Tracks and Sessions
Molecular and Subcellular Biomechanics
- Nuclear Mechanobiology
- Protein Biomechanics
- Biomechanics of Nuclear Envelope
- Biomechanics of Cell Adhesions
- Biomechanics of the Nuclear Pore Complex
- Cell-based Biological Machines
- Reconstituted Cytoskeleton Systems
- Cytoskeletal Structures in Cells
- Molecular Mechanisms of Mechanotransduction
- Actomyosin Mechanobiology
Cell Biomechanics 1: Methodology and Modeling
- Computational Methods in Cell Mechanics 1 (Biological/ Chemical Aspects)
- Computational Methods in Cell Mechanics 2 (Physical/ Structural Aspects)
- Flow-Mediated Cellular Biomechanics
- Mechanics of Cytoskeleton and Cell Motility 1
- Mechanics of Cytoskeleton and Cell Motility 2
- New Technologies to Study Cellular Mechanics
- New Technologies to Molecular Mechanics in Cells and Tissues
- New Methods to Mechanically Stimulate Cells
- Cell Mechanosignaling in Immunological Diseases
- Mechanical Regulation of Stem Cells
- Nuclear Biomechanics 1
- Nuclear Biomechanics 2
- Emerging Areas in Cell Biomechanics of Methodology and Modeling
Cell Biomechanics 2: Mechanobiology
- Cell Interaction with Microenvironment
- Microfluidics and Microdevices for Mechanobiology
- Mechanobiology of Health and Disease
- Cell Mechanics and Mechanotransduction
- Mechanobiology and Molecular Mechanism
- Mechanobiology of Migrating Cells
- Mechanosensation and Mechanotransduction 1
- Mechanosensation and Mechanotransduction 2
- Cytoskeletal Mechanics and Mechanobiology
- Mechanics of Cell Adhesion and Contractility
- Embryonic and Developmental Mechanobiology
- Mechanogenetics and Mechanotherapies
- Sex-Specific Differences in Mechanobiology and Health
- Cancer Mechanobiology
- Cardiovascular Mechanobiology and Biomechanics
- Emerging Areas of Cell Biomechanics in Mechanobiology
Tissue Engineering 1: Mechanobiology
- Biomaterials and Biomechanics
- Biomechanics of Vascular and Lymphatic Tissue Engineering
- Mechanobiology and Tissue Engineering of the Respiratory Tract
- Biomechanics of Heart Valve Tissue Engineering
- Mechanobiology of Engineered Soft Tissue Growth and Remodeling
- Mechanobiology of Cartilage and Bone
- Biomechanics of Muscle, Tendon and Ligament Tissue Engineering
- Biomechanical Microengineering of Tissue Mimics for Human Disease Modeling
- Biomechanics of Pelvic Floor / Bladder Engineering
- Biomechanics of Decellularized Tissue Engineering
- General Tissue Engineering
- Mechanical Issues in Interfacial Tissue Engineering
- Functional Tissue Engineering of Articular Cartilage and Fibrocartilage
- Nano- and Micro-mechanics of Biological Tissue, Biomimetic and Bioinspired Materials and Systems
- Emerging areas in Tissue Engineering Mechanobiology
Tissue Engineering 2: Applications
- Biofabrication for Functional Tissue Systems
- Bioreactors for Tissue Engineering
- Multiscale Biomechanics of Scaffolds
- Multiscale Biomechanics and Modelling of Engineered Tissues
- Technologies for Validation in Space and Time of Multiscale Models of Tissue Engineering
- Biomanufacturing of Living Implants: In-vitro and In-silico Models
- Physical Regulators and Transport Cues in Tissue Engineering
- Mechanobiology and Tissue Engineering
- Functional Tissue Engineering
- Developmentally-inspired Tissue Engineering
- Strain measurements in Biological Tissues and Biomaterials
- Image-based Characterization of Biological Tissues and Biomaterials
- Clinical Translation of Tissue Engineering
- Emerging Areas in Tissue Engineering Applications
Organ Biomechanics
- Mechanics of Cardiac Assist Devices
- Face Biomechanics
- Organ Decellularization & Recellularization: Biomechanical Aspects
- Biomechanics in Organ on a Chip
- Cardiac Biomechanics
- Skin Biomechanics
- Biomechanics of Cancer & Gastric Diseases
- Lung and Airway Biomechanics
