Discrimination between cases of hip fracture and controls is improved by hip structural analysis compared to areal bone mineral density. An ex vivo study of the femoral neck

被引:19
作者
Mayhew, P
Kaptoge, S
Loveridge, N
Power, J
Kroger, HPJ
Parker, M
Reeve, J
机构
[1] Univ Cambridge, Sch Clin, Dept Med, Bone Res Grp MRC, Cambridge CB2 2QQ, England
[2] Univ Hosp, Dept Orthopaed, Kuopio, Finland
[3] Peterborough Dist Gen Hosp, Peterborough, Cambs, England
基金
英国医学研究理事会;
关键词
hip fracture; human femoral neck; peripheral quantitative computed tomography; cortical bone; section modulus;
D O I
10.1016/j.bone.2003.11.012
中图分类号
R5 [内科学];
学科分类号
1002 ; 100201 ;
摘要
In vivo bone densitometry is affected by measurement inaccuracies arising from the assumptions made about soft tissue and marrow composition. This study tested the hypothesis that section modulus (SM, a measure of bending resistance) when measured ex vivo, would discriminate cases of hip fracture from controls better than areal bone mineral density (aBMD). The biopsies were from (n = 22, female) subjects that had suffered an intracapsular hip fracture. The control material (n = 24, female) was from post-mortem subjects. Serial peripheral quantitative computed tomography (pQCT) 1-mm thick cross-sectional images of femoral neck previously embedded in methacrylate were obtained with the Densiscan 1000 pQCT densitometer and matched for lateral location. The image voxels were converted to units of bone mass, which were then used to derive the section modulus. The data were used to derive means from which receiver operating characteristic (ROC) curves could be generated. The area under the curves (AUC) showed that discrimination between the fracture cases and controls was better for SM than aBMD [SM: AUC = 0.83 (95% confidence interval: 0.71, 0.96), aBMD: AUC = 0.70 (0.54, 0.85); P = 0.034]. To simulate the forces experienced during a sideways fall, the model's neutral axis was rotated by 210degrees. The results for section modulus were predictable from those at 0degrees (r(2) = 0.97). We conclude that biomechanical analysis of the distribution of bone within the femoral neck may offer a marked improvement in the ability to discriminate patients with an increased risk of intracapsular fracture. Progress towards implementing this form of analysis in clinical densitometry should improve its diagnostic value, but may depend in part on better image resolution and more accurate corrections for the variability between subjects in regional soft tissue composition. (C) 2003 Elsevier Inc. All rights reserved.
引用
收藏
页码:352 / 361
页数:10
相关论文
共 42 条
[11]   Improving risk assessment: Hip geometry, bone mineral distribution and bone strength in hip fracture cases and controls. The EPOS study [J].
Crabtree, NJ ;
Kroger, H ;
Martin, A ;
Pols, HAP ;
Lorenc, R ;
Nijs, J ;
Stepan, JJ ;
Falch, JA ;
Miazgowski, T ;
Grazio, S ;
Raptou, P ;
Adams, J ;
Collings, A ;
Khaw, KT ;
Rushton, N ;
Lunt, M ;
Dixon, AK ;
Reeve, J .
OSTEOPOROSIS INTERNATIONAL, 2002, 13 (01) :48-54
[12]   BONE-DENSITY AT VARIOUS SITES FOR PREDICTION OF HIP-FRACTURES [J].
CUMMINGS, SR ;
BLACK, DM ;
NEVITT, MC ;
BROWNER, W ;
CAULEY, J ;
ENSRUD, K ;
GENANT, HK ;
PALERMO, L ;
SCOTT, J ;
VOGT, TM .
LANCET, 1993, 341 (8837) :72-75
[14]   COMPARING THE AREAS UNDER 2 OR MORE CORRELATED RECEIVER OPERATING CHARACTERISTIC CURVES - A NONPARAMETRIC APPROACH [J].
DELONG, ER ;
DELONG, DM ;
CLARKEPEARSON, DI .
BIOMETRICS, 1988, 44 (03) :837-845
[15]   Anisotropic bone remodelling model based on a continuum damage-repair theory [J].
Doblaré, M ;
García, JM .
JOURNAL OF BIOMECHANICS, 2002, 35 (01) :1-17
[16]   PHYSICAL PROPERTIES OF TRABECULAR BONE [J].
GALANTE, J ;
ROSTOKER, W ;
RAY, RD .
CALCIFIED TISSUE RESEARCH, 1970, 5 (03) :236-&
[17]  
GALILEO G, 1984, DIALOGUES 2 NEW SCI, P1638
[18]   Canonical formulation of nonholonomic constrained systems [J].
Guo, YX ;
Yu, Y ;
Huang, HJ .
CHINESE PHYSICS, 2001, 10 (01) :1-6
[19]   Effects of gender, anthropometric variables, and aging on the evolution of hip strength in men and women aged over 65 [J].
Kaptoge, S ;
Dalzell, N ;
Loveridge, N ;
Beck, TJ ;
Khaw, KT ;
Reeve, J .
BONE, 2003, 32 (05) :561-570
[20]   The laws of bone architecture [J].
Koch, JC .
AMERICAN JOURNAL OF ANATOMY, 1917, 21 (02) :177-298