RENAL HYPOPLASIA AND POSTNATALLY ACQUIRED CORTICAL LOSS IN CHILDREN WITH VESICOURETERAL REFLUX

被引：56

作者：

HINCHLIFFE, SA ^{[1
]}

CHAN, YF ^{[1
]}

JONES, H ^{[1
]}

CHAN, N ^{[1
]}

KRECZY, A ^{[1
]}

VANVELZEN, D ^{[1
]}

机构：

[1] UNIV LIVERPOOL,ROYAL LIVERPOOL CHILDRENS HOSP ALDER HEY,DEPT FETAL & INFANT PATHOL,EATON RD,LIVERPOOL L12 2AP,ENGLAND

来源：

PEDIATRIC NEPHROLOGY | 1992年 / 6卷 / 05期

关键词：

CORTICAL LOSS; HYPOPLASIA; VESICOURETERAL REFLUX;

D O I：

10.1007/BF00874007

中图分类号：

R72 [儿科学];

学科分类号：

100202 ;

摘要：

We reviewed histologically 86 nephrectomy specimens from patients with vesicoureteral reflux (with or without ureterovesical obstruction) to investigate the relationship between coexisting hypoplasia and postnatally acquired cortical damage. Hypoplasia was assessed independently of the acquired cortical loss using medullary ray glomerular counting. Severe hypoplasia (glomerular number < 25% of normal) was detected in 47 of 86 patients. These patients underwent nephrectomy at a significantly younger age than those with minimal or no hypoplasia (P <0.01). There was no significant relationship between the severity of hypoplasia and the presence or absence of obstruction. Severe acquired cortical loss was found in 68 of 86 patients. There was no significant association between the severity of cortical loss and the presence or absence of obstruction, age at nephrectomy or degree of coexisting hypoplasia. The findings suggest a strong association of hypoplasia and vesicoureteral reflux. Therefore, early postnatal presentation with minimal renal function need not necessarily reflect a failure of management but rather a pre-existing limitation of renal capacity. Furthermore, in a significant proportion of fetuses with ultrasonographic evidence of urinary tract abnormality, renal pathology may be present prior to the time at which in utero surgical intervention may be considered.

引用

页码：439 / 444

页数：6

共 19 条

[1]

Sommer J.T., Stephens F.D., Morphogenesis of nephropathy with partial ureteral obstruction and vesicoureteral reflux, J Urol, 125, pp. 67-72, (1981)

[2]

Henneberry M.O., Stephens F.D., Renal hypoplasia and dysplasia in infants with posterior urethral valves, J Urol, 123, pp. 912-915, (1980)

[3]

Mackie G.G., Stephens F.D., Duplex kidneys: a correlation of renal dysplasia with position of the ureteral orifice, J Urol, 114, pp. 274-278, (1975)

[4]

Wickramasinghe S.F., Stephens F.D., Paraureteral diverticula. Associated renal morphology and embryogenesis, Invest Urol, 14, pp. 381-386, (1977)

[5]

Scott J.E.S., Ureteric reflux: the present position, Recent advances in urology/andrology vol 4, pp. 91-93, (1987)

[6]

Ransley P.G., Risdon R.A., Renal papillary morphology and intrarenal reflux in the young pig, Urol Res, 3, pp. 1050-1112, (1975)

[7]

Ransley P.G., Risdon R.A., The pathogenesis of reflux nephropathy, Contrib Nephrol, 16, pp. 90-96, (1979)

[8]

Kincaid-Smith P., Hodson C.J., Lesions in the pig with chronic reflux nephropathy, Reflux nephropathy, pp. 197-212, (1979)

[9]

Hinchliffe S.A., Sargent P.H., Howard C.V., Chan Y.F., van Velzen D., Human intra-uterine renal growth expressed in absolute number of glomeruli assessed by the disector method and Cavalieri principle, Lab Invest, 64, pp. 777-784, (1991)

[10]

Bernstein J., Developmental abnormalities of the renal parenchyma — renal hypoplasia and dysplasia, Pathology annual vol 3, pp. 213-247, (1968)

← 1 2 →