Biomécanique de la colonne vertébrale
Les maladies de la colonne vertébrale sont fréquentes et leurs causes ne sont souvent pas totalement élucidées. Grâce à nos recherches, nous contribuons à une meilleure compréhension des maladies de la colonne vertébrale. Nous évaluons les approches thérapeutiques existantes et les nouvelles approches de manière à formuler des recommandations à l’intention des physiothérapeutes.
Pour nos recherches, nous avons recours à l'infrastructure du Bern Movement Lab.
Autres collaborateurs
- Florin Schneeberger (MSc-Student, BFH)
- Dounia Hassar (MSc-Studentin, BFH / Universtität Bern)
- Loïc Anderes (MSc-Student, BFH / Universität Bern)
- Timas Peteraitis (MSc-Student, BFH)
- Jessica Stahl (BSc-Studentin, BFH)
- Jana Flückiger (BSc-Studentin, BFH)
Rejoignez notre équipe
Pour les thèses de master
Pour les possibilités actuelles de collaboration dans le cadre d'une thèse de master, veuillez vous adresser directement au Dr. Stefan Schmid.
Propositions actuelles de thèse de master :
- Automated daily living activities classification from IMU data in adolescents using a deep learning model
- Validation of a machine learning-based algorithm for the automated recognition of daily living activities from IMU measurements in school children
- Implementing bidirectional coupling in a combined MSK-FE modeling approach for assessing spinal loading in scoliosis patients
- Enhancing a musculoskeletal full-body model with a thoracolumbar fascia to improve spinal loading simulations in scoliosis patients
Pour les thèses de doctorat
Actuellement, nous n'avons pas de poste de doctorant* ouvert.
Projets
Aucun résultat ne correspond à votre recherche.
Projets terminés
- Effects of a short educational video on back beliefs and object lifting behavior in the general population.
PI’s: Stefan Schmid, PT, PhD; Guillaume Christe, PT, PhD
Sponsor: Unfunded - Quantifying full-body lifting strategies using a newly developed lifting index derived from regular video recordings: A comparative evaluation and reliability analysis.
PI: Stefan Schmid, PT, PhD
Sponsor: Unfunded - Computational modeling of the spine in patients with adolescent idiopathic scoliosis.
PI’s: Stefan Schmid, PT, PhD and Philippe Büchler, PhD
Sponsor: Unfunded - Measuring 3D lumbar spine motion during functional activities using textile sensors: A comparative evaluation and reliability analysis.
PI: Stefan Schmid, PT, PhD
Sponsor: Unfunded - Assessing the feasibility and effectiveness of regular training in the ExerCube – A pilot feasibility study.
PI: Claudio Nigg, PhD
Involved member(s) of Spinal Movement Biomechanics Group: Stefan Schmid, PT, PhD (Co-Investigator)
Sponsor: Unfunded - Neuromechanical Analysis of selected Corrective Exercise Therapy Approaches in Adolescent Idiopathic Scoliosis (ExercAIS).
PI: Stefan Schmid, PT, PhD
Sponsor: Unfunded - Patient-specific Musculoskeletal Spine Modeling: Implementing Medical Imaging-based Muscle Morphology using an Automated Deep Learning Approach.
PI: Stefan Schmid, PT, PhD
Sponsor: BFH CfP (Grant-no.: 2157PT_G) - Lumbar vertebral loading and paraspinal muscle activity during object lifting in healthy pain-free adults: an exploratory cross-sectional pilot study.
PI: Stefan Schmid, PT, PhD
Sponsor: Unfunded - Low back pain: Unveiling the contribution of motor control adaption using biomechanical modeling and neuroimaging. Link
PI: Michael L. Meier, PhD (Balgrist University Hospital, Zurich, Switzerland)
Involved member(s) of Spinal Movement Biomechanics Group: Stefan Schmid, PT, PhD (Project partner)
Sponsor: Swiss National Science Foundation (Grant-no.: 185123) - Spine Biomechanics during Functional Activities in Patients with Chronic Low Back Pain: A Pilot Feasibility Study.
