Researchers from the Evolutionary Biomechanics lab with an omni-directional treadmill, designed and built by Hendrik Beck with contributions by Xinyang Wang, Fabian Plum, and Dr David Labonte. The treadmill studies untethered, continuous locomotion across a broad range of arthropod species.

An image from Dr Joseph van Baterburg-Sherwood's lab showing a model blood vessel engineering to study blood flow in diabetes, where red blood cells become stiffer.

Dr Magdalene Ho, a Research Associate in Dr Ben Almquist's lab group, is the founder of Aptabone, a bioinspired startup that specialises in wound-healing DNA nanotechnology.

A drop weight impact testing machine in the Injury and Reconstruction Biomechanics Test Suite, being used by Dr Thuy-Tien Nguyen, supervised by Professor Spyros Masouros, to investigate the response against dynamic loadings of a floor mat structure to reduce under-body blast injuries

Mechanical forces shape the form and function of biological systems and regulate biological processes across all levels and scales. The motion of joints, contraction of cells, and even the conformation of proteins are all governed by mechanical principles, which together define biological function in health and disease.

Researchers in the Department of Bioengineering seek to understand the role of mechanics in biology by combining the latest tools in engineering and life sciences. With specific interests in evolutionary processes, plant and insect biology, engineered tissue, cardiovascular, musculoskeletal, orthopaedic, ophthalmic and respiratory systems, our researchers apply experimental, computational and theoretical approaches to understand how mechanical forces impact biological function at the molecular, cellular, tissue, organ and organism levels.

Academic staff in this area

Ben Almquist

Ben Almquist
Use of cellular traction forces as a method for controlled drug delivery

Sam Au

Sam Au
Cancer biomechanics and microfluidics

Anthony Bull

Anthony Bull
Musculoskeletal mechanics - sports, ageing and high speed impact

Michael Fertleman

Michael Fertleman
Perioperative care and ageing

Claire Higgins

Claire Higgins
Biomechanical response of skin on load-bearing and non-load-bearing body sites

Kaushik Jayaram

Kaushik Jayaram
Understand the basics of parsimonious biological intelligence leading to robustness of locomotion

Angela Kedgley

Angela Kedgley
Orthopaedic biomechanics of the upper limb

Andriy Kozlov

Andriy Kozlov
Mechanotransduction by hair cells in the inner ear

David Labonte

David Labonte
Biomechanics of insect-plant interactions

Chiu Fan Lee

Chiu Fan Lee
Using statistical physics to understand cell and tissue mechanics and cellular structure formation.

Nick Linton

Nick Linton
Treatments for complex cardiac arrhythmias

Spyros Masouros

Spyros Masouros
Injury biomechanics - high energy trauma and its protection

James Moore Jr

James Moore Jr
Cardiovascular and lymphatic biomechanics and device development

Nic Newell

Nic Newell
Spine biomechanics - low back pain, implants, injury, scoliosis

Darryl Overby

Darryl Overby
Mechanics and mechanobiology of cells and tissues

Periklis Pantazis

Periklis Pantazis
Capturing the dynamics of development and disease through cutting-edge live imaging

Kim Parker

Kim Parker
Physiological mechanics in the cardiovascular system

Joseph van Batenburg-Sherwood

Joseph van Batenburg-Sherwood
Biofluid mechanics - the roles of flow in biological tissues

Julien Vermot

Julien Vermot
Biomechanics and signalling in the cardiovascular system

Peter Weinberg

Peter Weinberg
Biomechanics of atherosclerosis, endothelial permeability and blood flow

Choon Hwai Yap

Choon Hwai Yap
Cardiac development biomechanics

Research highlights

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