At KU Leuven, a multidisciplinary ankle-foot biomechanics research group, is active with the aim of understanding ankle-foot dysfunction in orthopedic populations and to optimize orthopedic and rehabilitation approaches. We have a long-standing tradition in quantifying musculoskeletal loading using in vivo 3D motion capture data in combination with medical-imaging based musculoskeletal and finite element models. More recently, 4D CT scanning techniques have being developed in combination with a foot manipulator to measure in vivo bone kinematics. Furthermore, our group developed a unique gait simulator for cadaveric experimentation allowing in vitro experimental measurements of foot bone kinematics and ankle pressure. Within our research team, we offer a unique opportunity to collaborate with biomechanical engineers, specialists in motion analysis as well as clinicians and industrial partners. The group is a collaboration between Prof Jos Vander Sloten (department mechanical engineering – biomechanics group) and Prof Ilse Jonkers (department of human movement science – human movement biomechanics group). We also collaborate with The Institute for Orthopaedic Research and Training (IORT), headed by Prof. Lennart Scheys, a multidisciplinary group associated with KU Leuven and the University Hospitals Leuven (department of Orthopaedics) that houses our in vitro simulator. There is a strong connection with the Belgian society of foot-ankle surgeons. This research is also aligned with the activities of the Horizon2020 project In Silico World - https://insilico.world Project where Bryce Killen is the leading postdoctoral researcher.
Today, we are looking for a motivated postdoctoral researcher to further advance the development and validation of our image-based musculoskeletal and finite element (FE) ankle-foot models.
To this end, historical data from the group’s in vitro simulator and dynamic imaging set-ups can be used as well as the potential to collect new data.
We expect you
(1) further develop our suite of musculoskeletal models and solidify the personalization workflows available within the team
(2) design and conduct in vitro and in vivo experiments for validation of the musculoskeletal modeling workflow
(3) develop an FE modeling workflow for the foot-ankle complex and
(4) liaise with clinical and industrial partners to further enhance the impact of our modeling work through applied proof-of-concept studies.
Key words: Biomechanics, image-based modeling, foot, medical imaging, finite element, in vitro, validation
This position is open for interested postdoc candidates with an interest in the use, design, and validation of modeling workflows to elucidate ankle-foot function and to optimize treatment in relevant orthopaedic patients.
Candidates planning to finish their PhD in summer or fall 2021 are encouraged to apply.
The candidate should be highly interested in working in a multi-disciplinary environment consisting of engineers, physical therapists and medical doctors.