Quantitation of the renal arterial tree by fractal analysis

Quantitation of the renal arterial tree by fractal analysis

To determine whether the renal arterial system has a fractal structure, the fractal dimension of renal angiograms from 52 necropsy cases was measured using an implementation of the box-counting method on an image analysis system. The method was validated using objects with known fractal dimensions....

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Bibliographic Details
Published in:The Journal of pathology Vol. 170; no. 4; p. 479
Main Authors: Cross, S S, Start, R D, Silcocks, P B, Bull, A D, Cotton, D W, Underwood, J C
Format: Journal Article
Language:English
Published: England 01-08-1993
Subjects:
Adult
Aged
Aged, 80 and over
Female
Fractals
Humans
Kidney - abnormalities
Kidney - pathology
Male
Middle Aged
Models, Structural
Radiography
Renal Artery - diagnostic imaging
Renal Artery - ultrastructure
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Summary:To determine whether the renal arterial system has a fractal structure, the fractal dimension of renal angiograms from 52 necropsy cases was measured using an implementation of the box-counting method on an image analysis system. The method was validated using objects with known fractal dimensions. The method was accurate with errors of less than 1.5 per cent and reproducible with initial values within 1.2 per cent of the mean of ten sets of measurements (reliability coefficient 0.968, 95 per cent confidence limits 0.911-0.984). In the 36 satisfactory angiograms the mean fractal dimension was 1.61 (SD 0.06), which was significantly greater than the topological dimension of 1 (P < 0.0001), indicating that the renal arterial tree has a fractal structure. There was no significant relationship between age (P = 0.494), sex (P = 0.136), or systolic (P = 0.069) or diastolic (P = 0.990) blood pressure, but two congenitally abnormal kidneys (hypoplastic dysplasia and renal artery stenosis) had fractal dimensions at the lower end of the normal range (third percentile). Since the renal arterial tree has a fractal structure, Euclidean geometric measurements, such as area and boundary length, are invalid outside precisely defined conditions of magnification and resolution.
ISSN:0022-3417
DOI:10.1002/path.1711700412