Fractal signature and lacunarity in the measurement of the texture of trabecular bone in clinical CT images

被引:73
作者
Dougherty, G
Henebry, GM
机构
[1] Kuwait Univ, Fac Allied Hlth Sci, Dept Radiol Sci, Sulibikhat, Kuwait
[2] Univ Nebraska, Ctr Adv Land Management Informat Technol, Lincoln, NE 68588 USA
关键词
texture; fractal dimension; fractal signature; lacunarity; bone architecture;
D O I
10.1016/S1350-4533(01)00057-1
中图分类号
R318 [生物医学工程];
学科分类号
0831 ;
摘要
Fractal analysis is a method of characterizing complex shapes such as the trabecular structure of bone. Numerous algorithms for estimating fractal dimension have been described, but the Fourier power spectrum method is particularly applicable to self-affine fractals, and facilitates corrections for the effects of noise and blurring in an image. We found that it provided accurate estimates of fractal dimension for synthesized fractal images. For natural texture images fractality is limited to a range of scales, and the fractal dimension as a function of spatial frequency presents as a fractal signature. We found that the fractal signature was more successful at discriminating between these textures than either the global fractal dimension or other metrics such as the mean width and root-mean-square width of the spectral density plots. Different natural textures were also readily distinguishable using lacunarity plots, which explicitly characterize the average size and spatial organization of structural sub-units within an image. The fractal signatures of small regions of interest (32x32 pixels), computed in the frequency domain after corrections for imaging system noise and MTF, were able to characterize the texture of vertebral trabecular bone in CT images. Even small differences in texture due to acquisition slice thickness resulted in measurably different fractal signatures. These differences were also readily apparent in lacunarity plots, which indicated that a slice thickness of I turn or less is necessary if essential architectural information is not to be lost. Since lacunarity measures gap size and is not predicated on fractality, it may be particularly useful for characterizing the texture of trabecular bone. (C) 2001 IPEM. Published by Elsevier Science Ltd. All rights reserved.
引用
收藏
页码:369 / 380
页数:12
相关论文
共 53 条
[51]  
VOSS RF, 1985, P NATO ASI FUND ALG, V17, P806
[52]   PREDICTING OSSEOUS CHANGES IN ANKLE FRACTURES [J].
WEBBER, RL ;
UNDERHILL, TE ;
HORTON, RA ;
DIXON, RL ;
POPE, TL .
IEEE ENGINEERING IN MEDICINE AND BIOLOGY MAGAZINE, 1993, 12 (01) :103-110
[53]   Mesoscale changes in textural pattern of 'intact' Peruvian rainforests (1970s-1980s) [J].
Weishampel, JF ;
Sloan, JH ;
Boutet, JC ;
Godin, JR .
INTERNATIONAL JOURNAL OF REMOTE SENSING, 1998, 19 (05) :1007-1014