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19 - Genito-Urinary System

Published online by Cambridge University Press:  23 February 2010

Enid Gilbert-Barness
Affiliation:
University of South Florida and University of Wisconsin Medical School
Diane Debich-Spicer
Affiliation:
University of South Florida
John M. Opitz
Affiliation:
University of Utah
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Summary

MALFORMATIONS

Horseshoe Kidney

A horseshoe kidney is a single, midline, horseshoe-shaped kidney.

The kidney is formed by an interaction between the ureteric bud and the metanephric blastema (Figures 19.1 to 19.3). If the ureteric buds are located more medially than normal or if the inducible metanephric blastema is continuous at the lower pole, then a fused horseshoe kidney may develop.

The horseshoe kidney is usually at a lower level than normal kidneys. Its renal pelves are displaced anteriorly and its ureters usually course across the anterior surfaces of the kidney. Dysplastic development may occur in the fused portion of the kidney.

The ureters may be duplicated or angulated, so that obstruction, which leads to hydronephrosis, occurs.

Ectopic Kidney

A kidney is ectopic when it is in the pelvis and not in its usual location. Ureter duplication is a double ureter that can be unilateral or bilateral. Ectopic kidney and ureter duplication usually are not functionally important in the prenatal period. Their frequency is increased in chromosome aneuploidies.

Renal Agenesis

In bilateral renal agenesis, both kidneys and ureters are absent (Table 19.1).

Bilateral renal agenesis is rare, occurring in 1/3,000 to 1/4,000 live borns (Figure 19.4). Unilateral agenesis occurs in 1/1,000 newborns; it is more common in males.

It is postulated that renal agenesis is caused by the failure of the ureteric bud to develop. The ureteric bud normally induces the metanephric blastema to become a kidney.

Type
Chapter
Information
Embryo and Fetal Pathology
Color Atlas with Ultrasound Correlation
, pp. 513 - 545
Publisher: Cambridge University Press
Print publication year: 2004

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