ANNUAL MEETING Debra Auguste, Northeastern Univ– [email protected] CO-CHAIRS: Kent Leach, Univ of CA Davis – [email protected] Tanmay Lele, University of Florida – [email protected] To submit an abstract go to: http://submissions.mirasmart.com/ BMES2020 BIOINFORMATICS, COMPUTATIONAL AND SYSTEMS BIOLOGY BIOMECHANICS Track Chair: Shayn Peirce-Cottler – University of Virginia - [email protected] Track Chair: Josephine Allen - University of Florida - [email protected] Track Chair: Tara Deans – University of Utah - [email protected] Track Chair: Ed Guo – Columbia University - [email protected] • Analysis of Cell Signaling • Advances in Biomechanical Testing of Medical Devices • Analysis of Multi-Cellular Systems • Biofluid Mechanics • Computational Modeling of Cancer • Biomechanics in Cell and Tissue Engineering • Computational Modeling of Cell Motility and Proliferation • Biomechanics of Biomaterials • Machine Learning for Biomedical Applications • Biomechanics of Rehabilitation/Injury • Models of Metabolism • Cancer Mechanobiology • Novel Methods for Systems Biology • Cardiovascular Biomechanics • Omics Data: Methods, Modeling and Analysis • Cellular and Molecular Biomechanics: Mechanobiology • Single-Cell Measurements and Models • Computational and Multiscale Modeling in Biomechanics • Stem Cell Systems Biology & Bioinformatics • Hemodynamics and Vascular Mechanics • Systems Approaches to Therapy, Therapeutics, and Precision Medicine • Human Performance/Sports Biomechanics • Systems Biology of Infectious Disease • Imaging Techniques in Biomechanics • Theory and Practice of Synthetic Biology • Injury Biomechanics • Other / Non-specified • Matrix Effects in Mechanobiology • Mechanics of the Respiratory System BIOMANUFACTURING • Mechanobiology of Cardiac and Smooth Muscle Track Chair: Tracy Hookway - Binghamton Univ - [email protected] • Mechanobiology of Cell Adhesion Track Chair: Yi Hong – University of Texas at Arlington - [email protected] • Mechanobiology of the Vascular and Nervous System • Molecular Biomanufacturing • Molecular Bioengineering • Cellular Biomanufacturing • Neuromuscular and Brain Biomechanics • Tissue and Organ Biomanufacturing • Orthopedic: Mechanobiology and Mechanotransduction • 3D Printing Advances for Biofabrication • Topics in Mechanobiology • Biomaterials for Cell Manufacturing and Tissue Biofabrication • Other / Non-specified • Microphysiological Systems (MPS) Manufacturing BIOMEDICAL IMAGING AND INSTRUMENTATION • Multiscale Computation Modeling • Biomanufacturing Process Integration and Scale-up/out Track Chair: Alvin Yeh – Texas A&M - [email protected] • Bioprocess Monitoring and In-Line Sensing Track Chair: Allen Liu – University of Michigan - [email protected] • Enabling Technologies for Cell and Tissue Biomanufacturing • Cardiac, Cardiovascular, and Blood Flow Imaging • Cryopreservation in Biomanufacturing • Imaging in Neuroscience, Brain and Spine • Other / Non-specified • Imaging Applications in Reproductive Health BIOMATERIALS • Imaging Cells, Molecules, and Genome • Imaging Technologies and Molecular Profiling in Cancer Track Chair: Lakiesha Wiliiams – University of Florida - [email protected] • Imaging the Respiratory System Track Chair: Hao Cheng – Drexel University - [email protected] • Imaging Technologies in Clinical Translation • 3D Printing and Advanced Biomaterial Manufacturing • Imaging in Tissue Engineering • Advanced Characterization and imaging of Biomaterial Environments • Optical and Spectroscopic Imaging, Microscopy, and Spectroscopy (Optics) • Advances in Biomaterials Integration with Chips and Devices • Contrast-Enhanced Ultrasound and Therapeutic Ultrasound (US) • Biomaterials for Immunoengineering • Photoacoustic Imaging (PA) • Biomaterials for Regenerative Medicine • Endoscopy and Optical Coherence Tomography (OCT) • Biomaterials Scaffolds • Magnetic Resonance Imaging and Applications (MRI) • Biomechanics of Biomaterials • Imaging of Structural and Mechanical Properties • Drug Delivering Biomaterials • Deep Learning and Artificial Intelligence in Microstructural Imaging • Engineering the Stem Cell Microenvironment • Imaging System Development & Emerging Imaging Technologies • Hydrogel Biomaterials • Nuclear Medicine Imaging (PET/SPECT) • Natural and Bioinspired Biomaterials • X-ray and Computed Tomographic Imaging (CT) • Other / Non-specified • Other / Non-specified BIOMEDICAL ENGINEERING EDUCATION (BME) CANCER TECHNOLOGIES Track Chair: Cheryl Gomillion – University of Georgia - [email protected] Track Chair: Jan Lammerding – Cornell Univ - [email protected] Track Chair: Aileen Huang-Saad – Univ of Michigan - [email protected] Track Chair: Kimberly Kelly – University of Virginia - [email protected] • Design and Curriculum • Cancer Cell Motility and Migration • ABET Program Criteria, Student Outcomes • Cancer Drug Delivery • Industry and Biomedical Engineering • Cancer Immunoengineering, Immunomodulation and Immunotherapy • Teaching, Learning, and Pedagogy • Cancer Mechanobiology • Experiential Learning (Curricular and Co-Curricular) • Circulating Biomarkers: CTCs, Extracellular Vesicles and DNA • Multidisciplinary and Interdisciplinary Curriculum • Computational Modeling of Cancer • Diversity, Equity, and Inclusion • Engineered Cancer Models for In Vitro Studies • Mentorship • Imaging Strategies in Cancer Detection, Diagnosis, and Prognosis • K-12 Outreach • Metastasis, Dormancy & Treatment Response • Other/Non-Specified • Nanotechnologies in Cancer • To submit an abstract go to: Precision Medicine, Biomarkers and Molecular Profiling • Tumor Microenvironment http://submissions.mirasmart.com/bmes2020 • Other / Non-specified ANNUAL MEETING Debra Auguste, Northeastern Univ– [email protected] CO-CHAIRS: Kent Leach, Univ of CA Davis – [email protected] Tanmay Lele, University of Florida – [email protected] To submit an abstract go to: http://submissions.mirasmart.com/ BMES2020 CARDIOVASCULAR ENGINEERING DRUG DELIVERY Track Chair: Nenad Bursac - Duke University - [email protected] Track Chair: Seungpyo Hong – Univ of Wisconsin - [email protected] Track Chair: Karen May-Newman – SD State University - [email protected] Track Chair: Juiane Nguyen – Univ of North Carolina - [email protected] • Angiogenesis and Engineered Vascularization • Bioinspired Materials and Self Assembly • Cardiac Electrophysiology • Cancer Drug Delivery • Cardiovascular Biomechanics • Delivery Systems for Proteins and Vaccines • Cardiovascular Devices • Drug Delivering Biomaterials • Cardiovascular Organ-on-Chip Technologies • Drug Delivery for Immunomodulation and Immunotherapy • Cardiovascular Regeneration and Stem Cells • Drug Delivery in Tissue Engineering & Medicine • Cardiovascular Tissue Engineering • Nanotechnologies for Drug and Nucleic Acid Delivery • Computational Modeling in Cardiovascular Systems • Nucleic Acid Delivery • Heart Valve Structure, Function, and Disease • Respiratory Drug Delivery • Hemodynamics and Vascular Mechanics • Targeted or Responsive Delivery Systems • Imaging in Cardiovascular Systems • Translational Aspects of Drug Delivery • Mechanical Circulatory Support • Other / Non-specified • Mechanobiology of Cardiac and Smooth Muscle • Thrombosis and Hemostasis NANO AND MICRO TECHNOLOGIES • Other / Non-specified Track Chair: Erkin Seker – University of CA Davis - [email protected] Track Chair: Akhilesh Gaharwar – Texas A&M - [email protected] CELLULAR AND MOLECULAR BIOENGINEERING • 3D Printing and Bioprinting Micro/Nano Methods and Approaches Track Chair: Eno Ebong – Northeastern University - [email protected] • Advances in Micro/Nano Biomanufacturing and Biosystems Track Chair: Yingxiao Wang – Univ of CA San Diego - [email protected] • Biomaterials Integration with Micro/Nano Chips and Devices • Analysis of Cell Signaling • Bioinspired/Biomimetic Micro/Nano Devices and Systems • Cancer Cell Motility and Migration • In Situ Tissue Regeneration via Micro/Nano Engineered Technologies • Cell Migration • Micro/Nano Fluidic Engineering, Lab-on-Chip and Organ-on-Chip Systems • Cellular and Molecular Biomechanics: Mechanobiology • Micro/Nano Technologies for Cancer Detection, Diagnosis, or Therapy • Engineering and the Microbiome • Micro/Nano Tools for Immune Engineering and Immune Modulation • Engineering Multi-Cellular Systems • Micro/Nano Tools for Precision Medicine • Epigenetics and Chromatin Regulation • Micro/Nano Technologies in Molecular and Cellular Bioengineering, Medicine • Gene Delivery and Genome Bioengineering and Biology (Genomics, Proteomics) • Imunoengineering • Micro/Nano Tools for Neuroscience Research and Neuroengineering • Ligand, Receptor, and Effector Signaling Systems • Molecular Sensors and Nanodevices for Diagnostics and Biomedical Imaging • Micro/Nano Tools in Molecular Biology (Genomics, Proteomics) • Microporous and Mesoporous Biomaterials for Regenerative Medicine and • Molecular and Cellular Engineering for Functional Materials and Sensors Therapeutic Delivery • Molecular and Cellular ImmunoEngineering • Nanoengineered Biomaterials for Regenerative Medicine and Therapeutic • Molecular Bioengineering Delivery • Molecular Imaging in Live Cells • Nanotechnologies for Global Health Technologies and Systems • Reprogramming/Directed Differentiation in Stem Cell Engineering • Nanotechnologies for Drug, Protein and Gene Delivery • Single-Cell Measurements and Models • Other / Non-specified (Implantable systems, flexible/wearable systems, 3D • Other / Non-specified printing/bioprinting, tools to