Physics – Medical Physics
Scientific paper
2006-06-16
Clinical Biomechanics 19 (2) (2004) 202-208
Physics
Medical Physics
Scientific paper
Objective: A method to predict the relationships between decompressed volume of orbital soft tissues, backward displacement of globe after osteotomy, and force exerted by the surgeon, was proposed to improve surgery planning in exophthalmia reduction. Design: A geometric model and a poroelastic finite element model were developed, based on Computed Tomography scan data. Background: The exophthalmia is characterised by a protrusion of the eyeball. Surgery consists in an osteotomy of the orbit walls to decompress the orbital content. A few clinical observations ruling on an almost linear relationship between globe backward displacement and tissue decompressed volume are described in the literature. Methods: Fast prediction of decompressed volume is derived from the geometric model: a sphere in interaction with a cone. Besides, a poroelastic Finite Element model involving morphology, material properties of orbital components and surgical gesture was implemented. Results: The geometric model provided a better decompression volume estimation than the Finite Element model. Besides, the Finite Element model permitted to quantify the backward displacement, the surgical gesture and the stiffness of the orbital content. Conclusions: The preliminary results obtained for one patient, in accordance with the clinical literature, were relatively satisfying. An efficient aid for location and size of osteotomies was derived and seemed to be able to help in the surgery planning. Relevance: To our knowledge, this paper concerns the first biomechanical study of exophthalmia reduction. The approach permitted to improve the treatment of orbitopathy and can be used in a clinical setting.
Ambard Dominique
Boutault Franck
Luboz Vincent
Payan Yohan
Pedrono Annaig
No associations
LandOfFree
Prediction of tissue decompression in orbital surgery does not yet have a rating. At this time, there are no reviews or comments for this scientific paper.
If you have personal experience with Prediction of tissue decompression in orbital surgery, we encourage you to share that experience with our LandOfFree.com community. Your opinion is very important and Prediction of tissue decompression in orbital surgery will most certainly appreciate the feedback.
Profile ID: LFWR-SCP-O-390409