Analysis and simulation of the distal forearm stability during pro-supination for improved surgical planning

Philipp Fürnstahl, Matthias Harders, Ladislav Nagy, Andreas Schweizer, Reto Sutter
01.06.2016 – 31.12.2019

Summary

Scientific abstract

Introduction: The distal radioulnar joint is one of two joints of the forearm bones radius and ulna. It is anatomically located at the wrist. The articulating bone surfaces enable forearm motion (i.e., pro-supination) in an extensive range while the stability is primarily maintained by a complex system of ligaments connecting the bones. Consequently, posttraumatic soft tissue injury can cause chronic joint instability, pain...
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Persons

Applicants

  • Philipp Fürnstahl, Research in Orthopedic Computer Science University Hospital Balgrist University of Zurich, Switzerland
  • Matthias Harders, Fakultät für Mathematik, Informatik und Physik Univesität Innsbruck, Austria
  • Ladislav Nagy, Departement für Orthopädie Universitätsklinik Balgrist Universität Zürich, Switzerland
  • Andreas Schweizer, Department of Orthopaedics Balgrist University Hospital Universtiy of Zurich, Switzerland
  • Reto Sutter, Radiologie Universitätsklinik Balgrist, Switzerland

Employees

  • Fabio Carrillo , Universitätsklinik Balgrist, Switzerland
  • Nicolas Gerber, Personalised Medicine Research Universitätsklinik für Orthopädische Chirurg Universität Bern, Switzerland
  • Yuanhao Gong, A*STAR-NUS Clinical Imaging Research Centre Centre for Translational Medicine (MD6), Singapore
  • Sarra Margi
  • Weimin Yu

Disciplines and keywords

mySNF disciplines (provided by researchers): Biomedical Engineering, Information Technology, Surgery
Fields of research (mapped from mySNF Disciplines): Biomedical engineering, Biomedical and Clinical Sciences, Information and Computing Sciences
Keywords: forearm joint instability, surgical planning, pro-supination, anatomical modelling, soft tissue segmentation, physical-based soft tissue simulation

Scientific publications

Digitalization of the IOM: A comprehensive cadaveric study for obtaining three-dimensional models and morphological properties of the forearm’s interosseous membrane

Carrillo, Fabio; Suter, Simon; Casari, Fabio A.; Sutter, Reto; Nagy, Ladislav; Snedeker, Jess G.; Fürnstahl, Philipp
Digitalization of the IOM: A comprehensive cadaveric study for obtaining three-dimensional models and morphological properties of the forearm’s interosseous membrane. In Scientific Reports, 10(1), 6401–6401.
2020
, Open Access

Physical Simulation of the Interosseous Ligaments During Forearm Rotation

Péan, Fabien; Carrillo, Fabio; Fürnstahl, Philipp; Goksel, Orcun
Physical Simulation of the Interosseous Ligaments During Forearm Rotation. In CAOS 2017. 17th Annual Meeting of the International Society for Computer Assisted Orthopaedic Surgery. EPiC Series in Health Sciences. Manchester, UK: EasyChair.
2017

Three-Dimensional Automated Assessment of the Distal Radioulnar Joint Morphology according to Sigmoid Notch Surface Orientation

Roner, Simon; Fürnstahl, Philipp; Scheibler, Anne-Gita ; Nagy, Ladislav; Carrillo, Fabio
Three-Dimensional Automated Assessment of the Distal Radioulnar Joint Morphology according to Sigmoid Notch Surface Orientation. In Journal of Hand Surgery American, tbd.

Datasets

Collaboration

Computer Vision Laboratory, ETH Zurich

  • in-depth/constructive exchanges on approaches, methods or results
  • Publication
Switzerland

Academic events

Research Day University Hospital Balgrist, University of Zurich

Type: Poster
Title of contribution: A presentation about the key research projects of my group
18.05.2018
, Zurich, Switzerland, Switzerland

Public communication

Overview

Grant number
163308
Funding scheme
Weave/Lead Agency
Call
Project funding 2015 (01.04.2015)
Approved amount
311,741 CHF
Status
Completed
Research institution
University of Zurich – ZH
Institute
Departement für Orthopädie Universitätsklinik Balgrist Universität Zürich

Output data