Members

IMMC

Gabriel Abedrabbo Ode
Contact


Funding: SpinOff - Innoviris
Supervisor(s): Paul Fisette

A biomechanical model may be useful in providing the surgeon the information needed for planning the best treatment. In this context, intervertebral efforts represent an essential input in guiding the surgical planning of scoliosis.
This project seeks to develop a clinical protocol based on experimental data and a multibody model of the upper body, to quantify the intervertebral efforts for idiopathic scoliotic adolescents during moderate gait. The estimation of intervertebral efforts is based upon four interwoven topics: patient physiology, spine geometry, spine and pelvis kinematics, as well as muscular forces.

IMMC main research direction(s):
Biomedical engineering
Dynamical and electromechanical systems
Solid mechanics

Keywords:
biomechanics
medical device
multi-body systems

Research group(s): MEED
Collaborations: NMSK-UCL

    

Recent publications

See complete list of publications

Journal Articles


1. Abedrabbo Ode, Gabriel; Mahaudens, Philippe; Detrembleur, Christine; Mousny, Maryline; Fisette, Paul. Intervertebral force computation: a non invasive computation method. In: Computer Methods in Biomechanics and Biomedical Engineering, Vol. 22, no.sup1, p. S103-S105 (2019). doi:10.1080/10255842.2019.1668135. http://hdl.handle.net/2078.1/226774

2. Abedrabbo Ode, Gabriel; Cartiaux, Olivier; Mahaudens, Philippe; Detrembleur, Christine; Mousny, Maryline; Fisette, Paul. Intervertebral efforts quantification using a multibody dynamics approach: application to scoliosis. In: Computer Methods in Biomechanics and Biomedical Engineering, Vol. 20, no. Suppl 1, p. 1-2 (2017). doi:10.1080/10255842.2017.1382831. http://hdl.handle.net/2078.1/188794

3. Abedrabbo Ode, Gabriel; Fisette, Paul; Absil, Pierre-Antoine; Mahaudens, Philippe; Detrembleur, Christine; Raison, Maxime; Banse, Xavier; Aubin, Carl-Eric; Mousny, Maryline. A multibody-based approach to the computation of spine intervertebral motions in scoliotic patients.. In: Studies in Health Technology and Informatics, Vol. 176, p. 95-98 (2012). http://hdl.handle.net/2078.1/112454


Conference Papers


1. Raison, Maxime; Verlé, Aubain; Abedrabbo Ode, Gabriel; Detrembleur, Ch; Mahaudens, Philippe; Fisette, Paul. Customized MBD models to contribute to answering clinical questions about the spine in motion. In: Proceedings of the 5th Joint International Conference on Multibody System Dynamics, 2018. http://hdl.handle.net/2078.1/213557

2. Abedrabbo Ode, Gabriel; Cartiaux, Olivier; Mahaudens, Philippe; Detrembleur, Christine; Mousny, M; Fisette, Paul. Quantification of Intervertebral Efforts Using a Multibody Dynamics Approach: Application to Scoliosis. In: Proceedings of the ECCOMAS Thematic Conference on Multibody Dynamics, 2017. http://hdl.handle.net/2078.1/213583

3. Abedrabbo Ode, Gabriel; Cartiaux, Olivier; Mahaudens, Philippe; Detrembleur, Christine; Mousny, Maryline; Fisette, Paul. Quantification of Intervertebral Efforts Using a Multibody Dynamics Approach: Application to Scoliosis. http://hdl.handle.net/2078.1/213561

4. Abedrabbo Ode, Gabriel; Cartiaux, Olivier; Mahaudens, Philippe; Detrembleur, Christine; Mousny, Maryline; Fisette, Paul. Dynamic Analysis of the Spine: Impact of the Internal Organs Wobbling Motion During Gait. http://hdl.handle.net/2078.1/168100

5. Abedrabbo Ode, Gabriel; Cartiaux, Olivier; Mahaudens, Philippe; Detrembleur, Christine; Mousny, Maryline; Fisette, Paul. Computation of spine intervertebral motions in scoliotic patients: a multibody approach. In: Computer Methods in Biomechanics and Biomedical Engineering. Vol. 18, no. Suppl 1, p. 1866-1867 (2015). Informa Healthcare: (United Kingdom) London, 2015. doi:10.1080/10255842.2015.1069546. http://hdl.handle.net/2078.1/165005

6. Abedrabbo Ode, Gabriel; Cartiaux, Olivier; Fisette, Paul; Raison, Maxime; Mahaudens, Philippe; Detrembleur, Christine; Mousny, Maryline. Biomechanical modeling of scoliotic spine and quantification of inter-vertebral efforts during gait – A preliminary sensitivity study. http://hdl.handle.net/2078.1/146933

7. Abedrabbo Ode, Gabriel; Raison, Maxime; Mahaudens, Philippe; Detrembleur, Christine; Mousny, Maryline; Cartiaux, Olivier; Fisette, Paul. Kinematic indentification of the spine: a multibody approach. The 3th international conference on multibody system dynamics. http://hdl.handle.net/2078.1/146934

8. Abedrabbo Ode, Gabriel; Absil, Pierre-Antoine; Mahaudens, Philippe; Detrembleur, Christine; Raison, Maxime; Mousny, Maryline; Fisette, Paul. A multibody-based approach to the computation of spine intervertebral motions in scoliotic patients. doi:10.3233/978-1-61499-067-3-95. http://hdl.handle.net/2078.1/110092

9. Abedrabbo Ode, Gabriel; Fisette, Paul; Mousny, Maryline; Mahaudens, Philippe; Detrembleur, Christine; Aubin, Carl-Eric; Raison, Maxime. Dynamic analysis of intervertebral efforts in scoliosis : a multibody modeling approach. http://hdl.handle.net/2078.1/89726

10. Abedrabbo Ode, Gabriel; Poncelet, Antoine; Sepulveda, Patricia; Cescotto, Serge; Fisette, Paul. MULTIBODY SIMULATION OF A CRASH TEST ATTENUATOR MADE OF RECYCLED MATERIALS. http://hdl.handle.net/2078.1/89706


Dissertations


1. Abedrabbo Ode, Gabriel. Quantification of intervertebral efforts using a multibody dynamics approach : application to scoliosis, prom. : Fisette, Paul ; Cartiaux, Olivier, 31/01/2017. http://hdl.handle.net/2078.1/184592