Femoral antecurvation-A 3D CT Analysis of 1232 adult femurs

Darius M Thiesen; Felix Prange; Josephine Berger-Groch; Dimitris Ntalos; Andreas Petersik; Bernhard Hofstätter; Johannes M Rueger; Till O Klatte; Maximilian J Hartel

doi:10.1371/journal.pone.0204961

Femoral antecurvation-A 3D CT Analysis of 1232 adult femurs

Standard

Femoral antecurvation-A 3D CT Analysis of 1232 adult femurs. / Thiesen, Darius M; Prange, Felix; Berger-Groch, Josephine; Ntalos, Dimitris; Petersik, Andreas; Hofstätter, Bernhard; Rueger, Johannes M; Klatte, Till O; Hartel, Maximilian J.

In: PLOS ONE, Vol. 13, No. 10, 2018, p. e0204961.

Research output: SCORING: Contribution to journal › SCORING: Journal article › Research › peer-review

Harvard

Thiesen, DM, Prange, F, Berger-Groch, J, Ntalos, D, Petersik, A, Hofstätter, B, Rueger, JM, Klatte, TO & Hartel, MJ 2018, 'Femoral antecurvation-A 3D CT Analysis of 1232 adult femurs', PLOS ONE, vol. 13, no. 10, pp. e0204961. https://doi.org/10.1371/journal.pone.0204961

APA

Thiesen, D. M., Prange, F., Berger-Groch, J., Ntalos, D., Petersik, A., Hofstätter, B., Rueger, J. M., Klatte, T. O., & Hartel, M. J. (2018). Femoral antecurvation-A 3D CT Analysis of 1232 adult femurs. PLOS ONE, 13(10), e0204961. https://doi.org/10.1371/journal.pone.0204961

Vancouver

Thiesen DM, Prange F, Berger-Groch J, Ntalos D, Petersik A, Hofstätter B et al. Femoral antecurvation-A 3D CT Analysis of 1232 adult femurs. PLOS ONE. 2018;13(10):e0204961. https://doi.org/10.1371/journal.pone.0204961

Bibtex

@article{1ada02105b5d46ebbf36bdde82a179fe,

title = "Femoral antecurvation-A 3D CT Analysis of 1232 adult femurs",

abstract = "INTRODUCTION: For optimal treatment of femoral fractures, it is essential to understand the anatomical antecurvation of the human femur. Recent clinical studies have highlighted the problem of distal anterior encroachment or even perforation of the nail tip. The aim of this study was to accurately describe the femoral antecurvation in a large cohort. Another objective was to identify the most important influences on femoral antecurvation, such as age, femur length, gender and ethnicity.METHODS: A three dimensional modelling and analytical technology was applied for the analysis of 1,232 femurs. Individual femoral antecurvation was precisely computed to determine whether gender, femur length, age, ethnicity or body mass index influence the radius of curvature (ROC).RESULTS: The calculated mean ROC for all femurs was 943 mm. The lowest ROC of 826 mm was found in female Asian femurs. A regression analysis demonstrated that age and femur length could predict the variability of the curvature, with femoral length as most powerful predictor. A matched pair subgroup analysis between Asians and Caucasians could not show any significant differences of ROC values.CONCLUSIONS: The mean radius of the femoral antecurvation may be smaller than previously reported revealing a significant mismatch between the actual individual anatomy and existing implants. In opposite to existing literature, this study suggests, that antecurvation differences between various ethnicities may exclusively be attributed to differences in femoral length and age. The findings of this study may be found helpful in the development of novel designs for intra- and extramedullary implants.",

keywords = "Journal Article",

author = "Thiesen, {Darius M} and Felix Prange and Josephine Berger-Groch and Dimitris Ntalos and Andreas Petersik and Bernhard Hofst{\"a}tter and Rueger, {Johannes M} and Klatte, {Till O} and Hartel, {Maximilian J}",

year = "2018",

doi = "10.1371/journal.pone.0204961",

language = "English",

volume = "13",

pages = "e0204961",

journal = "PLOS ONE",

issn = "1932-6203",

publisher = "Public Library of Science",

number = "10",

}

RIS

TY - JOUR

T1 - Femoral antecurvation-A 3D CT Analysis of 1232 adult femurs

AU - Thiesen, Darius M

AU - Prange, Felix

AU - Berger-Groch, Josephine

AU - Ntalos, Dimitris

AU - Petersik, Andreas

AU - Hofstätter, Bernhard

AU - Rueger, Johannes M

AU - Klatte, Till O

AU - Hartel, Maximilian J

PY - 2018

Y1 - 2018

N2 - INTRODUCTION: For optimal treatment of femoral fractures, it is essential to understand the anatomical antecurvation of the human femur. Recent clinical studies have highlighted the problem of distal anterior encroachment or even perforation of the nail tip. The aim of this study was to accurately describe the femoral antecurvation in a large cohort. Another objective was to identify the most important influences on femoral antecurvation, such as age, femur length, gender and ethnicity.METHODS: A three dimensional modelling and analytical technology was applied for the analysis of 1,232 femurs. Individual femoral antecurvation was precisely computed to determine whether gender, femur length, age, ethnicity or body mass index influence the radius of curvature (ROC).RESULTS: The calculated mean ROC for all femurs was 943 mm. The lowest ROC of 826 mm was found in female Asian femurs. A regression analysis demonstrated that age and femur length could predict the variability of the curvature, with femoral length as most powerful predictor. A matched pair subgroup analysis between Asians and Caucasians could not show any significant differences of ROC values.CONCLUSIONS: The mean radius of the femoral antecurvation may be smaller than previously reported revealing a significant mismatch between the actual individual anatomy and existing implants. In opposite to existing literature, this study suggests, that antecurvation differences between various ethnicities may exclusively be attributed to differences in femoral length and age. The findings of this study may be found helpful in the development of novel designs for intra- and extramedullary implants.

AB - INTRODUCTION: For optimal treatment of femoral fractures, it is essential to understand the anatomical antecurvation of the human femur. Recent clinical studies have highlighted the problem of distal anterior encroachment or even perforation of the nail tip. The aim of this study was to accurately describe the femoral antecurvation in a large cohort. Another objective was to identify the most important influences on femoral antecurvation, such as age, femur length, gender and ethnicity.METHODS: A three dimensional modelling and analytical technology was applied for the analysis of 1,232 femurs. Individual femoral antecurvation was precisely computed to determine whether gender, femur length, age, ethnicity or body mass index influence the radius of curvature (ROC).RESULTS: The calculated mean ROC for all femurs was 943 mm. The lowest ROC of 826 mm was found in female Asian femurs. A regression analysis demonstrated that age and femur length could predict the variability of the curvature, with femoral length as most powerful predictor. A matched pair subgroup analysis between Asians and Caucasians could not show any significant differences of ROC values.CONCLUSIONS: The mean radius of the femoral antecurvation may be smaller than previously reported revealing a significant mismatch between the actual individual anatomy and existing implants. In opposite to existing literature, this study suggests, that antecurvation differences between various ethnicities may exclusively be attributed to differences in femoral length and age. The findings of this study may be found helpful in the development of novel designs for intra- and extramedullary implants.

KW - Journal Article

U2 - 10.1371/journal.pone.0204961

DO - 10.1371/journal.pone.0204961

M3 - SCORING: Journal article

C2 - 30300421

VL - 13

SP - e0204961

JO - PLOS ONE

JF - PLOS ONE

SN - 1932-6203

IS - 10

ER -