Victoria.

Professor Ivanova has worked as a Postdoctoral Fellow at the New Energy and Industrial Technology Development Organization (Japan), Visiting Researcher at the Center of Marine Biotechnology, University of Maryland (USA), Visiting Professor at Hokkaido University (Japan), Cambridge University (UK) and the Institut Charles, Sadron, CNRS (France). She joined Swinburne University of Technology in 2001, and moved RMIT University in 2018.

Professor Ivanova has been the recipient of AIST and JSPS Fellowships (Japan), a UNESCO Biotechnology Fellowship, a Research Excellence Award from the Governor of Primorye (Russia), the Prominent Young Doctor of Science Award from the Russian Federation, the Morrison Rogosa Award from the American Society for Microbiology (USA), a recipient of the Australian Museum Eureka Prize for Scientific Research.

Elena's research is concentrated in the fundamental and applied fields of nanobiotechnology, with a focus on the design, fabrication and operation of planar micro-devices; immobilization of bio-molecules and micro-organisms in micro/nano/environments, bacterial interactions with macro/micro/nano-structured surfaces, biomaterials, biomimetic antimicrobial surfaces.

Oral Presenter

16:55~17:05 : Near-infrared irradiated graphene oxide films disrupt Staphylococcus epidermidis biofilms Inês Gonçalves (i3S - Institute for Research and Innovation in Health, Portugal)

17:05~17:15 : Derivatization of NO-Releasing Graphene Oxide Nanosheets for Antibacterial Biomaterial Hitesh Handa (University of Georgia, USA)

17:15~17:25 : Combination of antibiotic and antibacterial implant-a new strategy to reduce the clinical usage of antibiotics Ke Yang (Institute of metal research, Chinese academy of sciences, China)

17:25~17:35 : Activity and long-term stability of surface immobilized antimicrobial peptides (AMPs) using thiol-mediated coupling strategies. Andrew Boden (Swinburne University Technology, Australia)

17:35~17:45 : Induced pluripotent stem cells for repairing lens zonule using a biomimetic electrospinning scaffold combined with a directional differentiation strateg Tianhui Chen (Fudan University in Eye & ENT Hospital, China)

17:45~17:55 : Antimicrobial Biomaterials and Wearable Devices for Combating Drug-resistant Bacterial Infections Peng Li (Northwestern Polytechnical University, China)

Session TrackBiomaterials for specific medical applications
Session TitleBiomaterials for Wearable and Implantable Medical Devices, Sensors, and Electronics
Session CodeSP-T06-0077
Date & Time / RoomMay 30 (Thu) 16:30~18:00 / Room 323

Organizer: Youngjae Chun (University of Pittsburgh, USA)

Chair

Youngjae Chun (University of Pittsburgh, USA)

Youngjae Chun
(University of Pittsburgh, USA)

Dr. Youngjae Chun is a Professor, Department of Industrial Engineering, Swanson School of Engineering, with a secondary appointment in Swanson’s Department of Bioengineering at the University of Pittsburgh. Dr. Chun obtained his BS from Inha University (South Korea) in Mechanical and Aerospace Engineering. He obtained his Master's at Inha University and the University of California, Los Angeles (UCLA) with a specialization in Manufacturing and MEMS technology. He obtained his PhD in Mechanical Engineering at UCLA in June 2009 working on the development of biomedical devices to treat vascular diseases using smart artificial materials through minimally invasive surgery. He worked as a postdoctoral researcher in UCLA's Mechanical and Aerospace Engineering Department's Active Materials Laboratory and UCLA’s David Geffen School of Medicine’s Center for Advanced Surgical and Interventional Technology.

Dr. Chun’s research interests include designing/manufacturing the metallic medical devices, investigating biocompatibility, analyzing the mechanical and physical behaviors, and testing biomedical devices. In current research, Dr. Chun combines the comprehensive knowledge from diverse fields such as material processing, MEMS/Nano fabrication, biomedical science, and surface engineering that is crucially important to successfully fulfill the goal of interdisciplinary projects of metallic biomaterial-based medical devices for vascular repair. Dr. Chun has developed various metallic biomaterial-based endovascular devices for treating brain/aortic aneurysms, cardiovascular disease, peripheral arterial disease, vascular injuries, and trauma. Dr. Chun is also interested in bio-hybrid composites, diagnostic vascular implants, and micro-bio-systems, as well as fundamental device-associated biocompatibility and development of experimental methods.

Jae-Woong Jeong (KAIST, Korea, Republic of)

Keynote Speaker: 16:30~16:55 : Soft Implantable Bioelectronic System for Wireless Continuous Monitoring of Restenosis Woon-Hong Yeo (Georgia Institute of Technology, USA)

Woon-Hong Yeo
(Georgia Institute of Technology, USA)

Dr. Yeo is a Woodruff Faculty Fellow, Associate Professor in the Mechanical Engineering and Biomedical Engineering, and the Director of the IEN Center for Human-Centric Interfaces and Engineering at Georgia Institute of Technology. His research focuses on the areas of nano-microengineering, soft materials, molecular interactions, and biosystems, with an emphasis on nanomembrane bioelectronics. Dr. Yeo received his Ph.D. in mechanical engineering at the University of Washington, Seattle. Afterward, he was a postdoctoral research fellow at the University of Illinois at Urbana-Champaign. Dr. Yeo has published over 130 peer-reviewed articles, including many in top-quality journals, including Nature Materials, Nature Machine Intelligence, Nature Communications, and Science Advances. In addition, Dr. Yeo is an IEEE Senior Member and a recipient of a number of awards, including multiple NIH R01 Awards, NIH Trailblazer Young Investigator Award, IEEE Outstanding Engineer Award, Emory School of Medicine Research Award, Imlay Innovation Award, Lucy G. Moses Lectureship Award, Sensors Young Investigator Award, American Heart Association Innovative Project Award, and Outstanding Yonsei Scholar Award.

Invited Speaker

16:55~17:10 : Advanced minmially invasive medical devices for treating cerebral, cardiac, and aortic diseases and injuries Youngjae Chun (University of Pittsburgh, USA)

Youngjae Chun
(University of Pittsburgh, USA)

Steve Park (KAIST, Korea, Republic of)

Oral Presenter

17:25~17:35 : A novel self-gripping long-term PLLA/TMC resorbable mesh providing temporary support for open primary ventral and incisional hernia YVES BAYON (Medtronic, France)

17:35~17:45 : Mechanisms identified in total hip arthroplasty corrode modular junctions in the knee Michael Kurtz (Drexel University, USA)

Session TrackBiomaterials for specific medical applications
Session TitleAdvanced Biomaterials and Nanomaterials for Implantable Devices
Session CodeSP-T06-0339
Date & Time / RoomMay 30 (Thu) 9:30~11:00 / Room 323

Organizer: Tolou Shokuhfar (University of Illinois at Chicago, USA)

Chair

Amber Jennings (The University of Memphis, USA)

Reza Shahbazian (University of Illinois at Chicago, USA)

Keynote Speaker: Guillermo Ameer (Northwestern University, USA)

Invited Speaker

9:55~10:10 : Biodegradable photonic crystals for adhesive sensor of wound healing Jinmyoung Joo (Ulsan National Institute of Science and Technology(UNIST), Korea, Republic of)

10:10~10:25 : Evaluation of slow-degraded hydroxypropyl methylcellulose hydrogel with anti-inflammatory agent loading applied as vitreous substitutes Ching-Li Tseng (Taipei Medical University, Chinese Taipei)

Oral Presenter

10:25~10:35 : A New Perspective on Biomineralization in Healthy and Dysfunctional Ferritins Tolou Shokuhfar (University of Illinois at Chicago, USA)

Tolou Shokuhfar
(University of Illinois at Chicago, USA)

Tolou Shokuhfar is an Associate Professor of biomedical engineering and director of In situ Nanomedicine Lab at the University of Illinois Chicago. She holds a PhD in Mechanical Engineering from Michigan Technological University with focus on Biomechanics and Nanomedicine. Her research interests include Biomaterials, In situ Transmission Electron Microscopy, Biomineralization, Nanoscience and Nanotechnology. She has managed several NSF funded projects, including NSF CAREER award from NSF DMR program that pioneers biomineralization at nanomaterial/protein interface and has served as a reviewer at several NSF panels. She has received several research and leadership awards including the “INSIGHT Diversity Award for Inspiring Women in STEM”, “ TMS Young Leaders Award”, “ DSL Young Scientist Award”, and Crain’s Leadership Academy program in Chicago. She serves as a mentor and advisor for both undergraduate and graduate researchers and has successfully graduated more than 10 PhD and MSc students over the past few years. She has published 6 book chapters, and a book entitled “ Nanotechnology in Medicine and Biology (Elsevier Series on Advanced Topics in Biomaterials). She has published over 100 peered-reviewed journal papers, more than 100 proceedings, and has delivered more than 60 oral presentations in invited talks and seminars at national and international venues.
She serves at the editorial board of the International Journal of Nanomedicine, Smart Materials in Medicine, and has served as the guest editor of Journal of Functional Biomaterials (JFB) and Advisor for JOM, Special Issue on “Functional Materials: Materials in Medicine and Bioengineering”. She has served in several leadership positions such as the Chair for Orthopedic Biomaterials at the Society for Biomaterials, and the Program Chair of Nanomaterials SIG at the Society for Biomaterials. She has been the main symposium organizer for “Advanced Biomaterials for Biomedical Implants” symposium at The Materials and Minerals Society (TMS) and the “ Biomedical Implants and Devices” at the DSL international conference for several years. She is the organizer for “Advanced Biomaterials and Nanomaterials for Implantable Devices” session at the World Biomaterials Congress 2024, Daegu, Korea.

10:35~10:45 : Dynamic nano-assemblies for biological sensing, imaging and regulation Daishun Ling (Shanghai Jiao Tong University, China)

10:45~10:55 : A novel TAVR device with fish swim bladder as valve leaflets Zhihong Wang (Institute of Transplant Medicine, Nankai University School of Medicine, China)

Session TrackBiomaterials for specific medical applications
Session TitleBiomaterials for immune tolerance against autoimmune diseases
Session CodeSP-T06-0089
Date & Time / RoomMay 30 (Thu) 13:40~15:10 / Room 321-B

Organizer: James Moon (University of Michigan, Ann Arbor, USA)

Chair

James Moon (University of Michigan, Ann Arbor, USA)

Jaeyun Kim (Sungkyunkwan University, Korea, Republic of)

Keynote Speaker: 13:40~14:05 : Harnessing biomaterials to study and direct immune function Chris Jewell (University of Maryland, USA)

Chris Jewell
(University of Maryland, USA)

Christopher M. Jewell is the MPower Professor and the Minta Martin Professor of Engineering at the University of Maryland in the Fischell Department of Bioengineering and the Medical School. He is also a Research Biologist with the United States Department of Veterans Affairs at the Baltimore VA Medical Center. His work at the interface of immunology and materials science harnesses new technologies to study antigen-specific immunity, and exploits these processes for antigen-specific immunotherapies targeting cancer and autoimmunity. Dr. Jewell's research has been supported by over $25M in funding, resulting in more than 125 patent filings and papers in top journals, including Nature, Nature Biotechnology, Nature Materials, ACS Nano, PNAS, Trends in Immunology, and others. Dr. Jewell is a Fellow of the Biomedical Engineering Society (BMES), the American Institute for Medical and Biological Engineering (AIMBE), the Controlled Release Society (CRS), and the Alliance for Cancer Gene Therapy (ACGT). Chris previously worked at the Boston Consulting Group in New York City, where he developed R&D strategy for global pharmaceutical companies. Dr. Jewell is currently the Chief Scientific Officer at Cartesian Therapeutics - a clinical stage cell therapy company, an advisor and consultant for a number of small and large firms in the pharmaceutical and biotechnology industry, and a member of the PhRMA Foundation Advisory Committee. Dr. Jewell is an Associate Editor for Nature Publishing's Regenerative Medicine, and has also been named a Miegunyah Distinguished Faculty Fellow by the University of Melbourne (Australia) at the Peter Doherty Institute for Immunity and Infection. Some of Dr. Jewell’s awards include being honored by the White House as a recipient of the Presidential Early Career Award for Scientists and Engineers (PECASE), the United States's highest honor to scientists and engineers in the first half of their career. He has been selected as a Damon Runyon-Rachleff Innovator by the Damon Runyon Cancer Research Foundation, appointed as an Associate Scientific Advisor for Science Translational Medicine, received the Outstanding Lectureship in Drug Delivery from the Materials Research Society, and being named the state of Maryland’s Outstanding Young Engineer by the Maryland Academy of Science. Dr. Jewell graduated from Lehigh University with high honors, earning dual degrees in Chemical Engineering and Molecular Biology. He received his PhD from the University of Wisconsin – Madison, working with Professor David Lynn. Dr. Jewell carried out his postdoctoral training as a Ragon Institute Fellow working with Dr. Darrell Irvine at MIT and as a Visiting Scientist at Harvard with Dr. Dan Barouch in the division of Vaccine Research.

