The list of confirmed symposia at the congress are listed below. 

Theme 1: Special Topics

Sym 1.1-01: Biomechanics in Flight

Sym 1.1-02: Terrestrial Locomotion

Sym 1.2-01: Biomechanical Ultrasound

Sym 1.3-01: Mechanical stimulus as an osteogenic agent in bone tissue engineering

Sym 1.4-01: Human Performance in Space Flights

Sym 1.4-02: Sports Aerodynamics

Sym 1.4-03: Footwear and foot biomechanics

Sym 1.4-04: Innovations in Sport Technology

Sym 1.4-05: Fatigue in Human Performance

Sym 1.4-06: Neuromechanics of aging and fatigue: impact of sports and exercise

 

Theme 2: Organ Mechanics

Sym 2.01-01: ESAO (European Society for Artificial Organs)

Sym 2.01-02: Biohybrid Organ

Sym 2.01-03: Innovative Experimental Techniques to Assess Prosthetic Heart Valve Structure-Function Performance

Sym 2.01-04: Current Challenges in Adult Circulatory Support

Sym 2.01-05: Assisted Circulation for Pediatric Patients

Sym 2.01-06: Extracorporeal Cardiac Support for Neonatal and Pediatric Patients

Sym 2.02-01: Biomechanics and Atherosclerosis

Sym 2.02-02: Applications of Biomechanics in Arterial Disease

Sym 2.02-03: Measurement Techniques in Cardiovascular Biomechanics

Sym 2.02-04: Biomechanics in Atherosclerotic Plaque Initiation and Progression

Sym 2.03-01: Injury Epidemiology

Sym 2.03-02: Head/Brain Injury

Sym 2.03-03: Whiplash Biomechanics

Sym 2.03-04: Neck Injury (other than whiplash) Biomechanics

Sym 2.03-05: Spine Kinematics and Injury Biomechanics

Sym 2.03-06: Thorax Injury Biomechanics

Sym 2.03-07: Abdominal Injury Biomechanics

Sym 2.03-08: Falls - Mechanisms, Injuries and Interventions

Sym 2.03-09: Ballistic and blast Injury Biomechanics

Sym 2.03-10: Pediatric Injury Biomechanics

Sym 2.03-11: Frontal and Side impact Injury Biomechanics and Protection

Sym 2.03-12: Pedestrian Injury Biomechanics

Sym 2.03-13: Numerical Modeling

Sym 2.07-01: Facet Mechanics

Sym 2.07-02: Spine Impact Biomechanics

Sym 2.07-03: FDA Approval Process from Start to Finish

Sym 2.07-04: Cranial CSF Mechanics

Sym 2.07-05: Spinal CSF Mechanics

Sym 2.07-06: Artificial Discs

Sym 2.07-07: Motion Preservation Devices

Sym 2.08-01: Biomechanics and Biotribology of Artificial Knee Joints

Sym 2.08-02: Biomechanical and Biotribological Functions of Artificial Hip Joints

Sym 2.09-01: Wheelchair

Sym 2.09-02: Deep Tissue Injury

Sym 2.09-04: Prosthetics

Sym 2.09-05: Functional Electrical Stimulation

Sym 2.09-07: Joint Rehabilitation

Sym 2.09-08: Spine Rehabilitation

Sym 2.11-01: Micro-mechanics of tissues and cells

Sym 2.11-02: Multi-scale phenomena in respiratory transport

Sym 2.11-03: Mucociliary flows and airway liquid dynamics

Sym 2.11-04: Fluid - structural interactions in the respiratory system

Sym 2.11-05: Technology and measurement - reality and modelling

 

Theme 3: Tissue Mechanics

 Sym 3.1-01: Virtual Physiology & Simulation of Biological Structures for the Musculoskeletal System

Sym 3.2-01: Arterial and Venous Wall Mechanics

Sym 3.2-02: Adaptation and Remodelling

Sym 3.2-04: Mechanics of Aneurysms

Sym 3.2-05: Myocardial Mechanics

Sym 3.2-06: Non Invasive Measurement of Cardiovascular Structure & Function

Sym 3.2-07: Vascular Prosthesis and Stents

Sym 3.3-01: Cartilage Mechanics

Sym 3.3-02: Cartilage Repair/Regeneration & Osteochondral Grafts 

Sym 3.3-03: Chondrocyte Mechanics

Sym 3.3-04: Cartilage Tissue Engineering

Sym 3.3-05: Cartilage Imaging

Sym 3.3-06: Cartilage Lubrication

Sym 3.4-02: Structure-Function Relationship of Ligament and Tendon

Sym 3.4-03: Tendinopathy

Sym 3.4-04: ACL and Knee Biomechanics

Sym 3.4-06: Tendon/Ligament Mechanics in Hand

Sym 3.4-07: Modeling and Simulation of Tendon & Ligament

Sym 3.4-08: Tendon/Ligament Adaptation and Regeneration

Sym 3.4-10: Graft Remodeling in Tendon and Ligament

Sym 3.4-11: Mechanobiology of Ligament and Tendon

Sym 3.6-01: Muscle Injury

Sym 3.6-02: Muscle Rehabilitation

Sym 3.6-03A: Human Tendon Properties and Adaptations

Sym 3.6-03B: Human Muscle-Tendon Interaction

Sym 3.6-04: Cross-bridge and Sarcomere Modeling

Sym 3.6-05: Muscle Modeling & Musculoskeletal Simulation

Sym 3.6-06: Motor Control - The distribution problem

Sym 3.6-07: Muscle tendon unit mechanics

Sym 3.6-08: Hand and finger coordination

Sym 3.6-09: Locomotion

 

Theme 4: Cell Mechanics

Sym 4.1-01: Recent Trends in Biorheology and Microcirculation

Sym 4.2-01: Cytoskeletal Mechanics

Sym 4.2-02: Cellular Mechanics and Mechanotransduction

Sym 4.2-03: Cellular Imaging

Sym 4.2-04: Multi-cell Mechanics & Behavior

Sym 4.2-05: Stem Cell Mechanics

Sym 4.2-06: Theoretical & Computational Modeling of Cellular & Cytoskeletal

Sym 4.8-01: Cancer

Sym 4.8-02: Atherosclerosis

Sym 4.8-03: Lung Diseases

Sym 4.8-04: Heart Disease

Sym 4.8-06: Diabetes Disease

Sym 4.8-07: Bone Diseases

Sym 4.8-08: Drug Delivery & Disease Targeting

 

Theme 5: Molecular Mechanics 

 Sym 5.1-01: Shear flow controlled self-assembly

Sym 5.1-02: Mechanobiochemistry

Sym 5.1-03: Biomaterials

  

Theme 6: Materials, Tools, Devices and Techniques

Sym 6.1-02: Cartilage Substitution

Sym 6.1-03: Functional Spinal Interventions

Sym 6.3-01: MEMS Technology and Biomedical Devices

Sym 6.4-02: Particle Methods in Biofluids

Sym 6.4-03: Space-Time Reduced Modelling for Biological Fluid Dynamics

Sym 6.6-01: Device and Technique Development for Biomedical Imaging

Sym 6.6-02: Computational Biology in Biomedical Imaging

Sym 6.6-03: Molecular and Micro/Nano Biosensors in Biomedical Imaging

Sym 6.6-04: Micro/Nano Devices and BioMEMS for Biomedical Imaging

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