- Dental Biomechanics
- Breast Biomechanics in Health and Disease
- Liver Biomechanics
- Ocular Biomechanics
- Emerging Areas in Organ Biomechanics
Cardiorespiratory 1: Methodology and Modeling
- Cardiopulmonary Cell Mechanobiology
- Multiscale Modeling of Blood Flow
- Cardiopulmonary Development
- Multiscale Models of the Cardiovascular System
- Vascular Mechanobiology
- Cardiac Mechanics and Heart Modeling
- Systemic Cardiovascular Tissue Mechanics and Remodeling
- Image-based Cardiovascular Mechanics
- Inverse Problems and Data Assimilation in the Circulatory System
- Congenital Heart and Vascular Disease
- Clinical Application for Biomechanics in Cardiopulmonary System
- Cardiovascular Growth and Remodeling Mechanics
- Microcirculation Mechanics: Structure and Function
- Brain Vascular Mechanics and Function
- Mitochondrial Energetics
- Lung Mechanics
- Speech and Cough Mechanics
- Right Ventricular and Pulmonary Vascular Mechanics and Disease
- Multiscale Mechanics of Thrombus Formation
- Hemodynamics and Hypertension
- Emerging Areas in Cardiorespiratory Methodology and Modeling
Cardiorespiratory 2: Clinical Applications
- Coronary Disease: Biomechanics for Clinical Diagnosis & Intervention Assessment
- Congenital Heart Disease & Pediatric Clinical Applications
- Hemodynamics for Liver Interventions
- Clinical Applications of Aneurysm Biomechanics
- Challenges for Clinical Applications of Cardiovascular or Respiratory Biomechanics
- Cardio-Respiratory Coupling in Disease
- Biomechanics to Understand Differences from Development to Adulthood
- Clinical Applications of Heart Biomechanics
- Advancing Methods for Protective Ventilation in ARDS and COVID-19
- Image and Model Integration to Improve Radiation Treatment for Lung Cancer
- Electrophysiology for Clinical Interventions
- Emerging Areas in Cardiorespiratory Clinical Applications
Cardiorespiratory 3: Materials and Prosthesis
- Heart at Work - Cardiac Biomechanics
- Technologies and Devices for Structural Heart Repair
- Cardiovascular Imaging
- Flow Induced Blood Damage and Thrombosis in Cardiovascular Devices
- Prosthetic Heart Valves
- Patient-Specific Biomechanical Interaction of Cardiovascular Devices with Surrounding Tissues
- Arterial Biomechanics
- Pediatric Cardiovascular MCS Devices
- Mechanobiology, Adhesion & Migration of Cells
- Aneurysm and Aortic Dissection: Materials and Prothesis
- Cardiovascular Modeling and Experimentation
- Theoretical and Computational Methods Applied to Cardiac Hemodynamics
- Cell and Molecular Mechanics Applied to Pathophysiology
- Emerging Areas in Cardiorespiratory Materials and Prosthesis
Musculoskeletal 1: Bone and Soft Tissue
- Musculoskeletal Interfaces
- In Vivo Bone Adaptation
- Multiscale Muscusloskeletal Biomechanics
- Mechanics of Musculoskeletal Growth and Development
- In Vivo Tendon/Ligament Adaptation
- Bone Mechanics 1
- Bone Mechanics 2
- Bone Mechanics 3
- Bone Mechanics 4
- Intervertebral Disc Mechanics
- Cartilage Mechanics 1
- Cartilage Mechanics 2
- Meniscus Mechanics
- Tendon, Ligament and Enthesis Biomechanics
- Mechanics of Passive Muscle and Connective Tissue 1
- Mechanics of Passive Muscle and Connective Tissue 2
- In Vivo Human Active Muscle Mechanics and Function
- Active Muscles in Rehabilitation
- Molecular/Cellular Muscle Mechanics and Titin’s Role in Muscle Contraction
- Muscle Molecular/Cellular Biomechanics
- Emerging Areas in Musculoskeletal Mechanics
Musculoskeletal 2: Joints and Whole Body
- Traumatic Loading of the Spine and/or Spinal Cord Injury
- Human Spine, Characterization and Modeling
- Head and Neck Biomechanics
- Shoulder Biomechanics
- Elbow Biomechanics
- Hand and Wrist Biomechanics
- Hip Biomechanics
- Knee Biomechanics
- Ankle and Foot Biomechanics
- Sensorimotor Function and Neuromechanics of Joints