Invited Speaker

14:05~14:20 : Nanoparticle-based tolerogenic vaccines to treat multiple sclerosis via re-establishing immune tolerance Jaeyun Kim (Sungkyunkwan University, Korea, Republic of)

14:20~14:35 : Nanoparticle platform for immune tolerance against autoimmunity James Moon (University of Michigan, Ann Arbor, USA)

Oral Presenter

14:35~14:45 : Localized Immune Cell Homing Platform for Cellular Immunotherapy Corrine Ying Xuan Chua (Houston Methodist Research Institute, USA)

14:45~14:55 : An injectable, macroporous and immunoactive T cells-loaded scaffold for local cancer immunotherapy treatment Baptiste Marin (École de Technologie supérieure, Canada)

14:55~15:05 : Tracing immune cells around biomaterials with spatial anchors during large-scale wound regeneration Yang Yang (Sichuan University, China)

Session TrackBiomaterials for specific medical applications
Session TitleAdvanced Biomaterials with sensing properties to overcome the XXI century health challenges
Session CodeSP-T06-0346
Date & Time / RoomMay 31 (Fri) 11:20~12:50 / Room 322

Organizer: Maria Grazia Raucci (National Research Council of Italy, Italy)

Chair

Maria Grazia Raucci (ESB - Affiliated National Biomaterials Societies, Italy)

Ana Paula Pego (European Society for Biomaterials, Portugal)

Keynote Speaker: 11:20~11:45 : FLIM and Raman spectroscopy-based analysis of cells and tissues Katja Schenke-Layland (Eberhard Karls University Tubingen, Germany)

Katja Schenke-Layland
(Eberhard Karls University Tubingen, Germany)

Katja Schenke-Layland is the Professor of Medical Technologies and Regenerative Medicine at the Medical Faculty of the University Tübingen (MFT). She is the Director of the NMI Natural and Medical Sciences Institute in Reutlingen, the CEO of the NMI-TT GmbH, and the Study Dean of Medical Technologies at the University of Tübingen. Katja is currently the Co-Editor-In-Chief of Tissue Engineering Part B (Mary Ann Liebert) and Executive Editor of Advanced Drug Delivery Reviews (Elsevier), as well as on several editorial boards such as Matrix Biology (Elsevier), Current Opinion in Biomedical Engineering (Elsevier), and Journal of 3D Printing in Medicine (Future Medicine). Katja is a fellow/ board member of the German National Academy of Science and Engineering (acatech), the German Central Ethics Committee for Stem Cell Research (ZES), International and German Societies of Matrix Biology, and the European Alliance for Medical and Biological Engineering and Science (EAMBES). She has published more than 190 peer-reviewed articles, has an h-index of 51 (Scopus), and has been granted 4 patents.

Invited Speaker

11:45~12:00 : Peptide Aptamer-functionalised Biomaterials: a Novel and Industrially-sustainable Class of Biospecific Substrates for Diagnostic and Theranostic Devices. Matteo Santin (University of Brighton, United Kingdom)

12:00~12:15 : Novel approaches in biosensing and diagnostics for infectious diseases Hyun Jung Chung (Korea Advanced Institute of Science and Technology(KAIST), Korea, Republic of)

Oral Presenter

12:15~12:25 : Polydopamine nanoparticles as an organic biodegradable theranostic platform for the treatment of colorectal cancer matteo battaglini (Italian Institute of Technology Smart Bio-Interfaces, Italy)

12:25~12:35 : Rapid identification of therapeutic bacteriophages for personalized phage therapy using high throughput ATP bioluminescence assay Fereshteh Bayat (McMaster University, Canada)

Session TrackBiomaterials for specific medical applications
Session TitleInnovative biomaterials and devices for cardiovascular therapy
Session CodeSP-T06-0095
Date & Time / RoomMay 30 (Thu) 9:30~11:00 / Room 321-B

Organizer: Mikyung Shin (Sungkyunkwan University, Korea, Republic of)

Chair

Mikyung Shin (Sungkyunkwan University, Korea, Republic of)

Erika Moore (University of Maryland, USA)

Keynote Speaker: 9:30~9:55 : Directed evolution enables sequential, affinity-controlled delivery of angiogenic growth factors for vascular network formation Marian Hettiaratchi (University of Oregon, USA)

Marian Hettiaratchi
(University of Oregon, USA)

Dr. Marian Hettiaratchi is an assistant professor of bioengineering at the Knight Campus for Accelerating Scientific Impact at the University of Oregon. She received a B.Sc. in chemical engineering from the University of Calgary and Ph.D. in biomedical engineering from the Georgia Institute of Technology and Emory University prior to conducting post-doctoral research at the University of Toronto as a Natural Sciences and Engineering Research Council of Canada (NSERC) post-doctoral fellow.

Dr. Hettiaratchi's research program focuses on developing the next generation of affinity-controlled protein delivery vehicles for tissue repair. Using a unique combination of directed evolution platforms, rational protein design, polymer chemistry, and bio-transport modeling, Dr. Hettiaratchi’s lab engineers novel protein-material interactions to precisely tune protein delivery, sequestration, and bioactivity for a variety of applications, including repairing musculoskeletal, vascular, and central nervous system injuries. This versatile approach has enabled advances in both understanding the mechanisms of tissue repair and generating new treatment strategies.

Dr. Hettiaratchi fosters an inclusive, interdisciplinary research group where lab members of different backgrounds and skill levels are encouraged to work together to learn new techniques and make new discoveries. She has received several awards as an assistant professor, including the J.R. Neff Research Award from MTF Biologics and a Faculty Research Mentor Award from the Center for Undergraduate Research Engagement at the University of Oregon. Dr. Hettiaratchi has also been recognized as an Emerging Investigator by Biomaterials Science and the Journal of Materials Chemistry B and Rising Star by Advanced Healthcare Materials. The Hettiaratchi Lab's work is currently supported by a broad array of funding, including a National Institutes of Health (NIH) R21 Trailblazer Award, NIH R35 Maximizing Investigators' Research Award (MIRA), National Science Foundation Faculty Early Career Development (NSF CAREER) Award, and Department of Defense Discovery Award.

Invited Speaker

9:55~10:10 : Leveraging biomaterial platforms and iPSC technology to study early-stage pathogenesis of inherited cardiomyopathies Nathaniel Huebsch (Washington University in St. Louis, USA)

10:10~10:25 : Engineered sEVs and miRNA modification for cardiac repair Hyun-Ji Park (Ajou University, Korea, Republic of)

Oral Presenter

10:25~10:35 : Smart surface constructing strategies for cardiovascular devices Xin Li (Third People’s Hospital of Chengdu Affiliated to Southwest Jiaotong University, China)

10:35~10:45 : Fabrication and evaluation of Mg microtubes for biodegradable cardiovascular stents Joung Sik Suh (Korea Institute of Materials Science, Korea, Republic of)

Session TrackBiomaterials for specific medical applications
Session TitleBiomaterials for Antimicrobial and/or Antifouling coatings
Session CodeSP-T06-0128
Date & Time / RoomMay 29 (Wed) 13:40~15:10 / Room 323

Organizer: Xavier Banquy (Universite de Montreal, Canada)

Co-organizer: Dong Woog Lee (Ulsan National Institute of Science and Technology (UNIST), Korea, Republic of)

Chair

Xavier Banquy (Universite de Montreal, Canada)

Dong Woog Lee (Ulsan National Institute of Science and Technology (UNIST), Korea, Republic of)

Keynote Speaker: Byeong-Su Kim (Yonsei University, Korea, Republic of)

Invited Speaker

14:05~14:20 : Probing reversible noncovalent molecular interactions for advancing multifunctional soft Materials and surfaces Hongbo Zeng (University of Alberta, Canada)

14:20~14:35 : Bioinspired materials for marine antifouling coating Ronxin Su (Tianjin university, China)

Jing Yu (Nanyang Technological University, Singapore)

Oral Presenter

14:50~15:00 : Nanomechanics of Layer-by-layer nanofilms made of bottlebrush polymers Xavier Banquy (Universite de Montreal, Canada)

15:00~15:10 : Antifouling and antimicrobial bioresorbable coatings for protection of titanium-based implantable medical devices David Zermeno Perez (Ashland Specialties Ireland & University College Dublin, Ireland)

Description

Biofouling of medical devices is characterized by the formation of a biofilm of highly proliferating bacteria. During the biofilm formation process, the bacteria produce exopolysaccharides acting as a scaffold bringing mechanical and chemical resistance to the biofilm. Bacteria within a biofilm are far more resistant to antimicrobials and less susceptible to the host immune systems. The rise of the demand of personal protection medical device, the increase of bacterial resistance and the ever-increasing number of bacterial infections involving biofilms urge scientist to design innovative, biomaterial-based, anti-infective technologies possessing both antibiofilm and antimicrobial activity for the effective control of biofouling in clinical settings.

This symposium will feature talks on recent advances in biomaterials strategies to control protein adsorption, cellular and microbial adhesion, proliferation, and dispersion. Topics will include sustainable biomaterials approach to control fouling, new approaches in biomaterial and surface chemistry, new drug delivery strategies, and nanotopographical approaches to control cell and / or bacterial adhesion among others. The biomaterial can include, but not limited to, (i) polypeptides, polysaccharides, natural rubbers, and (ii) bio-mimetic polymers. The coatings may fulfill their antimicrobial/antifouling purpose by specific chemical moieties, structures, or any other factors. The application of coating materials includes, but not limited to, (i) biomedical devices, equipment, or implants, (ii) human organs, tissues, or blood vessels. Highlighted applications will include medical device contamination, including treatment and prevention of medical device-associated biofilms, and treatment and prevention of systemic microbial infections.

This symposium fit well into the mission of WBC2024, to bring scientists with different expertise such as biomaterials engineering, device manufacturing and biomedical engineering to address unmet medical needs.

Keywords : Antifouling; Antimicrobial; Antiadhesive

Session TrackBiomaterials for specific medical applications
Session TitleBiomaterials meets glia: biomaterials applications to study glia and gliopathologies
Session CodeSP-T06-0384
Date & Time / RoomMay 28 (Tue) 16:30~18:00 / Room 323

Organizer: Ana Paula Pego (i3S / INEB - University of Porto, Portugal)

Chair

Ana Paula Pego (i3S / INEB - University of Porto, Portugal)

Shelly Sakiyama-Elbert (University of Washington, USA)

Keynote Speaker: 16:30~16:55 : Glial engineering and interfaces: multifunctional bio(nano)materials and devices to dialogue with glia Valentina Benfenati (Consiglio Nazionale delle Ricerche, Istituto per la Sintesi Organica e Fotoreattività, Italy)

Invited Speaker

16:55~17:10 : Unravelling glia mechanobiology in bioengineered models to tackle neural repair failure Ana Paula Pego (i3S / INEB - University of Porto, Portugal)

17:10~17:25 : Biomaterials scaffolds to modulate the role of astrocytes after spinal cord injury Shelly Sakiyama-Elbert (University of Washington, USA)

Oral Presenter

17:25~17:35 : Extracellular Matrix-based Biocompatible Adhesive Hydrogel for Neural-electrode Interface Yeonggwon Jo (Pohang University of Science and Technology, Korea, Republic of)

17:35~17:45 : Piezoelectric stimulation of microglia as an innovative approach for glioma immunotherapy Gianni Ciofani (Istituto Italiano di Tecnologia, Italy)

Gianni Ciofani
(Istituto Italiano di Tecnologia, Italy)

Gianni Ciofani (born in La Spezia, Italy, on August 14th, 1982), Ph.D., is Senior Researcher Tenured at the Istituto Italiano di Tecnologia -Italian Institute of Technology, IIT- (Pontedera, Italy; since 2019), where he is Principal Investigator of the Smart Bio-Interfaces Research Line (since 2017) and Coordinator of the Center for Materials Interfaces (since 2021). He has been Associate Professor at the Polytechnic University of Torino (Torino, Italy; 2015-2019) and Visiting Professor at Waseda University (Tokyo, Japan; 2021).
His main research interests concern smart nanomaterials for nanomedicine, microphysiological systems, and nanomedicine in altered gravity conditions. He is coordinator or unit leader of several projects (about 6.5 MEur granted): in particular, he was awarded with a Starting Grant and three Proof-of-Concept Grants by the European Research Council (ERC). Thanks to grants from the Italian Space Agency and the European Space Agency, he had the opportunity to carry out four experimental campaigns onboard the International Space Station. In 2018, his real-scale model of the blood-brain barrier was highlighted in the Annual Report on the ERC Activities and Achievements.
Gianni Ciofani is author of about 180 papers on international journals (Scopus H-index 47, excluding self-citations), 3 edited books, and 17 book chapters, and delivered about 70 invited talks/lectures in international contexts. He serves as Reviewer for many funding agencies (including ERC, Swiss National Science Foundation, French National Research Agency, National Science Center of Poland), for about 200 international journals, and as Editorial Board Member of Bioactive Materials, International Journal of Nanomedicine, Journal of Physics: Materials, Nanomedicine UK, Nano Trends, and Scientific Reports; he is Specialty Chief Editor (Nanobiotechnology) for Frontiers in Bioengineering and Biotechnology.
During his career, he held courses for B.Sc. and M.Sc. students at the Polytechnic University of Torino and at Waseda University, and is currently holding a course for Ph.D. students at the Sant’Anna School of Advanced Studies (Pisa, Italy); he is / has been supervisor of about 50 M.Sc. students and 20 Ph.D. students.
He is co-founder (2022) and Scientific Advisor of “Kidaria Bioscience SRL”, an IIT spin-off company dedicated to the preparation and characterization of cosmetic and nutraceutical products based on natural-derived active ingredients. He is also co-founder (2021) and member of the executive committee of “ERC in Italy APS”, a non-profit association of ERC awardees born to promote fundamental and frontier research in Italy.
Gianni Ciofani is Knight of the Order of Merit of the Italian Republic, appointed by the President of the Italian Republic on December 27th, 2022.

Description

So far, the neuroscience field has failed to grasp the full complexity of the brain and spinal cord. This has hampered our capacity to effectively treat the many diseases and conditions that afflict the central nervous system (CNS), which is vital for our survival.

While overlooked for centuries, the role of glial cells in health and disease is now undeniable and therapeutical strategies are now being oriented towards targeting these cells. Indeed, astrocytes synthesize and shape the extracellular matrix (ECM) throughout human lifespan. Furthermore, oligodendrocytes and microglia continuously crosstalk with the ECM in the so-called fourth-partite synapse. With the current lack of approaches for fully treat neurological disorders, there is a demand for the development of technologies that can not only allow the understanding of the glial cell microenvironment but also contribute to the design of efficient delivery systems of biomolecules, drugs, and/or cells to pathologic scenarios.

Tissue engineering strategies based on biomaterials are emerging as potential approaches for these purposes. Hydrogels have been produced to culture neural cells, allowing their study in a 3D environment, which constitutes an improved biologically relevant approach. Efforts have been made to produce an ideal ECM analogue that mimics, as far as possible, biochemical and biophysical properties of the nervous tissue. Along with hydrogels, other platforms have been proven to be efficient in guiding nervous tissue regeneration. Additionally, the regenerative engineering field is also proposing novel and efficient strategies for the delivery of therapeutic molecules, or cell populations, to the CNS to promote the restoration of the normal tissue function.

