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Areas of interest:
Primary Research Theme: Design and Manufacturing
Secondary Research Theme: Biomechanics
Global interests reside in improving the biomechanical understanding of mechanisms that govern our musculoskeletal system. The use of complementary research platforms (in vivo, ex vivo, and in silico) foster novel findings towards the understanding of healthy system and the onset and/or pathomechanism of musculoskeletal disorders. Such translational research is interdisciplinary and requires a multifaceted approach to promote the engineering conception and design of new mechanical solutions.
More specifically, the laboratory seeks to better understand the control system governing spinal stability. Of further interest is how this control system responds when mechanical biases are introduced resulting in physiological stress shielding. Additionally, performs research and development of novel physics driven virtual reality surgical simulators for improved surgeon training in orthopeadics. Moreover, the mechanical performance of current and future medical devices are also studied.
Primary Research Theme: Design and Manufacturing
Secondary Research Theme: Biomechanics
Global interests reside in improving the biomechanical understanding of mechanisms that govern our musculoskeletal system. The use of complementary research platforms (in vivo, ex vivo, and in silico) foster novel findings towards the understanding of healthy system and the onset and/or pathomechanism of musculoskeletal disorders. Such translational research is interdisciplinary and requires a multifaceted approach to promote the engineering conception and design of new mechanical solutions.
More specifically, the laboratory seeks to better understand the control system governing spinal stability. Of further interest is how this control system responds when mechanical biases are introduced resulting in physiological stress shielding. Additionally, performs research and development of novel physics driven virtual reality surgical simulators for improved surgeon training in orthopeadics. Moreover, the mechanical performance of current and future medical devices are also studied.
研究兴趣
论文共 80 篇作者统计合作学者相似作者
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JOURNAL OF BIOMECHANICS (2024): 111894-111894
Medical & Biological Engineering & Computingno. 4 (2024): 1191-1199
MEDICAL & BIOLOGICAL ENGINEERING & COMPUTING (2024)
Siril Teja Dukkipati,Mark Driscoll
Journal of Bionic Engineering (2024)
Medical & biological engineering & computingno. 7 (2023): 1837-1843
COMPUTERS IN BIOLOGY AND MEDICINE (2023): 106982-106982
Emeric Bernier,Mark Driscoll
Journal of biomechanics (2023): 111863-111863
Cahal McVeigh, Frank Harewood, P. J. King,Mark Driscoll, Sanjeev Kulkarni, Tao Zhao, Mark Goodin,Tinen L. Iles
Springer eBookspp.457-486, (2023)
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