- General Musculoskeletal Biomechanics
- Synergy of Image-based Modeling and Model-Based Imaging for Probing Biological Systems
- Emerging Areas: AI and Human Movement Biomechanics
Musculoskeletal 3: Modeling and Simulation
- Modelling in Neuromechanics: From Simulations to Clinical Applications
- Computational Bone Mechanics
- Coupling of Dynamic Imaging and Musculoskeletal Modeling
- Dynamic Muscle Modeling
- Multiscale Musculoskeletal Mechanics
- Inverse Problems and Parameter Identification
- Imaging of Musculoskeletal Mechanics
- Human Modeling for Robotics
- Population Based Approaches to Computational Musculoskeletal Modelling
- Modeling of Neuromuscular Reflexes and Control
- Probabalistic Musculoskeletal Modeling
- Computational Joint Mechanics
- Emerging Areas in Musculoskeletal Modeling and Simulation
Neural Mechanics
- Brain MR Elastography
- Peripheral Nerve Mechanics
- Glymphatics 1
- Glymphatics 2
- Brain Tissue Mechanics 1
- Brain Tissue Mechanics 2
- Biomechanics of Neural Development
- Spinal Cord Tissue Mechanics
- New Methods in Neural Tissue Mechanics
- Structure-function Relationships in Neural Biomechanics
- Biomechanics of the Meninges
- CSF Flow 1
- CSF Flow 2
- Neurovascular Biomechanics
- Emerging Topics in Neural Biomechanics
Orthopaedic Biomechanics
- Total Joint Replacements
- Assessment of Quantitative Outcomes in Orthopaedic Trials
- Imaging in Orthopaedic Biomechanics
- Clinical Biomechanics
- Bone Fragility and Augmentation
- Navigation and Computer Assisted Surgery
- Skeletal Re-Stabilization
- Cone-Beam Technology and Weight-Bearing Scans
- Custom-Made Implants
- Foot and Ankle
- Prosthetics and Orthotics
- Multiscale Biomechanics for Orthopedics - From Molecules to Patients
- Emerging Areas in Orthopaedic Biomechanics
Locomotion and Human Movement 1: General
- Locomotion & Biomechanics - Cerebral Palsy
- Locomotion & Biomechanics - Neurological Disorders
- Locomotion & Biomechanics - Osteoarthritis and Orthopaedic Conditions
- Joint Loading During Locomotion and Human Movement
- Muscle and Tendon Function During Human Movement
- Mobile Monitoring of Human Movement
- Wearable Sensors for Biomechanical Assessment
- Amputee Biomechanics - Locomotion and Functional Activities
- Upper Extremity Biomechanics
- Machine Learning and Pose Estimation
- Locomotor Behavior in Animal and Robotic Systems
- Emerging areas in Locomotion and Human Movement
Locomotion and Human Movement 2: Balance, Posture, and Motor control
- Falls - Prediction & Prevention
- Locomotion in Elderly
- Upright Posture Control (Standing/Sitting/Reactive Stepping)
- Locomotion after Concussion / Dual Task
- Motor Control - Upper Extremity
- Motor Control - Lower Extremity
- Locomotion and Virtual Reality
- Rehabilitation/Dynamic Balance During Functional Activities
- Wearables for Posture & Balance Assessment
- Assistive Devices for Balance and Posture (AFOs/Exoskeletons/Braces/Prostheses)
- Human/Machine Motor Function Augmentation
- Emerging Areas in Balance, Posture, and Motor Control
Artificial Organs, Medical Device and Assistive Technology
- Biomechanics of Artificial Joints
- Biomechanics of Implants
- 3D Printing Technologies Applications
- 3D bioprinting/ Organ on-a-chip/ Tissue on-a-chip
- Biomechanics of Exoskeletons
- Automotive Safety/ Brain Injury/ Head Protection
- Biomedical Robotics
- Imaging for Biomechanics
- Upper Extremity Rehabilitation
- Lower Extremity Rehabilitation
- Footwear Biomechanics
- Medical Device/ Soft Tissue Interaction
- Artificial Intelligence and Big Data
- Dental/Craniofacial Biomechanics
- Biomechanics of Assistive Technology
- Emerging Areas in Artificial Organs, Medical Device and Assistive Technology
Sports Biomechanics
- Performance Analysis and Enhancement
- Fatigue and Recovery in Sports