In this symposium we aim to introduce to the biomaterial’s community the specificities of these cells and the advantages of the exploration of biomaterials and tissue engineering strategies in the dissection of glial-related mysteries and in the treatment of gliopathologies.

Keywords : neurodegenerative diseases, in vitro models, sensors

Session TrackBiomaterials for specific medical applications
Session TitleAdvances in Antimicrobial and Antibiofilm Biomaterials
Session CodeSP-T06-0143
Date & Time / RoomMay 31 (Fri) 11:20~12:50 / Room 321-A

Organizer: Anita Shukla (Brown University, USA)

Chair

Anita Shukla (Brown University, USA)

Rachit Agarwal (Indian Institute of Science, India)

Keynote Speaker: 11:20~11:45 : Antibacterial polymers and their applications as antibiotic replacements, antibiofilm agents, and for device applications Mary Chan-Park (Nanyang Technological University, Singapore)

Mary Chan-Park
(Nanyang Technological University, Singapore)

Dr Mary Chan is presently a professor at the School of Chemical and Biomedical Engineering at the Nanyang Technological University Singapore (NTU Singapore). She is presently the Director of the Centre for Antimicrobial Bioengineering. Her expertise is in polymers for biotechnology and nanotechnology. She has developed a class of cationic antimicrobial polymers and coatings that are selective toxic to bacteria and have good biocompatibility. Her hydrogel materials for various biomedical applications (contact lens and wound dressing) have been licensed to the companies.

She has been elected to being a Fellow of the America Institute of Medical and Biological Engineering. She is also an associate editor of the ACS Applied Materials & Interfaces. She was the Acting Chair (2011-2013) and also a co-founder of the School of Chemical and Biomedical Engineering at NTU. She obtained her BEng (Chem) and PhD (polymers) from the National University of Singapore and MIT respectively.

Invited Speaker: 11:45~12:00 : Strain-selectivity in nanomaterial-based antibacterial agent Mrinmoy De (Indian Institute of Science, India)

Mrinmoy De
(Indian Institute of Science, India)

Mrinmoy De is a professor at the Department of Organic Chemistry at the Indian Institute of Science, Bangalore, India. He completed his BSc degree from Vidyasagar University with a Gold medal. He received his M.Sc. from the Indian Institute of Technology, Bombay, and his Ph.D. from the University of Massachusetts at Amherst under the supervision of Prof. Vincent M. Rotello. He was a CCNE (Center of Cancer Nanotechnology Excellence) and NSEC (Nanoscale Science and Engineering Center) postdoctoral fellow at Northwestern University. Since 2014, he has been at the Indian Institute of Science, Bangalore, where he is an associate professor in the department of organic chemistry. His research focuses on preparing various nanomaterials and their application to develop mRNA vaccines and antibiotics. Mrinmoy De is an associate member of the American Material Research Society (MRS), American Chemical Society (ACS), Material Research Scoiety of India (MRSI), Chemical Research Society of India (CRSI), and Society Of Biological Chemists, India(SBCI). He is the recipient of the Young Scientist Award by Science and Engineering Research Board (SERB), the Outstanding Researcher Award by NSF Nanoscale Science & Engineering Center and CRS Silver Medal.

Oral Presenter

12:00~12:10 : Novel Platelet Storage Devices to Combat Bacterial Contamination and Growth Kai Yu (University of British Columbia, Canada)

12:10~12:20 : Antibacterial properties of multiple antigenic peptides (MAP) based on polyarginine: from experiments to molecular dynamic simulations Philippe Lavalle (Inserm / University of Strasbourg, France)

12:20~12:30 : Dynamic titanium surface adapts to multiple service stages by orchestrating responsive polymers and antimicrobial peptides Lin Wang (South China University of Technology, China)

12:30~12:40 : Properties of nano-magnesium oxide modified antibacterial light-curing adhesive resin Jing Fu (The Affiliated Hospital of Qingdao University, China)

Description

Microbial infections are among the leading causes of death worldwide. Drug resistance and the lack of new antimicrobial therapeutics have made it increasingly difficult to treat microbial infections. The World Health Organization has described antibiotic resistance as “one of the biggest threats to global health, food security, and development today.” Microbial biofilms can also severely complicate treatment and lead to chronic infections. These complex, three-dimensional microbial communities can form on a range of medical devices and biological surfaces and exhibit sophisticated defense mechanisms, evading traditional antimicrobial therapies. There is an immediate need to engineer advanced antimicrobial biomaterials, therapeutics, and delivery systems that can rapidly and effectively treat infections, while helping to control the spread of resistance and formation of biofilms. This session will focus on recent advances in developing materials for the prevention and treatment of bacterial, fungal, viral, biofilm, and polymicrobial infections. The keynote and invited speakers will cover a broad range of biomaterials approaches to treating infection, ranging from new antimicrobial polymers to hydrogel drug delivery systems and 2D nanomaterials. Abstracts submitted may include topics from synthesis of new antimicrobial molecules and macromolecules to fabrication of antimicrobial surfaces, device coatings, nano- and micro-particle drug carriers, hydrogels, etc. Interdisciplinary biomaterials research including modulation of the immune system and host-microbiome interactions to influence antimicrobial activity will also be included. Research in the design, synthesis, characterization, testing, and translation of these antimicrobial materials will be discussed. The purpose of this session is to bring together various promising materials-based approaches to prevent and treat microbial infections and provide a discussion platform to researchers all across the world in synergizing their efforts.

Keywords : antimicrobial, antibiofilm, infection

Session TrackBiomaterials for specific medical applications
Session TitleMultifunctional biomaterials for blood contacting and cardiovascular applications
Session CodeSP-T06-0214
Date & Time / RoomMay 30 (Thu) 13:40~15:10 / Room 314

Organizer: Kyla Sask (McMaster University, Canada)

Chair

Kyla Sask (McMaster University, Canada)

Anna Waterhouse (The University of Sydney, Australia)

Keynote Speaker: 13:40~14:05 : Strategies to improve the hemocompatibility and avoid infection in blood-contacting medical devices M. Cristina L. Martins (University of Porto, Portugal)

M. Cristina L. Martins
(University of Porto, Portugal)

Cristina Martins (Martins, MCL) is an expert in the development of biomaterial coatings designed at the nanoscale using self-assembled monolayers (SAMs) and biomedical polymers. She has the honorable status of “Fellow, Biomaterials Science and Engineering (FBSE), since December 2020. Cristina Martins is Principal Investigator at INEB/ i3S (Instituto Engenharia Biomédica/Instituto de Investigação e Inovação em Saúde; www.i3s.up.pt) and Invited Assistant Professor at the University of Porto, Portugal (ICBAS - Instituto de Ciências Biomédicas Abel Salazar). Cristina Martins is the leader of the research group: BioEngineered Surfaces. Her group is investigating the effect of surface immobilized ligands (proteins/peptides, fatty acid like and glycosylated compounds) in the guiding of specific protein/cell binding to control bacterial infection (e.g., in gastric and skin infection or osteomyelitis prevention) and/or medical devices associated thrombus formation.
https://orcid.org/0000-0002-6574-4794
https://scholar.google.pt/citations?user=zTnuO7YAAAAJ&hl=en
https://www.scopus.com/authid/detail.uri?authorId=7402262354

Invited Speaker: 14:05~14:20 : HISTOPATHOLOGY EVALUATION OF MULTIFUNCTIONAL BIOMATERIALS FOR CARDIOVASCULAR APPLICATION Sabareeswaran A (Sree Chitra Tirunal Institute for Medical Sciences and Technology, India)

Sabareeswaran A
(Sree Chitra Tirunal Institute for Medical Sciences and Technology, India)

He has 18 years of working experience as Veterianry pathologist in evaluating biomaterials and medical devices as per international standard in an accredited Histopathology laboratory. As study pathologist in preclinical studies, he has evaluated medical devices like Chitra-TTK mechanical heart valve, biological heart valve, left ventricular assist devices (LVAD), haemoconcentrator, blood oxygenator, coronary stents, large diameter vascular grafts, bone implants, dental implants, Dura substitutes, decellularised scaffolds, wound care products, tissue engineered vascular grafts, and cornea in small and large animal models.
He has published more than 60 research articles in peer-reviewed journals like Biomaterials, Nanomedicine, Tissue engineering etc., and one book, “Color atlas of tissue response to biomaterials and medical devices”

Oral Presenter

14:20~14:30 : Biomimetic approaches for cardiovascular medical device materials Anna Waterhouse (The University of Sydney, Australia)

14:30~14:40 : A thermo-responsive shape-memory polymer to enable the minimally invasive delivery of an implantable blood pressure measurement device Arjan Sall (Healthcare Technologies Institute, School of Chemical Engineering, University of Birmingham, United Kingdom)

14:40~14:50 : The well-designed nanobubbles for vascular inflammatory imaging Fang Yang (Southeast University, China)

14:50~15:00 : A novel total hip replacement design based on cylindrical joints: numerical simulation of stresses on a small-sized version Leonardo Fanton (University of Malta, Malta)

15:00~15:10 : A new class of hydrogel for soft and hard tisue repair. Fariba Dehghani (The University of Sydney, Australia)

Session TrackBiomaterials for specific medical applications
Session TitleDiscovery, characterisation and applications of immune-instructive materials
Session CodeSP-T06-0247
Date & Time / RoomMay 29 (Wed) 16:30~18:00 / Room 321-A

Organizer: Amir Ghaemmaghami (University of Nottingham, United Kingdom)

Chair

Amir Ghaemmaghami (University of Nottingham, United Kingdom)

Nihal Engin Vrana (Sparha Medical, France)

Keynote Speaker: 16:30~16:55 : Bioengineering Cell-Based Therapeutics Omid Veiseh (Rice University, USA)

Omid Veiseh
(Rice University, USA)

Dr. Omid Veiseh, Ph.D., is an Associate Professor and CPRIT Scholar in Cancer Research in the Department of Bioengineering and the Director of the Rice Biotechnology Launch Pad at Rice University. He leads an interdisciplinary translational research program to engineer and commercialize next-generation cell-based therapeutics for various human diseases. His team leverages the latest techniques in synthetic biology, immunoengineering, and materials science to develop innovative cell-based platforms for real-time and feedback-regulated production of biologics. Over the course of his career, he has authored or co-authored more than 75 peer-reviewed publications, including those in Nature, Nature Biotechnology, Nature Materials, Nature Medicine, and Nature Biomedical Engineering, and is an inventor on more than 40 pending or awarded patents. He is also a serial entrepreneur who has co-founded Sigilon Therapeutics (Nasdaq: SGTX), Avenge Bio, Sentinel Bio, and Curada Bio. These companies collectively have attracted ~ $500M in private and public investment capital. In September of 2023, he was named the Director of Rice University's Biotech Launch Pad, a new initiative with a mission to accelerate the translation of Rice University discoveries and technologies into clinical practice to provide rapid patient access to leading-edge therapeutic products.

Invited Speaker

16:55~17:10 : The Routes of Incorporation of Immunomodulatory Properties for Multifunction Supramolecular Biomaterial-based Systems Nihal Engin Vrana (Sparha Medical, France)

17:10~17:25 : Harnessing molecular nanoscale arrangement to modulate immunity Michelle Teplensky (Boston University, USA)

Oral Presenter

17:25~17:35 : Milk Exosome-immobilized Fibrous Matrix for Accelerated Wound Healing

Hoai-Thuong Duc Bui (Kangwon National University, Korea, Republic of)

17:35~17:45 : Mechano-activated cell therapy for accelerated diabetic wound healing Andy Tay (National University of Singapore, Singapore)

17:45~17:55 : Elucidating Interfacial Instabilities in Epithelial Tissue Gap Closure by Analyzing the Dynamic Features of Cells Jennifer Shin (KAIST, Korea, Republic of)

Description

Immune-instructive materials, are materials with the ability to modulate or mimic the function of immune cells. Such materials provide exciting opportunities for developing new therapies in many areas of unmet clinical need including medical devices, regenerative medicine/tissue engineering, chronic inflammation and cancer immunotherapy.

In this symposium we discuss new material discovery techniques such as high throughput material screening methodologies and in silico predictive material/function models particularly using deep learning/machine learning techniques. The symposium will cover topics highlighting how key material properties such as topography, size, shape, and surface chemistry can be leveraged to develop immune-instructive materials, with focus on latest research involving material-based strategies for modulating the functional properties of the immune cells such as macrophages and dendritic cells. The symposium will also explore the potential application of such materials in cell-based therapeutics, new cancer vaccines, chronic wound healing, infection, fibrosis treatment and multi-functional bio-instructive coatings. The potential routes of exploitation and the barriers to commercialisation/industrialisation will be covered by industrial participants.

This symposium will directly address ‘Biomaterials for specific medical applications' in the WBC's list of topics, and will be of interest to a broad range of researchers and clinicians with interest in developing new materials to mitigating foreign body response and infection associated with medical devices, materials based-cell therapies (e.g. for diabetes and cancer), materials for wound healing as well as material scientists who are interested in new material discovery and characterisation pipelines. We also believe the proposed topics on in-silico approaches in material design and pathways to market will be of great interest to researchers and entrepreneurs with interest in machine learning and commercialisation.

