URETERAL OBSTRUCTION IN THE NEONATAL RAT - RENAL NERVES MODULATE HEMODYNAMIC-EFFECTS

被引：20

作者：

CHEVALIER, RL

THORNHILL, BA

机构：

[1] Department of Pediatrics, University of Virginia, School of Medicine, Charlottesville, 22908, VA

来源：

PEDIATRIC NEPHROLOGY | 1995年 / 9卷 / 04期

关键词：

URETERAL OBSTRUCTION; NEONATE; RENAL NERVES; RAT;

D O I：

10.1007/BF00866725

中图分类号：

R72 [儿科学];

学科分类号：

100202 ;

摘要：

In the neonate, chronic unilateral ureteral obstruction (UUO) reduces renal blood flow (RBF) of the ipsilateral kidney and increases RBF of the opposite kidney. To determine whether renal nerves mediate or modulate these responses, complete left UUO in the neonatal rat was used as a model of severe obstructive uropathy, and was compared with sham-operated controls. At 24-28 days of age, animals underwent left or right mechanical renal denervation or left sham renal denervation. One week after denervation, animals were anesthetized and blood pressure and heart rate were measured. Cardiac output and RBF were determined by the radioactive microsphere technique. UUO increased blood pressure and heart rate, and decreased RBF in the obstructed kidney, regardless of denervation. While left UUO increased RBF to the intact opposite kidney in rats with left renal denervation, this was attenuated by right renal denervation. Thus, in the neonatal rat, UUO modulates systemic renal hemodynamics, possibly through activation of the renin-angiotensin system. While renal nerves do not mediate the vasoconstriction of the obstructed kidney, renal nerves modulate vascular tone of the kidney contralateral to UUO.

引用

页码：447 / 450

页数：4

共 17 条

[1]

Najarian J.S., Almond P.S., Gillingham K.J., Mauer S.M., Chavers B.M., Nevins T.E., Kashtan C.E., Matas A.J., Renal transplantation in the first five years of life, Kidney Int, 44, pp. S40-S44, (1993)

[2]

Chevalier R.L., Renal response to ureteral obstruction in early development, Nephron, 56, pp. 113-117, (1990)

[3]

Chevalier R.L., Counterbalance in functional adaptation to ureteral obstruction during development, Pediatr Nephrol, 4, pp. 442-444, (1990)

[4]

Taki M., Goldsmith D.I., Spitzer A., Impact of age on effects of ureteral obstruction on renal function, Kidney Int, 24, pp. 602-609, (1983)

[5]

Larsson L., Aperia A., Wilton P., Effect of normal development on compensatory renal growth, Kidney Int, 18, pp. 29-35, (1980)

[6]

El Dahr S.S., Gomez R.A., Gray, Peach M.J., Carey R.M., Chevalier R.L., Renal nerves modulate renin gene expression in the developing rat kidney with ureteral obstruction, Journal of Clinical Investigation, 87, pp. 800-810, (1991)

[7]

Norwood V.F., Carey R.M., Geary K.M., Jose P.A., Gomez R.A., Chevalier R.L., Neonatal ureteral obstruction stimulates recruitment of renin-secreting renal cortical cells, Kidney Int, 45, pp. 1333-1339, (1994)

[8]

El-Dahr S.S., Gomez R.A., Gray, Peach M.J., Carey R.M., Chevalier R.L., In situ localization of renin and its mRNA in neonatal ureteral obstruction, Am J Physiol, 258, pp. F854-F862, (1990)

[9]

Chevalier R.L., Kaiser D.L., Chronic partial ureteral obstruction in the neonatal guinea pig. I. Influence of uninephrectomy on growth and hemodynamics, Pediatr Res, 18, pp. 1266-1271, (1984)

[10]

DiBona G.F., Neural regulation of renal tubular sodium reabsorption and renin secretion, Federation Proc, 44, pp. 2816-2822, (1985)

← 1 2 →