Véronique Feipel scite author profile

Biomedical science and its allied disciplines are entering a new era in which computational methods and technologies are poised to play a prevalent role in supporting collaborative investigation of the human body. Within Europe, this has its focus in the virtual physiological human (VPH), which is an evolving entity that has emerged from the EuroPhysiome initiative and the strategy for the EuroPhysiome (STEP) consortium. The VPH is intended to be a solution to common infrastructure needs for physiome projects across the globe, providing a unifying architecture that facilitates integration and prediction, ultimately creating a framework capable of describing Homo sapiens in silico. The routine reliance of the biomedical industry, biomedical research and clinical practice on information technology (IT) highlights the

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Pregnancy and pelvic girdle pain: Analysis of pelvic belt on pain

Bertuit

Lint

Rooze

et al. 2017

Journal of Clinical Nursing

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In vivo thorax 3D modelling from costovertebral joint complex kinematics

Beyer

Sholukha

Dugailly

et al. 2014

Clinical Biomechanics

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A wearable inertial system to assess the cervical spine mobility: Comparison with an optoelectronic-based motion capture evaluation

Duc

Salvia

Lubansu

et al. 2014

Medical Engineering & Physics

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In vitro 3D-kinematics of the upper cervical spine: helical axis and simulation for axial rotation and flexion extension

et al. 2009

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We developed a protocol to create UCS anatomical model simulations including three-dimensional discrete kinematics, using previously validated methods. In this study, simultaneous segmental movement simulation and display of HA variations was shown to be feasible. Although partially confirming previous results, helical axis computation showed variations of motion patterns dependent on movement, level and specimen. Further in vivo investigations are needed to confirm relevance of this method in the clinical field.

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The lacertus fibrosus of the biceps brachii muscle: an anatomical study

et al. 2014

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Global 3D head–trunk kinematics during cervical spine manipulation at different levels

Klein¹,

Broers²,

Feipel³

et al. 2003

Clinical Biomechanics

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In spinal manipulative therapy, extreme range of motion as the result of the forces applied is generally believed to represent a major risk for negative side effects, especially with regard to the cervical spine. With a multiple component technique, amplitudes between head and upper trunk were shown not to differ significantly with regard to the side nor to the spinal level. Recorded ranges of motion did not exceed those reported for active motion in literature.

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