Keywords : immune-instructive materials, wound healing, cell therapies

Session TrackBiomaterials for specific medical applications
Session TitleBiomaterials for women’s health engineering
Session CodeSP-T06-0254
Date & Time / RoomMay 30 (Thu) 13:40~15:10 / Room 323

Organizer: Brendan Harley (University of Illinois at Urbana-Champaign, USA)

Chair

Brendan Harley (University of Illinois at Urbana-Champaign, USA)

Elizabeth Cosgriff Hernandez (University of Texas at Austin, USA)

Keynote Speaker: 13:40~14:05 : Biomimetic scaffolds for vaginal tissue engineering Samantha Zambuto (Washington University in St. Louis, USA)

Invited Speaker: 14:05~14:20 : Physiomimetic models of endometrioma initiation Brendan Harley (University of Illinois at Urbana-Champaign, USA)

Oral Presenter

14:20~14:30 : Self-fitting vaginal stents based on shape memory foams Elizabeth Cosgriff-Hernandez (The University of Texas at Austin, USA)

14:30~14:40 : Antibacterial albumin-tannic acid coatings for scaffold-guided breast reconstruction Silvia Cometta (Queensland University of Technology, Australia)

14:40~14:50 : In vitro accelerated ageing and infrared microscpectroscopy method study of silicone breast implant Credson Langueh (CY Cergy Paris University, France)

14:50~15:00 : 3D printing for engineering gynecological tissues John Fisher (University of Maryland, USA)

Session TrackBiomaterials for specific medical applications
Session TitleInnovative biomaterials for neural applications
Session CodeSP-T06-0256
Date & Time / RoomMay 31 (Fri) 11:20~12:50 / Room 323

Organizer: Sarah Stabenfeldt (Arizona State University, USA)

Chair

Sarah Stabenfeldt (Arizona State University, USA)

Abhay Pandit (University of Galway, Ireland)

Abhay Pandit
(University of Galway, Ireland)

Professor Abhay Pandit, spanning over 32 years, has made significant contributions to biomaterials and medical device translation. After spending seven successful years in the industry, Prof. Pandit transitioned to academia, where he has dedicated the past 25 years to his work.

A notable achievement in Prof. Pandit's career is the establishment of CÚRAM, the Science Foundation Ireland (SFI) Centre for Research in Medical Devices at the University of Galway in Ireland. Serving as a thriving hub for more than 1000 researchers, CÚRAM brings together experts from diverse disciplines including biomaterials, biomechanics, regenerative medicine, glycobiology, drug delivery, and medical implant design. Through collaborations with industry partners, the center actively fosters innovation and facilitates the translation of research into practical applications.

Prof. Pandit derives his inspiration from comprehending fundamental pathological processes influenced by glycomodulation. This understanding enables him to develop superior biomaterial substrates for materials design, with a particular focus on degenerative or chronic conditions associated with the cardiovascular, neural, and intervertebral disc domains.

Prof. Pandit has accumulated over €175 million in research contracts from industry and government funding agencies. His work has resulted in the filing of 28 patents, while 14 other patent applications are currently pending. Furthermore, Prof. Pandit has successfully licensed several technologies to medical device companies, amplifying the practical impact of his research.

Prof. Pandit's research contributions are well-documented through his publication record. He has authored more than 345 manuscripts, which have been featured in esteemed publications such as Science Advances, Nature Communication, Science Translational Medicine, PNAS, Advanced Materials, Journal of American Chemical Society, Advanced Functional Materials, Biomaterials, and Molecular Therapy. Additionally, he has presented over 715 papers at national and international conferences, further disseminating his findings and insights to the scientific community.

Prof. Pandit actively engages in editorial activities. He holds a position on the Executive Editorial Board of the Tissue Engineering journal and is the Senior Associate Editor for the Biomaterials journal. Additionally, he chairs the EU Chapter of the Tissue Engineering and Regenerative Medicine Society, showcasing his leadership and influence within the discipline.

Prof. Pandit's contributions have garnered him prestigious awards, including the George Winter Award 2022 from the European Society for Biomaterials and the Chandra P Sharma Award from the Society for Biomaterials and Artificial Organs India. Furthermore, he has been honored as a Fellow of AIMBE, TERMIS, IAE, and IUSBSE, reflecting his standing in the scientific community.

Keynote Speaker: 11:20~11:45 : 3D printing complex human neural tissues Stephanie Willerth (University of Victoria, Canada)

Stephanie Willerth
(University of Victoria, Canada)

Dr. Willerth is a Full Professor in Biomedical Engineering at the University of Victoria where she has dual appointments in the Department of Mechanical Engineering and the Division of Medical Sciences. She also holds an appointment with the School of Biomedical Engineering at the University of British Columbia and is a Fellow of the Canadian Society of Senior Engineers. She recently founded the start-up company - Axolotl Biosciences that sells high quality bioinks for bioprinting human tissue models. She is an active member of the steering committee of the B.C. Regenerative Medicine Initiative and the Stem Cell Network. She also serves as a staff scientist at Creative Destruction Lab. She served as the Acting Director of the Centre for Biomedical Research and the Biomedical Engineering undergraduate program at the University of Victoria from 2018-2021 and as the President of Canadian Biomaterials Society from 2018-2019. She was elected to the Royal Society of Canada’s College of New Scholars and Engineers and Geoscientists of B.C. awarded her their Teaching Award of Excellence in 2021.

Invited Speaker

David Nisbet (University of Melbourne, Australia)

12:00~12:15 : Biomaterial and drug-delivery based approach for spinal cord injury and for neuropathic pain Seil Sohn (Cha university, Korea, Republic of)

Oral Presenter

12:15~12:25 : Highly piezoelectric, biodegradable and flexible amino acid nanofibers for medical applications Thanh Nguyen (University of Connecticut, USA)

Thanh Nguyen
(University of Connecticut, USA)

Dr. Nguyen is an Associate Professor of Mechanical Engineering (ME), joined with the department of Biomedical Engineering (BME) at UConn. He started at UConn as an assistant professor since the beginning of 2016 after finishing his postdoctoral fellowship with Dr. Robert Langer at MIT. His research is highly interdisciplinary and at the interface of biomedicine, materials and nano/micro technology. He has invented a platform 3D manufacturing technology, so-called SEAL (StampEd Assembly of Polymer Layers), to create single-injection self-boosting vaccines which simulate the effect of multi-bolus injections of the vaccines. Recently, his research group at UConn has advanced the SEAL method to create a skin microneedle patch (similar to Nicotine patch) which can be applied on the skin at a single time to deliver multiple bursts of stabilized vaccines against different pathogens. His research group at UConn has also studied a new biodegradable piezoelectric polymer which can be used for monitoring vital biophysiological forces, stimulating tissue growth and transporting drugs through physiological barriers inside the body. Dr. Nguyen’s works have been published in prestigious journals including Science, Nature Nanotech, Science Translational Medicine, Nature Biomedical Engineering, Science Advances, PNAS, Advanced Materials etc. He received several awards including the prestigious Biomaterials Young Investigator Awards (from the top journal of Biomaterials), CRS (Controlled Release Society) Transdermal and Mucosal Delivery Focus Group Young Investigator Award (2021), ACell Young Investigator Award (2020), MIT top innovator under 35 for Asia Pacific (2019), NIH Trailblazer Award for Young and Early Investigators (2018), SPIE Rising Researcher Award (2019), Young Investigator Award in Biosciences and Bioengineering of Applied Sciences (2019), and the SME Outstanding Young Manufacturing Engineer Award (2018) etc. Dr. Nguyen’s research was also featured on many news and media all around the world (please see http://www.nguyenresearchgroup.com/news).

12:25~12:35 : Porous poly(glycerol sebacate)-methacrylate nerve guidance conduits for peripheral nerve regeneration Louis Johnson (University of Sheffield, United Kingdom)

12:35~12:45 : Transient and minimally invasive electronics platform for brain interfaces Jae-Young Bae (Seoul National University, Korea, Republic of)

Session TrackBiomaterials for specific medical applications
Session TitleBiomaterials in regeneration applications and drug delivery
Session CodeSP-T06-0275
Date & Time / RoomMay 28 (Tue) 13:40~15:10 / Room 323

Organizer: Hyuk Sang Yoo (Kangwon National University, Korea, Republic of)

Chair

Hyuk Sang Yoo (Kangwon National University, Korea, Republic of)

Yu Han Lee (Harvard University, USA)

Keynote Speaker: 13:40~14:05 : Noninvasive Gut-to-Brain Oral Delivery Systems Hsing Wen Sung (National Tsing Hua University, Chinese Taipei)

Hsing Wen Sung
(National Tsing Hua University, Chinese Taipei)

Hsing-Wen Sung is a Tsing Hua Distinguished Chair Professor, Department of Chemical Engineering, National Tsing Hua University. He received his PhD degree from the Department of Chemical Engineering/Biomedical Engineering Program, Georgia Institute of Technology in May 1988. His research interests are biomaterials, tissue engineering, and drug/gene delivery. Professor Sung has received numerous awards such as Fellow of American Institute for Medical and Biological Engineering, Fellow of International Union of Societies for Biomaterials Science and Engineering, Academician of Asia Pacific Academy of Materials, Ho Chin Tui Outstanding Research Award, National Science Council Outstanding Research Award, Professor Tsai-The Lai Award, Elsevier 2015 Biomaterials Best Paper Award, and 2016 TERMIS-AP Outstanding Scientist Award. He has been on the Editorial Boards of Journal of Controlled Release and Advanced Healthcare Materials; also, he has been serving as a Handling Editor for Biomaterials. Professor Sung has published 294 scientific papers and received 139 international patents. His published papers have over 31,409 citations with an H-index of approximately 97, according to Google Scholar.

Invited Speaker

Yu Han Lee (Harvard University, USA)

14:20~14:35 : Cell Membrane-cloaked Scaffolds for Biomedical Applications Hye Sung Kim (Dankook University, Korea, Republic of)

Oral Presenter

14:35~14:45 : Surface-cellular interaction and protein adsorption on polymer coatings for implantable medical device application Bruna Cambraia Garms (Monash University, Australia)

14:45~14:55 : Hybrid collagen-based biomaterials for tissue Regeneration applications Yujiang Fan (Sichuan University, China)

Session TrackBiomaterials for specific medical applications
Session TitleRegenerative Approaches for ENT Field
Session CodeSP-T06-0360
Date & Time / RoomMay 31 (Fri) 9:30~11:00 / Room 322

Organizer: Seong Keun Kwon (Seoul National University Hospital, Korea, Republic of)

Chair

Seong Keun Kwon (Seoul National University Hospital, Korea, Republic of)

Tsung-Lin Yang (National Taiwan University, Chinese Taipei)

Keynote Speaker: 9:30~9:55 : Strategies and considerations in regenerative medicine of the larynx Nathan Welham (University of Wisconsin-Madison, USA)

Nathan Welham
(University of Wisconsin-Madison, USA)

Nathan Welham, Ph.D., CCC-SLP, is a tenured Professor of Otolaryngology-HNS at the University of Wisconsin-Madison. Dr. Welham has served as a clinician and clinical educator at UW for more than two decades; he also oversees a federally funded research program in vocal fold biology. Dr. Welham’s research program is broadly focused on vocal fold mucosal injury, repair, and fibrosis; retinoid biology in epithelial hyperplasia; emerging biologic therapies for regenerative medicine; and protein turnover dynamics in health and disease. This work has been continuously supported by the NIDCD since 2007.

Invited Speaker

Tsung-Lin Yang (National Taiwan University, Chinese Taipei)

10:10~10:25 : Tracheal reconstruction using an artificial trachea Yo Kishimoto (Kyoto University, Japan)

Oral Presenter

10:25~10:35 : 3D printed trabecular porous tantalum spine fusion device: mechanical behavior and in vivo osteointegration Jingzhou Yang (Tsinghua University, China)

10:35~10:45 : Mesenchymal Stem Cell Spheroids for Inducing Angiogenesis JI SUK CHOI (Seoul National University Hospital, Korea, Republic of)

Session TrackBiomaterials for specific medical applications
Session TitleBioadhesive technologies for tissue repair and regeneration
Session CodeSP-T06-0166
Date & Time / RoomMay 31 (Fri) 9:30~11:00 / Room 321-A

Organizer: Jianyu Li (McGill University, Canada)

Chair: Yu Han Lee (Harvard Medical School, USA)

Keynote Speaker: 9:30~9:55 : Integrating adhesion and hemostasis for tissue repair Malcolm Xing (University of Manitoba, Canada)

Invited Speaker: Jingda Tang (Xi'an Jiaotong University, China)

Oral Presenter

10:10~10:20 : Engineering highly cellularized materials with click clotting strategy Tianqin Ning (McGill University, Canada)

10:20~10:30 : Development and characterization of a bioresorbable bone adhesive using calcium phosphate cement, phosphoserine, and polydopamine nanoparticles Feng CHAI (Univ Lille, France)

10:30~10:40 : Bioinspired Adhesives: Unlocking the Potential of Phosphoserine-Modified Calcium Phosphates for Effective Bone Repair and Regeneration Antzela Tzagiollari (Dublin Citu University, Ireland)

10:40~10:50 : Adhesive muscle extracellular matrix hydrogels for functional regeneration in skeletal muscle atrophy

Mi Jeong Lee (Yonsei University, Korea, Republic of)

Session TrackBiomaterials for specific medical applications
Session TitleBiomaterial Systems and Devices for Hemostasis, Resuscitation, and Wound Care
Session CodeSP-T06-0183
Date & Time / RoomMay 30 (Thu) 16:30~18:00 / Room 321-A

Organizer: Ashley Brown (North Carolina State University and University of North Carolina at Chapel Hill, USA)

Chair

Anirban Sen Gupta (Case Western Reserve University, USA)

Anirban Sen Gupta
(Case Western Reserve University, USA)

Dr. Anirban Sen Gupta is the Wallace R. Persons Endowed Professor of Engineering, with Full Professor tenure in the Department of Biomedical Engineering, at Case Western Reserve University (CWRU), Cleveland, Ohio, United States. He received bachelor’s degrees in Chemistry (B.Sc. HONORS) and Chemical Engineering (B. Tech.) from the University of Calcutta (Kolkata), West Bengal, India during 1992-1998. He traveled to the US in 1998, and received his MS and PhD in Chemical Engineering with polymeric biomaterials focus, under the guidance of Dr. Stephanie Lopina, from the University of Akron, Ohio, USA, during 1998-2003. He also gained valuable industrial experience at Guilford Pharmaceuticals (Baltimore, Maryland) and Procter & Gamble (Cincinnati, Ohio) in translational biomaterials applications. He then underwent post-doctoral training at CWRU with Dr. Roger Marchant in the area of hemocompatible coatings, during 2003-2006. Dr. Sen Gupta started his academic career as a tenure-track Assistant Professor in the Department of Biomedical Engineering at CWRU in 2006 and was promoted to Full Professor with tenure in 2017. Research in the Sen Gupta laboratory spans the areas of thromboresistant coatings for device hemocompatibility, bioartificial blood surrogates for transfusion medicine applications, targeted nanomedicine systems for vascular drug delivery, and surface-engineered dielectric microsensors for rapid assessment of coagulopathies. These diverse research areas involve strong collaborations within the US, as well as internationally, and is supported by funding from NSF, NIH, DoD, DARPA, State of Ohio, and Case-Coulter Translational Research Partnership. Dr. Sen Gupta has also co-founded a biotechnology startup company, Haima Therapeutics, with a vision for translation and commercialization of technologies developed in his laboratory. Dr. Sen Gupta serves in leadership and organizational roles in several academic societies, and serves in the editorial team in peer-reviewed journals including Biomaterials (Elsevier), Journal of Thrombosis and Haemostasis (Elsevier) and ACS Biomaterials Science and Engineering (ACS). He is an elected Fellow of American Institute for Medical and Biological Engineering, and Fellow Biomaterials Science and Engineering. Dr. Sen Gupta is deeply committed to providing inclusive and equitable mentorship to all researchers in his laboratory.

