Chronic reduction in renal mass: micropuncture studies of response to volume expansion and furosemide

Yale J Biol Med. 1978 May-Jun;51(3):289-95.

Abstract

Chronic nephron loss is compensated by functional adaptations which preserve electrolyte homeostasis. The response to volume expansion and diuretics was tested in dogs. Three phase recollection micropuncture studies were performed to assess the response of the remnant kidney in various stages of renal failure to furosemide administration (10 mg/Kg) and graded volume expansion (3 percent and 10 percent body weight). After the diuretic maneuvers, mean fractional excretion of sodium, potassium and water rose progressively in normal dogs (Stage I), with a greater increase in the remnant kidneys in the presence (Stage II) and absence (Stage III) of the contralateral kidney. Proximal and distal TF/P (Inulin) ratios were depressed after 3 percent volume expansion. However, proximal TF/P (Inulin) was not further lowered after 10 percent volume expansion and furosemide administration, while distal TF/P (Inulin) ratios were progressively depressed. The distal TF/P (Inulin) ratios in Stage III were significantly lower than in Stage II under analogous conditions. Our results suggest that the adaptive increase in the response of sodium transport by the remnant kidney to the diuretic maneuvers occurs in the loop of Henle, both in the azotemic and the non-azotemic stage. Adaptation of potassium excretion, as revealed by distal micropuncture, took place in the azotemic Stage III. Chronic functional adaptation for electrolyte transport occurs even before azotemia in the distal nephron and includes the proximal tubule with azotemia.

MeSH terms

  • Adaptation, Physiological
  • Animals
  • Diuresis*
  • Dogs
  • Furosemide / pharmacology*
  • Kidney Tubules / physiology*
  • Kidney Tubules, Distal / physiology*
  • Kidney Tubules, Proximal / physiology*
  • Potassium / metabolism
  • Sodium / urine
  • Urea / blood

Substances

  • Furosemide
  • Urea
  • Sodium
  • Potassium