BACKGROUND: The present study was designed to analyze the chronic renal response to omapatrilat, a new vasopeptidase inhibitor, in spontaneously hypertensive rats (SHR). To that end, the renal and blood pressure response to a 4-day salt loading protocol was analyzed and the respective chronic renal curves constructed. RESULTS: In non treated animals, and under normal sodium intake (around 2 mEq/day), mean arterial pressure (MAP), was significantly higher in the SHR as compared with the controls (WKY). After increasing salt intake (8 times normal), MAP did not change significantly in any group and the animals reached a normal sodium balance in four days. In a second group of animals, omapatrilat was given orally for 15 days at the dose of 40 mg/kg/day in the drinking water. In these omapatrilat-treated animals, and under normal sodium intake, MAP was significantly lower in both groups, although the antihypertensive effect was much greater in the SHR, so that the MAP of the SHR group was completely normalized and similar to the WKY-treated group. The subsequent elevation of sodium intake did not significantly elevate MAP in any group and the animals could manage the sodium excess as well as the non treated groups. CONCLUSIONS: These results indicate that chronic treatment with omapatrilat normalizes blood pressure in SHR without affecting adversely the renal ability to eliminate a sodium load. Chronic treatment with omapatrilat resets the chronic pressure natriuresis relationship of the SHR to a normal level, thus without altering the normal salt-independence of this arterial hypertension model.
BACKGROUND: The present study was designed to analyze the chronic renal response to omapatrilat, a new vasopeptidase inhibitor, in spontaneously hypertensiverats (SHR). To that end, the renal and blood pressure response to a 4-day salt loading protocol was analyzed and the respective chronic renal curves constructed. RESULTS: In non treated animals, and under normal sodium intake (around 2 mEq/day), mean arterial pressure (MAP), was significantly higher in the SHR as compared with the controls (WKY). After increasing salt intake (8 times normal), MAP did not change significantly in any group and the animals reached a normal sodium balance in four days. In a second group of animals, omapatrilat was given orally for 15 days at the dose of 40 mg/kg/day in the drinking water. In these omapatrilat-treated animals, and under normal sodium intake, MAP was significantly lower in both groups, although the antihypertensive effect was much greater in the SHR, so that the MAP of the SHR group was completely normalized and similar to the WKY-treated group. The subsequent elevation of sodium intake did not significantly elevate MAP in any group and the animals could manage the sodium excess as well as the non treated groups. CONCLUSIONS: These results indicate that chronic treatment with omapatrilat normalizes blood pressure in SHR without affecting adversely the renal ability to eliminate a sodium load. Chronic treatment with omapatrilat resets the chronic pressure natriuresis relationship of the SHR to a normal level, thus without altering the normal salt-independence of this arterial hypertension model.
Authors: J García-Estan; J Navarro; N M Atucha; T Quesada; J C Romero; V Cachofeiro; V Lahera Journal: Kidney Int Suppl Date: 1996-06 Impact factor: 10.545