Ildoo Chung (Pusan National University, Korea, Republic of)

Keynote Speaker: 16:30~16:55 : Storable and ready-to-use artificial red cells (hemoglobin vesicles) as a resuscitative fluid for emergency medicine Hiromi Sakai (Nara Medical University, Japan)

Hiromi Sakai
(Nara Medical University, Japan)

Hiromi Sakai received Ph.D. (D.Eng.) in polymer chemistry in 1994 from Waseda Univ., Tokyo, with a thesis entitled “Hemoglobin-vesicles (HbV) as a molecular assembly” (Supervisor, late Prof. E. Tsuchida), and since then he has continuously studied HbV. In 1996-1998 he studied at Dept. Bioengineering, UC San Diego (Supervisor, Prof. M. Intaglietta) and evaluated the microvascular responses to HbV injection. After coming back to Tokyo, he studied improvement of the stabilization and biocompatibility of HbV and evaluated its safety and efficacy by animal experiments. In 2006 he received Ph.D. (D.Med.Sci.) from Keio Univ. School of Medicine (Supervisor, Prof. K. Kobayashi). Dr. Sakai was a Lecturer and an Associate Professor at Research Institute for Sci.&Eng. Waseda Univ. in 1998-2009, and PI at Waseda Bioscience Research Institute in Singapore in 2009-2013. During the period he invented a patented efficient encapsulation method that facilitated the entire R&D of HbV. From 2013 he has been the Professor of Chemistry, Nara Medical University, Kashihara, Japan. He is the chief investigator of the artificial red cells project, which has been supported by Ministry of Health Labour and Welfare, Japan and the Japan Agency for Medical Research and Development (AMED). First-in-human phase 1 trial of HbV was completed in 2021 and the result was published in Blood Advances in 2022. The project aiming at the next phase study is ongoing. He has over 300 publications related to artificial red cells. From 2019 he is the fourth president of the Society of blood Substitutes, Japan (SBSJ).

Invited Speaker

16:55~17:10 : Functional Effects of Platelet Manufacturing and Storage Susan Shea (University of Pittsburgh, USA)

17:10~17:25 : Ultrasoft colloidal hydrogels in confined environments Andrew Lyon (Chapman University, USA)

Andrew Lyon
(Chapman University, USA)

Dr. Andrew Lyon has over 25 years of experience as a chemist, bioengineer, educator, and entrepreneur and is currently a professor of chemistry at Chapman University in Orange, CA. Dr. Lyon also serves as the Chair of the Board of Directors of the Arnold and Mabel Beckman Foundation, an organization with a long and successful history of providing funding to young investigators in the physical and life sciences. He previously served as the Founding Dean of the Dale E. and Sarah Ann Fowler School of Engineering at Chapman University from 2019-2023, and as Dean of the Schmid College of Science and Technology at Chapman University from 2014-2018. Before arriving at Chapman, Dr. Lyon spent nearly 16 years at the Georgia Institute of Technology as a member of the Chemistry & Biochemistry faculty, serving as Associate Chair from 2010-2013 and Chair from 2013-2014, and directing a research program aimed at creating new types of biomaterials for regenerative medicine applications. In addition to his role at Chapman, he is the co-founder and Chief Scientific Officer of Sanguina, Inc. and SelSym Biotech, Inc. two early-stage biotechnology companies. Sanguina is a medical device company with two FDA 510(k) cleared devices for anemia determination (including AnemoCheck Home), as well as a digital health tool (the smartphone app AnemoCheck Mobile), which allows for the real time, non-invasive determination of anemia using only your smartphone camera. SelSym Biotech is aimed at commercializing a novel artificial platelet technology for applications in trauma and a variety of coagulopathies. Dr. Lyon is the recipient of the NSF CAREER, Beckman Young Investigator, Research Corporation Research Innovation, and Camille Dreyfus Teacher-Scholar Awards, an Alfred P. Sloan Fellowship, the National Fresenius Award, and the 2021 Distinguished Educator Award presented by the Orange County Chamber of Commerce. He is a Senior Member of the National Academy of Inventors.

Oral Presenter

17:25~17:35 : Well-defined porous biodegradable and thermoresponsive micro/nanospheres ILDOO CHUNG (Pusan National University, Korea, Republic of)

17:35~17:45 : Impact of the drying approach on the properties of hydrogel/textile biohybrid vascular implants Dominic Pascal Andre (RWTH Aachen University, Germany)

17:45~17:55 : Chemically modified silk proteins and their applications Chengchen Guo (Westlake University, China)

Session TrackBiomaterials for specific medical applications
Session TitleBiomaterials and devices for cardiovascular applications
Session CodeSP-T06-0216
Date & Time / RoomMay 30 (Thu) 9:30~11:00 / Room 325-CD

Organizer: Yunbing Wang (Sichuan University, China)

Chair

Yunbing Wang (Sichuan University, China)

Song Li (University of California, Los Angeles, USA)

Keynote Speaker: 9:30~9:55 : Biohybrid supports for heart failure: Integrating extracellular matrix digest into microfibrous, elastic composite materials to redirect tissue remodeling William Wagner (University of Pittsburgh, USA)

William Wagner
(University of Pittsburgh, USA)

Professor William R. Wagner is a Distinguished Professor of Surgery, Chemical Engineering, and Bioengineering at the University of Pittsburgh and the Founding Editor and Editor-in-Chief of one of the leading biomaterials journals, Acta Biomaterialia. He holds a B.S. (Johns Hopkins Univ.) and Ph.D. (Univ. of Texas) in chemical engineering. Professor Wagner currently serves as president of the Society for Biomaterials (US) and is a past-president of the American Society for Artificial Internal Organs (ASAIO) and past chairman of the Tissue Engineering and Regenerative Medicine International Society (TERMIS) Americas region. He is a fellow and former vice president of the American Institute for Medical and Biological Engineering (AIMBE) and has also been elected a fellow of the Biomedical Engineering Society, the International Union of Societies for Biomaterials Science and Engineering, TERMIS, the International Academy of Medical and Biological Engineering (IAMBE) and the American Heart Association. He has been selected to the “Scientific American 50”, the magazine’s annual list recognizing leaders in science and technology from the research, business and policy fields. His research has generated numerous patents (50 issued to date) and patent filings that have resulted in licensing activity, the formation of three companies, one of which initiated two clinical trials. Transfer of his group’s intellectual property has been recognized with University of Pittsburgh Innovator Awards in 2007, 2008, 2009, 2010, 2014, 2017 and 2018. Some of his awards include the Society for Biomaterials Clemson Award for Applied Research, the Chancellor’s Distinguished Research Award from the University of Pittsburgh, and the Senior Investigator Award from TERMIS-Americas. In 2017 he was inducted as a fellow of the National Academy of Inventors and in 2018 he was named Inventor of the Year by the Pittsburgh Intellectual Property Law Association. In 2019 Dr. Wagner was promoted to the rank of Distinguished Professor, the highest recognition available to University of Pittsburgh faculty. In 2020 the 4th edition of the best-selling biomaterials textbook, “Biomaterials Science” was published with Dr. Wagner taking over the lead editor role and in partnership with a new generation editorial team. He was also named by Pittsburgh Business Times to its “Power 100” list (“people who have defined and are redefining the region, and who are leading and shaping their industries”). Dr. Wagner recently received the Founder’s Award from the Society for Biomaterials (2021) and the Global Biomaterials Leadership Award from the Chinese Association for Biomaterials (2023). Dr. Wagner also was recently awarded the Marlin Mickle Outstanding Innovator Award through the University of Pittsburgh’s Innovation Institute for extraordinary commitment to innovation commercialization. Dr. Wagner’s research interests are in cardiovascular engineering with projects that address medical device biocompatibility and design, biomaterial development, and tissue engineering.

Invited Speaker

9:55~10:10 : Biomaterial research: from bioinspired to data driven approach Jian Ji (Zhejiang University, China)

10:10~10:25 : Nano-theranostics for atherosclerosis Gaocan Li (Sichuan University, China)

10:25~10:40 : Ostrich Carotid Artery-derived Acellular Blood Vessel with 2mm ID for Limb Salvage Tetsuji Yamaoka (National Cerebral and Cardiovascular Research Institute, Japan)

Tetsuji Yamaoka
(National Cerebral and Cardiovascular Research Institute, Japan)

Tetsuji YAMAOKA, Ph.D. FBSE
-President of Japanese Society for Biomaterials
-Professor, Department of Clinical Engineering, Faculty of Health Sciences, Komatsu University,
-Visiting Director, National Cerebral and Cardiovascular Center Research Institute

EDUCATION
-1991 Ph.D., Polymer Chemistry, Kyoto University, Kyoto, JAPAN, Distribution and Half-life of Polymeric Substances Injected into the Body
-1988 B.S., Polymer Chemistry, Kyoto University, Kyoto, JAPAN

DISTINCTIONS
-1995 Award for Encouragement of Research in Polymer Science, The Society of Polymer Science, Japan
-2002 The Award for Young Investigator of Japanese Society for Biomaterials
-2010 The Award of Japanese Society for Biomaterials
-2011 The Award of the Society of Fiber Science and Technology Japan
-2011 IAAM Medal-2001 (International Association of Advanced Materials)

EXPERIENCE
-2023-present: Professor, Department of Clinical Engineering, Faculty of Health Sciences, Komatsu University
-2004-present: Director/Visiting Director, Department of Biomedical Engineering, Advanced Medical Engineering Center, National Cardiovascular Center Research Institute
-2002-2004: Associate Professor, Department of Polymer Science and Engineering, Kyoto Institute of Technology, Kyoto, Japan
-1995-2002: Lecturer, Department of Polymer Science and Engineering, Kyoto Institute of Technology, Kyoto, Japan
-1996-1997: Visiting Scientist, Department of Polymer Science and Engineering, University of Massachusetts at Amherst, MA,
-1992-1995: Assistant Professor, Department of Polymer Science and Engineering, Kyoto Institute of Technology, Kyoto, Japan
-1991-1992: Research Fellow, National Cardiovascular Center, Osaka, Japan

MEMBERSHIP IN PROFESSIONAL SOCIETY
-President of Japanese Society for Biomaterials
-Fellow of Biomaterials Science and Engineering (FBSE)
-Councilor: The Japanese Society of Gene Design and Delivery, The Society of Life Support Technology, Japanese Society for Artificial Organs, The Japanese Society of Drug Delivery System
Editorial Board: Journal of Artificial Organs
-Member: ACS, SFB, CRS, The Chemical Society of Japan, The Society of Polymer Science Japan, The Society of Fiber Science and Technology Japan, The Japanese Society for Regenerative Medicine

RUNNING SENTENCE
Prof. Tetsuji YAMAOKA is Professor of Department of Clinical Engineering of Komatsu-University (Ishikawa, Japan) and director of Department of Biomedical Engineering of National Cerebral and Cardiovascular Center Research Institute (Osaka, Japan). He is president of Japanese Society for Biomaterials (JSB) from 2020, former president of Asian Biomaterials Federation (2019-2021), and Japanese delegate for the International Union of Societies for Biomaterials Science and Engineering (IUS-BSE) (2008-2020). He hosted 40th anniversary annual meeting of JSB in Kobe in 2018, Joint Symposium of JSB and Society for Biomaterials (SFB) in Hawaii, and Asia Biomaterials Congress in conjunction with 43rd annual meeting of JSB in Nagoya in 2021. He has published more than 320 publications, review, books, and patent and received the Award of Japanese Society for Biomaterials (2010), the Award of the Society of Fiber Science and Technology Japan (2011), and so on. His recent research interest is especially focusing on both of the bio-derived and synthetic biodegradable materials, especially acellular tissue as cardiovascular biomaterials.

Oral Presenter

10:40~10:50 : Modulating matrix stiffness to reverse age-related cardiac dysfunction Ranmadusha Hengst (Mechanobiology Institute/National University of Singapore., Singapore)

10:50~11:00 : Selective NLRP3 inflammasome inhibitor MCC950 suppresses inflammation and facilitates healing in vascular materials Steven Wise (The University of Sydney, Australia)

Session TrackBiomaterials for in vitro (extracorporeal) analysis
Session TitleEx vivo model systems for cancer immunotherapy
Session CodeSP-T07-0063
Date & Time / RoomMay 27 (Mon) 13:00~14:30 / Room 321-B

Organizer: Junsang Doh (Seoul National University, Korea, Republic of)

Chair

Junsang Doh (Seoul National University, Korea, Republic of)

Kyobum Kim (Dongguk Univ, Korea, Republic of)

Keynote Speaker: Susan Thomas (Georgia Tech, USA)

Invited Speaker: Junsang Doh (Seoul National University, Korea, Republic of)

Junsang Doh
(Seoul National University, Korea, Republic of)

Prof. Doh received his bachelor’s degree in Chemical Engineering from Seoul National University in 1999. He then moved to MIT for his graduate work with Prof. Darrell J. Irvine in the development of multi-component protein micropatterned surfaces for the study of the immunological synapses formed in T cells during activation. He received his PhD in 2006 in Chemical Engineering/Program in Polymer Science and Technology. As a postdoctoral researcher, Dr. Doh studied homotypic interactions among activating T cells in the laboratory of Max Krummel at UC San Francisco from 2006-2008. In 2008, he joined POSTECH with a joint appointment in Interdisciplinary Bioscience and Bioengineering (I-Bio) and Mechanical Engineering. In 2019, he joined Seoul National University as an associate professor of department of materials science and engineering. Currently, Prof. Doh’s group develops engineering tools for cancer immunotherapy.