- Biofeedback in Sports
- Performance and Injury Prevention
- Sports and Well-being
- Training Load Management and Overtraining
- Wearables in Sports Monitoring
- Paralympic Sports
- Motor Control, Learning, and Adaptation
- Concussion in Sports
- Heat Stress and Exercise
- Fasting in Health and Exercise
- Instrumentation in Sports
- Glycemix Index and Sports Performance
- Emerging Areas in Sports Biomechanics
Injury, Rehabilitation, and Ergonomics
- Wearable Technologies for Rehabilitation Biomechanics 1
- Wearable Technologies for Rehabilitation Biomechanics 2
- Biomechanics of Joint Injury and Injury Prevention 1
- Biomechanics of Joint Injury and Injury Prevention 2
- Biomechanics of Assistive Devices
- Neuromuscular Rehabilitation Using Biomechanics and Data-driven Approaches
- High Rate Injury Biomechanics
- Biomechanics of Ankle Joint Injury and Prevention
- In Vitro Models of Injury
- In Silico Approaches for Neuromuscular Injury Prevention and Rehabilitation
- Emerging Areas in Injury, Rehabilitation, and Ergonomics
Biofluid and Transport 1: Modeling and Simulation
- Biofluid Flows
- Transport Phenomena in Biofluids
- Biofluid Thermodynamics
- Biofluids in Devices and Microfluidics
- Biofluids in Medicine
- Cellular Suspensions and Tissues
- Blood Rheology
- Macro and Microcirculation
- Vesicles, Capsules and Cells
- Reproduction
- Cilia and Flagella
- Swimming Microorganisms
- Microswimmer
- Active Matter
- Biofluids in Nature
- Emerging Areas in Biofluid/Transport Modeling and Simulation
Biofluid and Transport 2: Experimental
- Airway Flows and Lung Transport
- Transport and Mechanics of the Central Nervous System
- Brain Biotransport
- Biotransport Diagnostics and Therapeutics
- From Microcirculation to Large Artery Flows
- Lymphatic Biomechanics and Fluid Transport
- Nanotherapeutics and Nanoparticle Transport
- Hyperthermia and Biotransport within the Cancer Microenvironment
- Microfluidics
- Micro and Nano Flow Applications
- Biomimetic and Bioinspired Flows
- Biological and Blood Analogue Flows
- Emerging Areas in Experimental Biofluid and Transport
Emerging Areas
Biomedical Engineering Education and Outreach
- National/International Biomechanics Day
- New Advances in Remote and Online Biomechanics Education
- Women in Biomechanics
- Innovations in Teaching or Curriculum Development
- Teaching with the OpenSim Neuromuscular Biomechanics Software
Societies
- World Council of Biomechanics Award Session
- 9th WCB Award Session
- Asian-Pacific Association for Biomechanics (APAB) Session 1: Current Trends in Asian-Pacific Region
- Asian-Pacific Association for Biomechanics (APAB) Session 2: NextGen Biomechanics in Asian-Pacific Region
- WCB-SBBRA Joint Session on Biomedical Technologies in Africa 1: Advances in Diagnostics, Therapeutics and Biomedical Technologies in Africa
- WCB-SBBRA Joint Session on Biomedical Technologies in Africa 2: Research Frontiers in Communicable and Noncommunicable diseases
- Hand and Wirst Biomechanics International (HWBI) - Hand Biomechanics I
- Hand and Wirst Biomechanics International (HWBI) - Hand Biomechanics II
- JSME-BED Outstanding Young Researcher Presentation
- TSB Award Session
- TSB Special Session: Taiwanese Innovation in Biomechanics
- ISB Recommendations and Consensus in Biomechanics: Foot and Ankle Bone Reference Definitions
- ISB Affiliated Societies: current biomechanics in the world
- ISB 50 Years of International Biomechanics: contributions to basic and applied science
- ISB 50 years of international biomechanics: contributions to instruments and techniques
- ISB Female Research Excellence Award
- IRCOBI Multiscale Injury Biomechanics Research
- Taiwan Occupational Therapy Association (TOTA) special session: Clinical application of biomechanics in occupational therapy