Dynamics of renal blood flow autoregulation in rats.

TY - JOUR

T1 - Dynamics of renal blood flow autoregulation in rats.

AU - Holstein-Rathlou, N H

AU - Wagner, A J

AU - Marsh, D J

N1 - Keywords: Animals; Blood Pressure; Homeostasis; Male; Pressure; Rats; Rats, Inbred Strains; Renal Circulation

PY - 1991

Y1 - 1991

N2 - Two separate components could be resolved in tests of the dynamic autoregulation of renal blood flow. The slow component corresponds to the frequency at which spontaneous proximal tubular pressure oscillations are found, and are most likely due to the operation of the TGF. The high frequency component most likely represents an intrinsic vascular, myogenic, mechanism. The gain maximum of the admittance in the frequency range corresponding to the autonomous tubular oscillations indicates that the dynamic characteristics responsible for the occurrence of the spontaneous tubular oscillations must be common to a significant fraction of the total nephron population.

AB - Two separate components could be resolved in tests of the dynamic autoregulation of renal blood flow. The slow component corresponds to the frequency at which spontaneous proximal tubular pressure oscillations are found, and are most likely due to the operation of the TGF. The high frequency component most likely represents an intrinsic vascular, myogenic, mechanism. The gain maximum of the admittance in the frequency range corresponding to the autonomous tubular oscillations indicates that the dynamic characteristics responsible for the occurrence of the spontaneous tubular oscillations must be common to a significant fraction of the total nephron population.

M3 - Journal article

C2 - 1881063

SN - 0098-6577

VL - 32

SP - S98-101

JO - Kidney International. Supplement

JF - Kidney International. Supplement

ER -