Oral Presenter

13:40~13:50 : 3D in vitro models of sinonasal cancers as a personalized platform to study new drugs Serena Danti (University of Pisa, Italy)

Serena Danti
(University of Pisa, Italy)

Serena Danti is Associate Professor at the Department of Civil and Industrial Engineering, University of Pisa. She is Team Leader of Otologic Bioengineering laboratory (OtoLab) at Cisanello Hospital in Pisa. Her research interest relies on smart approaches for pathology resolution, for ear, bone and cancer, among others. About the ear regeneration and repair, her research activity encompasses the full ear organ, from auricle, outer ear, tympanic membrane, ossicles and cochlea.
Serena Danti serves as Professor of “Biomaterials”, “Manufacturing of nanocomposites for biomedical application”, “Biofluids & materials Interactions “for the M.Sc. in Materials & Nanotechnology and for the B.Sc. in Speech Therapy at University of Pisa. She is a reference Professor and Board member of the Erasmus Mundus M.Sc. in Pharmaceutical Materials Science “BIOPHAM”.
Dr. Danti received her M.S. in Chemical Engineering from the University of Pisa in 2003. In 2006, she was a scholar research associate at the Centre for Excellence in Tissue Engineering, Rice University, Houston TX. Dr. Danti received her Ph.D. in “Health Technologies: Evaluation and Management of Innovations in the Biomedical Field” in 2007 by the Centre for Excellence in Computer Assisted Surgery (ENDOCAS), University of Pisa. Her postdoctoral training was performed at the Centre for the Clinical Use of Stem Cells (CUCCS), and, as a senior Post Doc, at the Otorhinolaryngology Unit, Department of Neurosciences/Surgical, Medical & Molecular Pathology, University of Pisa. She received two research fellowships from Pisa Hospital, ENT, Audiology & Phoniatrics Unit, where she established OtoLab in 2010.
She is Affiliate researcher at Massachusetts Institute of Technology (MIT), Cambridge, MA, USA since 2017 and at the BioRobotics Institute, Scuola Superiore Sant’Anna, Pontedera (Pisa) since 2014. She is a member of 3R’s center (Italy). Serena Danti is coordinator of the European project 4NanoEARDRM to develop bioactive tympanic membrane scaffolds via nanotechnology. Moreover, she is currently involved in several national projects in the field of biomaterial approaches to different pathologies, including sinonasal cancer (ADAPTA), bone loss (ANGIOSS) and malnutrition (BIONUTRA). She was principal investigator of the project AURICULAE, for auricle regeneration, and of the project NANO-SPARKS, for developing advanced piezoelectric materials for cochlear implants. She is also coordinating a partner unit in FURIOUS, a BCE-JU Horizon Europe project on sustainable materials for biomedical packaging and antibacterial automotive filters.
Dr. Danti has published 133 papers indexed in Scopus, including 12 book chapters. She is an author of 130+ presentations to international conferences and is an inventor of 5 patents, 4 of which are in the field of Otology and Phoniatrics.

13:50~14:00 : Cell derived extracellular matrices for tumor models for in vitro testing Elisabeth Engel (Universitat Politecnica de Catalunya, Spain)

14:00~14:10 : Hydrolytically Degradable, Micro-organoids for Spatial Patterning of Human Lymph Node Tissue Chips Valeria Juarez (Georgia Institute of Technology, USA)

14:10~14:20 : IN VITRO HYDROGEL-BASED MODELS TO OBSERVE GLIOBLASTOMA SPHEROID GROWTH, INVASION AND THERAPY RESPONSIVENESS AT MATRIX INTERFACES Eya Ferchichi (Saint Louis University, USA)

Session TrackBiomaterials for in vitro (extracorporeal) analysis
Session TitleIn vitro microphysiological systems for studying tumor microenvironment
Session CodeSP-T07-0064
Date & Time / RoomMay 27 (Mon) 16:30~18:00 / Room 321-B

Organizer: Joo Hun Kang (UNIST, Korea, Republic of)

Chair

Joo Hun Kang (UNIST, Korea, Republic of)

Junsang Doh (Seoul National University, Korea, Republic of)

Keynote Speaker: 16:30~16:55 : Microengineered Biomimicry of Human Physiological Systems Dan Dongeun Huh (University of Pennsylvania, USA)

Invited Speaker

16:55~17:10 : Engineering patient-derived microphysiological systems to reconstruct the tumor microenvironments Jihoon Ko (Gachon University, Korea, Republic of)

17:10~17:25 : Reverse Engineering of Tumor Microenvironment Using Microfluidics and 3D Printing Sungsu Park (Sungkyunkwan University, Korea, Republic of)

Oral Presenter

17:25~17:35 : Intratumoral mapping of local 3D tissue viscoelasticity at cellular clength scales during breast cancer progression Christopher Moraes (McGill University, Canada)

17:35~17:45 : Comparative analysis of 3D-printed β-TCP and freeze-dried alginate-bioactive glass scaffolds as bone-like microenvironments for osteosarcoma in vitro modelling Ksenia Menshikh (Università del Piemonte Orientale, Italy)

Description

The development of in vitro microphysiological systems have spurred the exploration of the intricate dynamics of the tumor microenvironment. This symposium aims to converge researchers on a platform designed to share insights into the latest breakthroughs in the field.

This symposium is to provide a comprehensive overview of the current state-of-the-art in in vitro microphysiological systems utilized for investigating the tumor microenvironment. It seeks to encourage the exchange of knowledge between researchers working at the interface of biology, engineering, and medicine. Through this collaboration, participants will not only deepen their understanding of these advanced models but also explore novel approaches and technologies that enable a more accurate representation of tumor dynamics in the microenvironment.

The symposium's program comprises a keynote presentation (Prof. Dan Dongeun Huh, Penn), an eminent researcher in the field. Diverse perspectives will be highlighted, encompassing most-advanced techniques and clinical applications. The intended audience includes researchers and practitioners across the fields of oncology, tissue engineering, biomaterials, and drug development.

Anticipated outcomes include an enriched understanding of how in vitro microphysiological systems can replicate the intricacies of the tumor microenvironment. Insights from this symposium will drive the development of more physiologically relevant tumor in vitro models, leading to enhanced predictive capabilities for drug testing and personalized treatment. Moreover, discussions around challenges and opportunities in this field will guide future research directions, accelerating the translation of findings from bench to bedside.

Keywords : organ on a chip, tumor microenvironment, in vitro microphysiological systems

Session TrackBiomaterials for in vitro (extracorporeal) analysis
Session TitleMicrophysiological systems for modeling pathologies of central nervous system
Session CodeSP-T07-0065
Date & Time / RoomMay 28 (Tue) 9:30~11:00 / Room 321-B

Organizer: Hong Nam Kim (Korea Institute of Science and Technology, Korea, Republic of)

Chair

Hong Nam Kim (Korea Institute of Science and Technology, Korea, Republic of)

Seokyoung Bang (Dongguk University, Korea, Republic of)

Keynote Speaker: Ki Bum Lee (Rutgers University, USA)

Ki Bum Lee
(Rutgers University, USA)

KiBum Lee is a distinguished professor of Chemistry and Chemical Biology at Rutgers University, where he has been a faculty since 2008. The primary research interest of his group is to develop and integrate nanotechnologies and chemical biology to modulate signaling pathways in stem cells and cancer cells towards specific cell lineages or behaviors. In particular, his group is exploring critical problems in cancer research and stem cell biology pertaining to cell-microenvironmental interactions and how to control these interactions at the subcellular and single-cell level using interdisciplinary and transformative approaches.
Addressing the aforementioned issues, his group (https://kblee.rutgers.edu/) has recently focused on developing a variety of innovative technologies based upon nanobiotechnology and chemical biology to selectively control the fate of stem cells [e.g., human pluripotent stem cells (PSCs; hESCs and hiPSCs), Neural Stem Cells (NSCs), and Mesenchymal Stem Cells (MSCs)] towards specific cell lineages (e.g., neurons, oligodendrocytes, chondrocytes, muscles, osteocytes, and adipocytes) [Chemical Reviews, 2015; Nature Chemical Biology, 2015; Accounts of Chemical Research, 2016; Nature Communications, 2018; Small, 2021(I & II), 2022; Small Method, 2021; Advanced Materials, 2018, 2019, 2020 (I & II), 2021, 2022, 2023; Advanced Functional Materials, 2020, 2021, 2022, 2023]. Multi-modal magnetic core-shell nanoparticles have also been used to effectively deliver genetic materials into NSCs using a magnetic-filed-facilitated delivery method and to advance stem cell therapies (Angewandte. Chem. Int. Ed., 2013; Biomaterials, 2016; Nano Letters, 2019, 2020). Combinatorial hybrid nanomaterial arrays were also generated to control, detect, and investigate the NSC and MSC differentiation into neurons and the subsequent alignment of axons (Advanced Materials, 2014, 2015, 2019; ACS Nano, 2016, 2022 (I&II); Nature Comm, 2018). With the goal of achieving an enhanced stem cell-based therapy for CNS-related injuries and diseases, his group is currently designing nanomaterial-based 3D-scaffolds and spheroids/organoids to enhance cellular viability and to modulate stem cell differentiation spatiotemporally in vitro and/or in vivo for neural repair (e.g., spinal cord injuries and Intervertebral Disc Repair) and personalized cancer treatment (Advanced Materials, 2014, 2020, 2021, 2023; Nature Comm, 2018; Science Advances, 2021; National Science Review, 2022; Biomaterials, 2016; Bioactive Materials, 2023; ACS Nano, 2023; ). Realizing the motivation to develop a highly robust, efficient nanoparticle-based platform to regulate gene expression and eventually stem cell reprogramming, his group has developed the NanoScript as the first nanomaterial Transcription Factor (TF) protein that can interact with endogenous DNA in nucleus and mitochondria and control stem cell differentiation to generate functional cell lineages such as cartilage, bone, muscle cells, and neuronal cells (ACS Nano, 2014; J. Am. Chem. Soc., 2015; ACS Nano, 2015; Angewandte Chemie, 2015; Nano Letters, 2023).
In recognition of his outstanding scientific achievement at Rutgers, Dr. Lee has received several awards, including NIH Director’s New Innovator Awards (2009), Japan Society for the Promotion of Science (JSPS) Fellowship (2017), American Chemical Society New Directions (ND) Award (2015). He is the first author, co-author, and corresponding author of approximately 100 articles published in high-profile journals, including Science, Cell Stem Cell, Nature Chemical Biology, and Nature Communications, which are highly cited (>12,000).

Invited Speaker

9:55~10:10 : Refining Cultivation Techniques for Human Neural Systems with Tailored Extracellular Matrix and Microfluidic Integration Yoonhee Jin (Yonsei University College of Medicine, Korea, Republic of)

10:10~10:25 : Human spinal cord organoids exhibiting neural tube morphogenesis for a quantifiable drug screening system of neural tube defects Ju-Hyun Lee (Korea Institute of Science and Technology, Korea, Republic of)

Oral Presenter

10:25~10:35 : A 3D in vitro cortical tissue model For Studying effects of ionizing radiation on human neuronal network function Chiara E Ghezzi (University of Massachusetts Lowell, USA)

10:35~10:45 : Acoustic Stimulation in BBB-on-a-Chip: Advancing Blood-Brain Barrier Research Melanie Stamp (University of Melbourne, Australia)

Session TrackBiomaterials for in vitro (extracorporeal) analysis
Session TitleOptical biosensors for fast and accurate diagnosis
Session CodeSP-T07-0070
Date & Time / RoomMay 29 (Wed) 9:30~11:00 / Room 321-B

Organizer: Heebeom Koo (The Catholic University of Korea, Korea, Republic of)

Chair

Heebeom Koo (The Catholic University of Korea, Korea, Republic of)

Joonhyuck Park (The Catholic University of Korea, Korea, Republic of)

Keynote Speaker: Niko Hildebrandt (Université de Rouen Normandie, France)

Invited Speaker: 9:55~10:10 : Engineering cells with nanomaterials for augmenting and tracking cell-based therapies Jinhwan Kim (UC Davis, USA)

Jinhwan Kim
(UC Davis, USA)

Dr. Jinhwan Kim is an Assistant Professor in the Department of Biomedical Engineering, College of Engineering, as well as in the Department of Surgery, School of Medicine. His research centers on the integration of nanotechnology, cell engineering, and bioimaging to augment and optimize cell-based therapies, including immunotherapy and stem cell therapy. His group investigates the augmentation of endogenous functional/therapeutic cells (e.g., stem cells, T cells, NK cells) with foreign and biocompatible nanoparticles. This research is underpinned by the application of non-invasive and real-time imaging system, including ultrasound and photoacoustic imaging, to track and monitor the application and effectiveness of these therapies. The primary objective of his research group is to increase the understanding of these therapeutic mechanisms to improve control over cell therapies, thereby enhancing their efficacy and facilitating their successful translation into clinical practices.