PI: Stefan Schmid, PT, PhD
Sponsor: Swiss Physiotherapy Association (physioswiss) - Novel musculoskeletal models to assess spine segmental loads in adolescents with idiopathic scoliosis.
PI: Dennis E. Anderson, PhD (Beth Israel Deaconess Medical Center & Harvard Medical School, Boston, MA, USA)
Involved member(s) of Spinal Movement Biomechanics Group: Stefan Schmid, PT, PhD (Co-investigator)
Sponsor: National Center of Simulation and Rehabilitation Research (Sub-award of NIH grant no.: 5P2CHD065690 - Using subject-specific musculoskeletal spine models to predict segmental loading and individual muscle forces during functional activities in adolescents with idiopathic scoliosis.
PI: Stefan Schmid, PT, PhD
Sponsor: Swiss National Science Foundation (Grant-no.: 178427) - The Measurement of Spine Dynamics during Gait for the Quantification of Intervention Outcomes in Patients with different Pathologies.
PI: Stefan Schmid, PT, PhD
Sponsor: Swiss Physiotherapy Association (physioswiss)
Partenariats
Partenariats nationaux
- Integrative Spinal Research Group, Balgrist University Hospital, Zurich, Switzerland (Michael L. Meier, PhD)
- Computational Bioengineering Group, ARTORG Center for Biomedical Engineering Research, University of Bern, Bern, Switzerland (Philippe Büchler, PhD)
- Orthopedic Department, University Children’s Hospital Basel (UKBB), Basel, Switzerland (Carol-Claudius Hasler, MD)
- Department of Orthopedic Surgery and Traumatology, Bern University Hospital (Inselspital), Bern, Switzerland (Moritz Deml, MD)
- BFH Computer Perception and Virtual Reality Lab (cpvrLab), Biel, Switzerland (Marcus Hudritsch)
- Department of Diagnostic, Interventional and Pediatric Radiology, Bern University Hospital (Inselspital), Bern, Switzerland (Jasmin Busch, MD)
- Physiotherapie Schori, Bern, Switzerland (Maria Schori, PT)
- Department of Physiotherapy, HESAV School of Health Sciences, HES-SO University of Applied Sciences and Arts Western Switzerland, Lausanne, Switzerland (Guillaume Christe, PT, PhD)
Partenariats internationaux
- Bouxsein Lab, Beth Israel Deaconess Medical Center & Harvard Medical School, Boston, MA, USA (Dennis E. Anderson, PhD and Mary Bouxsein, PhD)
- Department of Mechanical Engineering, Polytechnique Montréal, Montréal, Canada (Carl-Eric Aubin, PhD)
- Institute for Orthopaedic Research and Training, KU Leuven, Leuven, Belgium (Lennart Scheys, PhD)
Dans les médias
Les médias reprennent régulièrement notre travail de recherche et s'y réfèrent. Vous pouvez voir ici une sélection d'articles :
- 3sat, chaîne de télévision publique allemande, 8. Februar, 2023: Nano «Richtig heben»
- SRF, Radio et télévision suisses, 16. Mai, 2022: Puls, «Rückenschmerzen – Oft sind es die Muskeln»
- SRF, Radio et télévision suisses, 16. Mai, 2022: 10vor10 «Studie: CTs, MRIs und Medikamente verursachen unnötig hohe Kosten»
- «PhysioBib» Chaîne YouTube, 18. Août, 2022: «Kritik an Strg_F Krafttrainings-Doku»
- Hauptstadt – Nouveau journalisme bernois, 5. Mai, 2022: «Mythos gerader Rücken?»
Logiciels et bases de données
- Personalizable full-body models with a detailed thoracolumbar spine (freely available OpenSim models and MATLAB code for download on SimTK)
- Full-body models with detailed thoracolumbar spine for children and adolescents (freely available for download on the project hosting platform SimTK)
- Spinal kinematics during gait in healthy individuals across different age groups (C3D-files freely available for download)
Publications
Nous publions les résultats de nos recherches aussi bien dans des publications scientifiques internationales que dans des magazines d'associations professionnelles ou de partenaires de terrain.
No publication found.