P Mathon1, G Micicoi1,2, R Seil3, B Kacaoglu4, S Cerciello5,6, F Ahmad7, S LiArno7, R Teitge8, Matthieu Ollivier9. 1. Department of Orthopedics and Traumatology, Institute of Movement and Locomotion, Sainte-Marguerite Hospital, Aix Marseille University, APHM, CNRS, ISM, 270 Boulevard Sainte Marguerite, BP 29, 13274, Marseille, France. 2. iULS-University Institute for Locomotion and Sports, Pasteur 2 Hospital, University Côte D'Azur, Nice, France. 3. Centre Hospitalier Universitaire du Luxembourg, Luxembourg, Luxembourg. 4. Department of Orthopedic Surgery, Acibadem Altunizade Hospital, Acibadem University, Faculty of Medicine, Tophanelioglu Cad. No: 1, Altunizade, Uskudar, Istanbul, Turkey. 5. Marrelli Hospital, Crotone, Italy. 6. Casa Di Cura Villa Betania, Rome, Italy. 7. Stryker, Mawhaw, NJ, USA. 8. Detroit Medical Center, 3990 John R St., Detroit, MI, 48201, USA. 9. Department of Orthopedics and Traumatology, Institute of Movement and Locomotion, Sainte-Marguerite Hospital, Aix Marseille University, APHM, CNRS, ISM, 270 Boulevard Sainte Marguerite, BP 29, 13274, Marseille, France. ollivier.matthieu@yahoo.fr.
Abstract
PURPOSE: There is a lack of standardization in the measurement of lower limb torsional alignment. Normal values published in the literature are inconsistent. A 3D-CT-scan-based method was used in a healthy population to define the femoral neck version (FNV) and the tibial torsion (TT) and their relationship with demographic parameters. The study objectives were (1) to define normal values of lower limb torsional alignment, (2) to estimate inter- and intra-individual variations of torsional deformity of healthy individuals' lower limbs. The hypothesis was that FNV and TT values would be influenced by patient characteristics such as gender, age, and ethnicity, and would have low side-to-side asymmetry. METHODS: Torsional landmarks of the lower limbs from 191 healthy subjects were automatically calculated with a 3D CT-scan-based program. The FNV was defined by the angle between the femoral neck axis and the femoral posterior condylar line. The TT angle was considered between the tibial plateau axis and the axis of the ankle. For the former, two alternatives were considered: the line connecting the more medial and lateral point of the medial and lateral plateau, respectively (method 1; TT1), or the line connecting the two more posterior points of the medial et lateral plateau (method 2; TT2). The ankle axis was defined as the line connecting the medial and lateral malleoli. These reference lines were automatically calculated. Age, gender, ethnic group, and BMI were recorded for every subject. A p value < 0.05 was considered as statistically significant. RESULTS: Overall, the mean FNV was 15.3 ± 9.5° and the mean TT was 31.6 ± 6.3°. Female hips were more anteverted than male hips. Caucasians had less anteverted hips than Asians, but more externally rotated tibias. Age and BMI were not correlated with any anatomical parameter. A substantial side-to-side asymmetry was found for FNV [absolute difference (AD) = 6.3°; percentage of asymmetry (%As) = 47%], TT1 (AD = 3°; %As = 12%), and TT2 (AD = 4.9°; %As = 9%) (p = 0.008). CONCLUSION: The findings showed that lower limb torsional parameters were highly variable from patient to patient and from one leg to the other for the same patient. The understanding of normal values concerning femoral version and external tibial torsion in the present healthy population will help surgeons to define pathological values of FNV and TT, as well as corrections to perform in case of torsional deformities. LEVEL OF EVIDENCE: Level III.
PURPOSE: There is a lack of standardization in the measurement of lower limb torsional alignment. Normal values published in the literature are inconsistent. A 3D-CT-scan-based method was used in a healthy population to define the femoral neck version (FNV) and the tibial torsion (TT) and their relationship with demographic parameters. The study objectives were (1) to define normal values of lower limb torsional alignment, (2) to estimate inter- and intra-individual variations of torsional deformity of healthy individuals' lower limbs. The hypothesis was that FNV and TT values would be influenced by patient characteristics such as gender, age, and ethnicity, and would have low side-to-side asymmetry. METHODS: Torsional landmarks of the lower limbs from 191 healthy subjects were automatically calculated with a 3D CT-scan-based program. The FNV was defined by the angle between the femoral neck axis and the femoral posterior condylar line. The TT angle was considered between the tibial plateau axis and the axis of the ankle. For the former, two alternatives were considered: the line connecting the more medial and lateral point of the medial and lateral plateau, respectively (method 1; TT1), or the line connecting the two more posterior points of the medial et lateral plateau (method 2; TT2). The ankle axis was defined as the line connecting the medial and lateral malleoli. These reference lines were automatically calculated. Age, gender, ethnic group, and BMI were recorded for every subject. A p value < 0.05 was considered as statistically significant. RESULTS: Overall, the mean FNV was 15.3 ± 9.5° and the mean TT was 31.6 ± 6.3°. Female hips were more anteverted than male hips. Caucasians had less anteverted hips than Asians, but more externally rotated tibias. Age and BMI were not correlated with any anatomical parameter. A substantial side-to-side asymmetry was found for FNV [absolute difference (AD) = 6.3°; percentage of asymmetry (%As) = 47%], TT1 (AD = 3°; %As = 12%), and TT2 (AD = 4.9°; %As = 9%) (p = 0.008). CONCLUSION: The findings showed that lower limb torsional parameters were highly variable from patient to patient and from one leg to the other for the same patient. The understanding of normal values concerning femoral version and external tibial torsion in the present healthy population will help surgeons to define pathological values of FNV and TT, as well as corrections to perform in case of torsional deformities. LEVEL OF EVIDENCE: Level III.
Authors: Samik Banerjee; Ahmad Faizan; Jim Nevelos; Stefan Kreuzer; Rainer Burgkart; Steven F Harwin; Michael A Mont Journal: Surg Technol Int Date: 2014-03
Authors: Maximilian J Hartel; Andreas Petersik; Anne Schmidt; Daniel Kendoff; Jakob Nüchtern; Johannes M Rueger; Wolfgang Lehmann; Lars G Grossterlinden Journal: PLoS One Date: 2016-03-02 Impact factor: 3.240