Oral Presenter

10:10~10:20 : Nanomaterial based ultrasensitive bioimaging and biosensor platforms Joonhyuck Park (The Catholic University of Korea, Korea, Republic of)

10:20~10:30 : In vitro tissue-equivalent models for studying foreign body reaction Liliana Agresti (University Medical Center Groningen (UMCG), Netherlands)

10:30~10:40 : Hydrogel-Based 3D In Vitro Model of Liver Toxicity with Simulated Human Immune System for Predicting Hepatotoxicity and Immune Hyperactivity Yu Bin Lee (Korea Institute of Toxicology, Korea, Republic of)

10:40~10:50 : Ultrasensitive Paper-based Surface-Enhanced Raman Spectroscopy for Clinical Applications DEHUI WAN (National Tsing Hua University, Chinese Taipei)

Session TrackBiomaterials for in vitro (extracorporeal) analysis
Session TitleImaging and spectroscopic analysis of biomaterials and biological systems
Session CodeSP-T07-0075
Date & Time / RoomMay 28 (Tue) 13:40~15:10 / Room 321-B

Organizer: Sung Sik Lee (ETH Zurich, Switzerland)

Chair

Sung Sik Lee (ETH Zurich, Switzerland)

Jong-Chan Lee (DGIST, Korea, Republic of)

Keynote Speaker: Yong Keun Park (KAIST, Korea, Republic of)

Yong Keun Park
(KAIST, Korea, Republic of)

YongKeun (Paul) Park is Endowed Chair Professor of Physics at KAIST. He earned a Ph.D. in Medical Science and Medical Engineering from Harvard-MIT Health Science and Technology. Dr. Park’s area of research is optics, holography, and biophysics. He has published +160 peer-reviewed papers with +16K citations, including 4 Nat Photon, 1 Nat Mat, 1 Nat Cell Biol, 1 Nat Method, 4 Nat Comm, 4 PRL, 6 PNAS papers. He is a Fellow of Optical Society of America (OSA) and Society of Photo-Optical Instrumentation Engineers (SPIE). He received Medals of Honor in Science and Technology (President of South Korea) and Jinki Hong Creative Award. Two start-up companies with +80 employees have been created from his research (Tomocube, The.Wave.Talk). To learn more about Prof. Park's research projects, visit his website: http://bmol.kaist.ac.kr

Invited Speaker

Byung Mook Weon (Sungkyunkwan University, Korea, Republic of)

14:20~14:35 : Tackling background noise problem in STED optical nanoscopy Jong-Chan Lee (DGIST, Korea, Republic of)

14:35~14:50 : Microfluidic platform for single live sperm analysis Jae Bem You (Kyungpook National University, Korea, Republic of)

Oral Presenter: 14:50~15:00 : Comprehensive Analysis of Collagen Hydrogel Response to Physiological pH Fluctuations: Structure, Viscoelasticity, and Permeability Orit Bronner Shtrauchler (Ben-Gurion University of the Negev, Israel)

Session TrackBiomaterials for in vitro (extracorporeal) analysis
Session TitleLiquid biopsy for cancer diagnosis and prognosis
Session CodeSP-T07-0349
Date & Time / RoomMay 28 (Tue) 16:30~18:00 / Room 321-B

Organizer: Seungpyo Hong (University of Wisconsin-Madison, USA)

Chair

Seungpyo Hong (University of Wisconsin-Madison, USA)

Tian Zhang (University of Texas Southwestern Medical Center, USA)

Keynote Speaker: Andrew Wang (University of Texas Southwestern Medical Center, USA)

Andrew Wang
(University of Texas Southwestern Medical Center, USA)

Dr. Andrew Wang is the A. Kenneth Pye Professorship in Cancer Research and is the Vice Chair for Translational Research and Commercialization in the Department of Radiation Oncology at University of Texas Southwestern Medical Center. Dr. Wang’s research program is focused on the application of biomedical engineering to cancer research. His group aims to develop novel cancer diagnostics and therapeutics to improve cancer treatment. Dr. Wang is an elected member of the American Institute for Medical and Biological Engineering (AIMBE) College of Fellows and the American Society for Clinical Investigation (ASCI).

Invited Speaker

16:55~17:10 : Liquid Biopsy for Cancer Immunotherapy Jiyoon Bu (Inha University, Korea, Republic of)

Yong-Sang Ryu (Korea University, Korea, Republic of)

Oral Presenter

17:25~17:35 : Investigation of extrachromosomal DNA (ecDNA) activities in extracellular matrix component-based environmen SeoYul Jo (Sungkyunkwan University, Korea, Republic of)

17:35~17:45 : Living single-cell secreted multiple biomarker profiling using microfluidic chip and machine learning for tumor cell classification Yu Zhang (Shandong University, China)

17:45~17:55 : An efficient strategy for circulating tumor cell detection: surface-enhanced Raman spectroscopy Jie Lin (Ningbo Institute of Materials Technology and Engineering, Chinese Academy of Sciences, China)

Session TrackBiomaterials for in vitro (extracorporeal) analysis
Session Title3D-Tissue Models for Infection and Immunological Assays
Session CodeSP-T07-0122
Date & Time / RoomMay 29 (Wed) 13:40~15:10 / Room 321-B

Organizer: Michiya Matsusaki (Osaka University, Japan)

Chair

Michiya Matsusaki (Osaka University, Japan)

Wei Li (Texas Tech University, USA)

Keynote Speaker: Juergen Groll (University of Wuerzburg, Germany)

Invited Speaker

Kendra Rumbaugh (Texas Tech University, USA)

14:20~14:35 : Treatment of Wound Infections with Bacteria-Responsive Hydrogel-Based Drug Delivery Anita Shukla (Brown University, USA)

Oral Presenter

14:35~14:45 : Study for Changes of IL-1α and IL-8 of RhE Model in vitro skin irritation test for medical devices Liu Jia (Shan Dong Institute of Medical Device and Pharmaceutical Packaging Inspection, China)

14:45~14:55 : Brain organoid-on-a-chip platform to spatiotemporally model virus infection via neuronal crosstalk Ann-Na Cho (University of Sydney, Australia)

Session TrackBiomaterials for in vitro (extracorporeal) analysis
Session TitleBiomaterial-based platforms for tumor tissue engineering
Session CodeSP-T07-0174
Date & Time / RoomMay 29 (Wed) 16:30~18:00 / Room 321-B

Organizer: Daniela Loessner (Monash University, Australia)

Chair

Daniela Loessner (Monash University, Australia)

Carsten Werner (Leibniz Institute for Polymer Research, Germany)

Keynote Speaker: 16:30~16:55 : Modelling complex interactions in the tumour microenvironment Claus Jorgensen (The University of Manchester, United Kingdom)

Invited Speaker: 16:55~17:10 : Mineralized cryogels to recapitulate early events of breast cancer bone metastasis in vitro Carsten Werner (Leibniz Institute for Polymer Research, Germany)

Carsten Werner
(Leibniz Institute for Polymer Research, Germany)

Carsten Werner is Professor for Biofunctional Polymer Materials at TU Dresden and Scientific Director of the Leibniz Institute of Polymer Research Dresden (IPF), Germany.

After receiving a diploma in chemistry (University of Würzburg) and a doctoral degree in physical chemistry (TU Dresden) in 1999, he established a biomaterials program at IPF and held an Adjunct Professorship at the Institute of Biomaterials of the University of Toronto, Canada (2000-2018).
Since 2008 he is a full professor at the Faculty of Chemistry and the Center of Regenerative Therapies, since 2019 he is also member of the Cluster of Excellence Physics of Life and the Else Kröner Fresenius Center for Digital Health at TU Dresden.

Research of the Werner Lab targets the exploration of living matter using physical and materials science methodologies, new biomimicry design approaches to functional materials and the translation of biomaterials technologies. Recent work concerned electrosurface phenomena, bioadhesion, hemocompatibility of biomaterials as well as cell-instructive hydrogel systems for tissue/disease models and regenerative therapies.

Carsten Werner is elected member of the German National Academy of Science and Engineering and elected scientific member of the Leibniz Association. His research has been recognized with several awards, including the MaterialVital Award of the German Federal Ministry of Science and Education, and resulted in several patented technologies and spin-off companies.

carsten.werner@tu-dresden.de

www.ipfdd.de/ibp

Oral Presenter

17:10~17:20 : Construction of vascularized gastric cancer organoid-on-chip model via combining elastin-based hydrogels and 3D printing Leping Yan (The Seventh Affiliated Hospital, Sun Yat-sen University, China)

Leping Yan
(The Seventh Affiliated Hospital, Sun Yat-sen University, China)

Leping Yan is currently an associate professor and PI of the Guangdong Provincial Key Laboratory of Digestive Cancer Research, the Seventh Affiliated Hospital Sun Yat-sen University. He obtained his bachelor degree in polymer engineering and postgraduate training in biomaterials, both from the South China University of Technology. Afterward, he earned his PhD degree in Tissue Engineering and Regenerative Medicine from the 3B’s Research Group University of Minho, under the supervision of Prof. Rui L. Reis and Prof. Joaquim M. Oliveira. After postdoc trainings in the University of Sydney (collaborated with Prof. Anthony S. Weiss) and in the Royal College of Surgeons in Ireland (collaborated with Prof. Fergal J. O’Brien), he took his current position. His research interest lies in the development of extracellular matrix (ECM)-mimetic biomaterials for modulation of tissue microenvironment since his postgraduate, and recently he initiated a new research line that is to generate in vitro tumor microenvironment models via the integration of cancer organoids and biomaterials, by using organ-on-chip and 3D bioprinting approaches. He has published around 30 articles (over 1700 citations) in well-recognized journals, such as Cellular and Molecular Life Science, Journal of Controlled Release, Pharmacology & Therapeutics and Acta Biomaterialia. He has also been awarded 3 issued patents (two oversea and one internal). He is an editorial member of the In Vitro Models journal and guest editor for several other journals. He has received competitive fundings from the national (NSFC, MOST), provincial and municipal levels, with over 2 million RMB in total. With the support of these funding and the advanced platform of the Provincial Key Laboratory of Digestive Cancer Research, he has successfully built an interdisciplinary team and created a strong network within China and around the world.

17:20~17:30 : Tumor-mimetic gradients in collagen fiber alignment enhance endothelial and cancer cell migration directionality and persistance Vinay Abhyankar (Rochester Institute of Technology, USA)

17:30~17:40 : AI Augmented 4D Bio-printed High-performance Invitro Disease Model of Oral Submucous Fibrosis. KANIKA SINGROHA (All India Institute of Medical Sciences Jodhpur- Indian Institute of TechnologyJodhpur, India)

KANIKA SINGROHA
(All India Institute of Medical Sciences Jodhpur- Indian Institute of TechnologyJodhpur, India)

Dr Kanika Singroha a Maxillofacial Pathologist by profession with a MDS degree in Maxillofacial Pathology from Rajiv Gandhi University of Health Sciences Bengaluru India. Her Entrepreneurial mindset steered her passion to serve humanity and educational expertise in Translational research making her the Founder & CEO of Cellverse Pvt. Ltd. She has been awarded the prestigious Bio-Design fellowship in medical technologies at AIIMS-IIT Jodhpur. Her current PhD program is a unique joint program of AIIM-IIT Jodhpur as its first of its kind in the country where doctors and engineers team up to find technological marketable solutions to the real time problems in the health sector. Dr Kanika by virtue of clinical experience of 10 years in diagnosis of head and neck cancers identified the unmet need for non-animal disease models for drug testing specifically in the area of early stages of oral cancer that are associate with the habit of pan/gutka/tobacco products chewing, highly prevalent in entire South East Asian Region.
Dr Kanika has been successfully carving a niche for Cellverse in the Start-up eco system at various business platforms. She pitched for Cellverse at JITO Jodhpur chapter ideathon and won the First Runners up. Dr Kanika Singroha won at TiE Women Rajasthan Chapter, fighting a tough competition with 8 innovative & startups where all of them had made some tractions in the market and pitched at TiE Global Summit & Singapore Fintech Festival in Singapore.
She has also made presentation and was largely appreciated by dignitaries of high statures, Dr Rajagopalan Chidambaram, (2nd Principal Scientific Advisor, GOI), Dr. Santanu Chaudhury (Director IIT J), Dr Anurag Mairal (Director, Global Outreach Program, Stanford Byers Center for Biodesign) to name a few.
Being an Army Brat and having lived & schooled across the nation she has endured versatility and agility, which steers her entrepreneurial mind set to incorporate iterations in Cellverse’s business canvas seamlessly.

17:40~17:50 : Spatially controlled construction of assembloids for modeling glioma infiltration Michelle Huang (Stanford University, USA)

Description

Tissue engineering technologies have produced innovative tools for cancer research. 3D cancer models based on molecularly designed biomaterials aim to harness the dimensionality, biomechanical and biochemical properties of tumor tissues. However, to date, in spite of the critical role that the extracellular matrix plays in cancer, only the minority of 3D cancer models is built on biomaterial-based matrices. Major reasons for avoiding this critical design feature are the difficulty to recreate the inherent complexity of the tumor microenvironment and the limited availability of practical analytical and validation techniques. Recent advances emerging at the interface of supramolecular chemistry, materials science and tumor biology are generating new approaches to overcome these boundaries and enable the design of physiologically relevant 3D models. In this symposium, we discuss how these 3D systems are applied to deconstruct and engineer the tumor microenvironment, opening opportunities to model primary tumors, metastasis and responses to anti-cancer treatment.

Objectives: The main goal of our symposium is to inform the audience about the emerging discipline of tumor tissue engineering. Therefore, we have several objectives: i) introduce the concept of tumor tissue engineering, ii) describe key parameters in tumor biology and iii) tools for rebuilding the tumor microenvironment, and iv) present novel applications of tumor-engineered models to investigate primary tumors, metastasis and anti-cancer treatment.

Audience: Our symposium targets an interdisciplinary audience that includes materials and polymer scientists, engineers, as well as biologists and life scientists.

Relevance to the main topic of WBC 2024: Our symposium is strategically aligned with the topic of WBC 2024. Biology can help to design materials and approaches for tumor tissue engineering. Biomaterials are a requisite for modeling cancer to rebuild tissue organisation, composition and function. In our symposium, we present bioengineering strategies that recreate the pathophysiology of cancer to address questions in cancer research and healthcare.

