Your search keyword '"MRI scans"' showing total 2 results

1. Meniscus sizing using three-dimensional models of the ipsilateral tibia plateau based on CT scans – an experimental study of a new sizing approach.

Author

Beeler, Silvan, Vlachopoulos, Lazaros, Jud, Lukas, Sutter, Reto, Götschi, Tobias, Fürnstahl, Philipp, and Fucentese, Sandro F.

Subjects

MENISCUS (Anatomy), MENISCUS surgery, TIBIA, THREE-dimensional modeling, PLATEAUS, BONES, KNEE

Abstract

Purpose: Selection of a meniscus allograft with a similar three-dimensional (3D) size is essential for good clinical results in meniscus allograft surgery. Direct meniscus sizing by MRI scan is not possible in total meniscectomy and indirect sizing by conventional radiography is often inaccurate. The purpose of this study was to develop a new indirect sizing method, based on the 3D shape of the ipsilateral tibia plateau, which is independent of the meniscus condition. Methods: MRI and CT scans of fifty healthy knee joints were used to create 3D surface models of both menisci (MRI) and tibia plateau (CT). 3D bone models of the proximal 10 mm of the entire and half tibia plateau (with / without intercondylar area) were created in a standardized fashion. For each meniscus, the best fitting "allograft" couple out of all other 49 menisci were assessed by the surface distance of the 3D meniscus (best available allograft), of the 3D tibia plateau (3D-CT) and by the radiographic method of Pollard (2D-RX). Results: 3D-CT sizing was significantly better by using only the half tibia plateau without the intercondylar area (p < 0.001). But neither sizing by 3D-CT, nor by 2D-RX could select the best available allograft. Compared to 2D-RX, 3D-CT sizing was significantly better for the medial, but not for the lateral meniscus. Conclusions: Automatized, indirect meniscus sizing using the 3D bone models of the tibia plateau is feasible and more precise than the previously described 2D-RX method.. However, further technical improvement is needed to select always the best available allograft. [ABSTRACT FROM AUTHOR]

Published

2020

2. Meniscus sizing using three-dimensional models of the ipsilateral tibia plateau based on CT scans – an experimental study of a new sizing approach

Author

Reto Sutter, Lukas Jud, Lazaros Vlachopoulos, Sandro F. Fucentese, Tobias Götschi, Philipp Fürnstahl, Silvan Beeler, University of Zurich, and Beeler, Silvan

Subjects

medicine.medical_specialty, Radiography, 610 Medicine & health, Meniscus (anatomy), Plateau (mathematics), Meniscus medial, 03 medical and health sciences, 2732 Orthopedics and Sports Medicine, 0302 clinical medicine, lcsh:Orthopedic surgery, medicine, Knee, Orthopedics and Sports Medicine, Tibia, Meniscus sizing, Lateral meniscus, 030222 orthopedics, business.industry, Research, 030229 sport sciences, Three-dimensionally segmentation, musculoskeletal system, Intercondylar area, Sizing, body regions, lcsh:RD701-811, medicine.anatomical_structure, Magnetic resonance, Orthopedic surgery, 10046 Balgrist University Hospital, Swiss Spinal Cord Injury Center, Meniscus lateral, business, Nuclear medicine, Inter-observer variation, MRI scans

Abstract

Purpose Selection of a meniscus allograft with a similar three-dimensional (3D) size is essential for good clinical results in meniscus allograft surgery. Direct meniscus sizing by MRI scan is not possible in total meniscectomy and indirect sizing by conventional radiography is often inaccurate. The purpose of this study was to develop a new indirect sizing method, based on the 3D shape of the ipsilateral tibia plateau, which is independent of the meniscus condition. Methods MRI and CT scans of fifty healthy knee joints were used to create 3D surface models of both menisci (MRI) and tibia plateau (CT). 3D bone models of the proximal 10 mm of the entire and half tibia plateau (with / without intercondylar area) were created in a standardized fashion. For each meniscus, the best fitting “allograft” couple out of all other 49 menisci were assessed by the surface distance of the 3D meniscus (best available allograft), of the 3D tibia plateau (3D-CT) and by the radiographic method of Pollard (2D-RX). Results 3D-CT sizing was significantly better by using only the half tibia plateau without the intercondylar area (p Conclusions Automatized, indirect meniscus sizing using the 3D bone models of the tibia plateau is feasible and more precise than the previously described 2D-RX method.. However, further technical improvement is needed to select always the best available allograft.

Published

2020