Keywords : tissue engineering, biomaterials, tumor biology, 3D cancer models, tumor microenvironment, extracellular matrix

Session TrackBiomaterials for in vitro (extracorporeal) analysis
Session TitleBiomaterials for Organoids
Session CodeSP-T07-0208
Date & Time / RoomMay 27 (Mon) 14:40~16:10 / Room 321-B

Organizer: Qun Wang (Iowa State University, USA)

Chair

Qun Wang (Iowa State University, USA)

Ying Mei (Clemson University, USA)

Keynote Speaker: 14:40~15:05 : Biomaterial toolkits for advanced organoid engineering Seung-Woo Cho (Yonsei University, Korea, Republic of)

Seung-Woo Cho
(Yonsei University, Korea, Republic of)

Seung-Woo Cho is a professor at the Department of Biotechnology at Yonsei University, Republic of Korea. He obtained his B.S.,M.S., and Ph.D. degrees at the School of Chemical Engineering of Seoul National University in 1999, 2001, and 2006, respectively. He received his postdoctoral training at the Department of Chemical Engineering in the Massachusetts Institute of Technology. He later joined Yonsei University as a faculty member in 2010 and has been appointed as Underwood Distinguished
Professor since 2020. His research interests include engineering stem cells, reprogrammed cells, and organoids with functional biomaterials and devices for tissue engineering, disease modeling, and drug screening.

Invited Speaker

15:05~15:20 : Engineering a simple and robust organoid on chip to recapitulate full NASH function Hanry Yu (National University of Singapore, Singapore)

Tae-Eun Park (UNIST, Korea, Republic of)

Oral Presenter

15:35~15:45 : Rational design of oral drugs targeting mucosa delivery with gut organoid platforms Qun Wang (Iowa State University, USA)

15:45~15:55 : Multiscale control of nanofiber-composite hydrogel for complex 3D cell culture Chaenyung Cha (Ulsan National Institute of Science and Technology, Korea, Republic of)

15:55~16:05 : In vitro 3D bone organoids based on demineralized bone paper Jungwoo Lee (University of Massachusetts-Amherst, USA)

Description

An organoid is a self-organized 3D tissue typically derived from stem cells (pluripotent, fetal or adult) and mimics an organ's critical functional, structural and biological complexity. Three-dimensional ex vivo organoid cultures using biomaterial-based assembly and self-assembly have been shown to resemble and recapitulate most of the functionality of diverse multicellular tissues and organs, such as the gut, brain, liver, kidney, and lung. They can be dissected and interrogated for fundamental mechanistic studies on human tissue development, regeneration and repair. They can also be used in diagnostics, disease modeling, drug discovery and personalized medicine. Thus, organoids bridge a gap in existing model systems by providing a more stable system amenable to extended cultivation and manipulation while more representative of in vivo physiology. Organoids are typically seeded into biologically derived matrices such as Matrigel, a natural extracellular matrix (ECM) such as collagen, or synthetic hydrogels. However, the defined composition of the biologically derived matrix and the desired control over the biochemical and biophysical spatiotemporal cues are essential for improving organoid culture. This symposium will cover the most recent advancements in biomaterials-mediated organoid and tissue chip technologies in regenerative medicine, cancer therapy, drug testing, environmental control, monitoring, adaptive sensing, and translational applications. This topic was well-received in other scientific meetings and is an exciting emerging research area, such as Society For Biomaterials. This symposium will be helpful for graduate students and postdoctoral fellows to have an overview of the role of organoids in life science and medicine. It also helps engineering and medical professionals increase their awareness of biomimetic strategies in new biomaterials. The symposium will offer presentation and poster opportunities to enhance the workforce's diversity by recruiting students and post-doctorates from underrepresented groups in organoid-related research. In 2024, we will promote translational research to the commercial viability of biomaterials-mediated organoid projects.

Keywords : Organoids; Regenerative Medicine; Microenvironments

Session TrackBiomaterials for pre-clinical and clinical translation
Session TitleTranslation of bioactive ceramics from bench to bedside and emerging technologies for patient specific approaches
Session CodeSP-T08-0259
Date & Time / RoomMay 29 (Wed) 13:40~15:10 / Room 320-A

Organizer: Christine Knabe (Philipps University Marburg, Germany)

Chair

Ahmed El-Ghannam (University of North Carolina at Charlotte, USA)

Min Wang (Department of Mechanical Engineering, The University of Hong Kong, Hong Kong SAR, China)

Min Wang
(Department of Mechanical Engineering, The University of Hong Kong, Hong Kong SAR, China)

Keynote Speaker: 13:40~14:05 : Bioactive calcium alkali phosphate bone grafts enhance osteogenesis and facilitate bone repair in vivo – Translational research in oral implantology Christine Knabe (Philipps University Marburg, Germany)

Christine Knabe
(Philipps University Marburg, Germany)

Professor Christine Knabe is Professor of Experimental Orofacial Medicine at the dental school of the Philipps University Marburg, Germany. The focus of her work is on translational research from bench to bedside in the context of clinically relevant subjects in regenerative medicine and biomaterials research. Her research deals with various aspects of regenerative medicine, bone regeneration and bone tissue engineering utilizing bioactive resorbable bone grafting materials and 3D printed bioactive ceramic scaffolds in combination with 3D perfusion stem cell culture and microvascular techniques for segmental defect repair mainly in the context of implant dentistry and orthopaedics. From 1999 on, Professor Knabe built her own independent research program, specifically focusing on cellular reaction pathways triggered by the presence of bioactive implant materials and on translational research, which takes new biomaterials and therapeutic concepts for bone and tissue regeneration from basic research via preclinical studies involving large animal models and clinical trials to the clinical arena. These studies led to the FDA approval and clinical use of a novel bioactive silica containing calcium orthophosphate bone grafting material. Professor Knabe’s work furthermore deals with the effect of host factors on craniofacial bone regeneration with bioactive calcium phosphate bone grafts. This is in addition to collaborating with colleagues at University of Pennsylvania in the pursuit of much better treatments of resistant infections and with colleagues of the UNC at Charlotte on novel bioceramic urethral bulking agents.
Prof. Knabe obtained her DDS at the University of Göttingen, Germany, in 1988, and her PhD with Professor U. Gross in Berlin, Germany. After training in Oral Surgery and Periodontology at the University of Tübingen, she joined the Department of Prostodontics at the Free Universität Berlin in 1992. She complemented her training by various study periods abroad. In 1993, with Professor J. E. Davies at the University of Toronto, Canada; and in 1994. with Professor U. Belser at the University of Geneva, Switzerland, in clinical implant dentistry. From 1992-2010, she held various positions with increasing responsibilities in the departments of Prosthodontics (1992-1996), Periodontology (1996-1997), and was director of the division of Biomaterials and Dental Materials of the Dept. of Experimental Dentistry (1997-2010) at the Charité University Medical Center. 1999-2000 she spent a sabbatical with Prof. Rolfe Howlett at the Bone Biomaterial Unit of the University of New South Wales in Sydney, Australia to study molecular biological issues regarding implant-tissue interactions. Since 2007 she also has been visiting associate professor at the Division of Orthopaedic Surgery of the Thomas Jefferson University in Philadelphia (Director Prof. I. Shapiro). In January 2011, she joined the Philipps University Marburg, where she chairs the department of Experimental Orofacial Medicine. A very recent honor received by Professor Knabe from the Charité Foundation is the appointment as BIH (Berlin Institute of Health) visiting professor. In this context, Prof. Knabe closely collaborates with colleagues at the Charité University Medical Center and the Federal Institute for Materials Research in the pursuit of tissue engineered approaches for reconstruction of large segmental mandibular discontinuity defects resulting from tumor ablation.

Oral Presenter

14:05~14:15 : Long term stability and functionality of regenerated bone induced by SCPC resorbable bioactive graft Ahmed El-Ghannam (University of North Carolina at Charlotte, USA)

14:15~14:25 : In vivo analysis of Porous Bioactive Silicon Carbide Scaffold for Craniofacial Bone Augmentation RANDA ALFOTAWI (King Saud University, Saudi Arabia)

14:25~14:35 : Nanoscale 3D Printing of Bioceramics Iman Roohani (University of Sydney, Australia)

14:35~14:45 : Effect of interfacial energy on the mechanical properties of ZrO₂-SiO₂ glass-ceramics Huasi Zhou (Uppsala University, Sweden)

Description

Translation of bioactive ceramics from bench to bedside and emerging technologies for patient specific approaches

Session Scope: Over the last three decades, considerable progress has been made with regards to exploring the fundamental molecular and cellular events at the bone bioactive ceramic interface, which underlie the stimulatory effect of these materials on cell function and bone tissue formation, and with utilizing the knowledge gained to take bioactive ceramic bone grafting materials to the clinical arena in an evidence-based fashion. This has resulted in considerable contributions to improving patient care. It furthermore has prompted emerging patient-specific tissue engineering strategies, soft tissue augmentation approaches, concepts for continuous drug release, enhancement of angiogenesis etc. and has led to an array of approved products. Moreover, due to the inherent bioactive properties of these biomaterials achieving regulatory approval is less demanding than with biomaterials/devices which contain biologics such as growth factors, peptides and others.

The objective of this interdisciplinary symposium is to highlight how the fundamental research that helped to decipher the molecular events that underlie the stimulatory effect of bioactive ceramics on bone tissue formation and how recent advanced in additive manufacturing technologies and drug release concepts led to translation of these materials to the clinic and contributed to the design of patient specific therapeutic concepts.

The program will highlight the evidence-based translation of different bioactive ceramics for various clinical applications. The intended audience will be material scientists, bioengineers, orthopedic surgeons and oral and maxillofacial surgeons.

The expected outcome is to heighten the awareness regarding the impact of this important class of biomaterials on health care in a globally ageing population and to foster interdisciplinary research worldwide.

Keywords : bioactive ceramics, bone regeneration, tissue engineering

Session TrackBiomaterials for pre-clinical and clinical translation
Session TitleBiomaterials Interventions in Aging Around the World
Session CodeSP-T08-0264
Date & Time / RoomMay 27 (Mon) 16:30~18:00 / Room 320-A

Organizer: Liisa Kuhn (University of Connecticut Health Center, USA)

Chair: Liisa Kuhn (University of Connecticut Health Center, USA)

Keynote Speaker: 16:30~16:55 : Biomaterial interventions in aging of the musculoskeletal system Stuart Goodman (Stanford University, USA)

Stuart Goodman
(Stanford University, USA)

Stuart B. Goodman MD MSc PhD FRCSC FACS FBSE FIOR FORS
Stuart B. Goodman is the Robert L. and Mary Ellenburg Professor of Surgery, and Professor with Tenure in the Department of Orthopaedic Surgery at Stanford University. He has a courtesy appointment in the Department of Bioengineering, and is a Fellow of the Institute of Chemistry, Engineering and Medicine for Human Health (ChEM-H). He was Chief of Orthopaedic Surgery from 1994-2002.

Dr. Goodman received his BSc, MD, and MSc from the University of Toronto, and his PhD from Lund University. Dr. Goodman's clinical practice concentrates on adult reconstructive surgery. His clinical research interests center on outcomes of joint replacements, juvenile arthritis, and osteonecrosis. His basic science interests include implant biocompatibility, inflammation, osteonecrosis, and musculoskeletal tissue regeneration and repair.

Dr. Goodman is former Chairman of the AAOS Biological Implants Committee, and former member of the AAOS Biomedical Engineering Committee. He is a member of the American, European, and International Hip Societies, Knee Society, AAHKS, and ARCO, a consultant to the FDA, and former vice-chairman of the Musculoskeletal Tissue Engineering study section at NIH. He was the President of the Society For Biomaterials (2001-2) and served on the Board of Directors of the Orthopaedic Research Society. Dr. Goodman is on the editorial board of numerous medical and bioengineering journals. Dr. Goodman has published over 600 peer-reviewed manuscripts. Dr. Goodman and co-workers have received numerous awards including the Clemson Award for Basic Research from the Society For Biomaterials in May 2000 and the Lifetime Achievement Award from the Association of Bone and Joint Surgeons.

Invited Speaker: 16:55~17:10 : From 3D bioengineered Models to Therapeutic Solutions: Senescence in Musculoskeletal Disease Okhee Jeon (Korea University, Korea, Republic of)

Okhee Jeon
(Korea University, Korea, Republic of)

Dr. Ok Hee Jeon earned her Ph.D. degree in biomedical engineering in 2017 from Johns Hopkins University, where she conducted groundbreaking research on senescent cells and their contribution to the loss of musculoskeletal function after injury and as a consequence of aging. Her work led to the development of new regenerative and pharmacologic therapies that target these cells. She then joined the Buck Institute for Research on Aging as a postdoctoral researcher, where she discovered the phenomenon of senescence propagation as a new mechanism by which senescent cells rise with age and contribute to aging phenotypes, to a molecular level, identifying circulatory pro-aging proteins produced by senescent cells at the root of age-related diseases. She is now an assistant professor at the Korea University College of Medicine, where she is developing innovative therapies for aging and aging-related diseases by using engineering platforms to target senescent cells. In addition to her achievements in the field of aging, Dr. Jeon's expertise also includes biomarkers of cellular senescence and musculoskeletal aging.

Oral Presenter

17:10~17:20 : Local delivery of ruxolitinib modulates aged macrophage phenotype transitions and promotes aged bone healing Liisa Kuhn (University of Connecticut Health Center, USA)

17:20~17:30 : Microvesicles-hydrogel breaks the cycle of cellular senescence by improving mitochondrial function Senrui Liu (The first affiliation of Chongqing medical university, China)

17:30~17:40 : Optimization towards the tipping point of senescence induction: a method for a passageable, induced-senescent osteoprogenitor cell line for biomaterials research Travis Wallace (University of Connecticut Health Center (UConn Health), USA)

17:40~17:50 : Cell-Free Osteoarthritis Treatment with Sustained-Release of Chondrocyte-Targeting Exosomes from Umbilical Cord-Derived Mesenchymal Stem Cells to rejuvenate ageing chondrocytes Hongfu Cao (Sichuan university, China)

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