BACKGROUND: The renin-angiotensin-aldosterone system (RAAS) is activated in states of decreased cardiac output and by certain cardiovascular therapeutic agents, such as loop diuretics and vasodilators. HYPOTHESIS: Short-term treatment with the inodilator, pimobendan, will not activate the circulating RAAS because its vasodilatory action will be offset by its positive inotropic property, thereby ameliorating RAAS stimulation at the juxtaglomerular apparatus. Furthermore, pimobendan will suppress RAAS activation produced by furosemide. ANIMALS: Nine healthy laboratory dogs were used in this study. METHODS: Experimental, cross-over study. Dogs were administered pimobendan (0.5 mg/kg q12h) for 4 days followed by furosemide (2 mg/kg q12h) and then, after a wash-out period, a combination of the drugs. Aldosterone : creatinine (A : Cr) was measured at the end of each treatment cycle. RESULTS: There was no significant increase in the average urinary A : Cr with the administration of pimobendan (control urinary A : Cr = 0.46, standard deviation (SD) 0.33; pimobendan A : Cr = 0.48, SD 0.28). There was a significant increase in the average urinary A : Cr after administration of furosemide (urinary A : Cr = 1.3, SD 0.70) and with the combination of furosemide and pimobendan (urinary A : Cr = 2.9, SD 1.6). CONCLUSIONS AND CLINICAL RELEVANCE: Short-term administration of high-dose pimobendan, does not activate the RAAS in healthy dogs. Pimobendan did not prevent RAAS activation associated with furosemide therapy. These results in healthy dogs suggest that furosemide therapy, with or without pimobendan, should be accompanied by RAAS suppressive therapy.
BACKGROUND: The renin-angiotensin-aldosterone system (RAAS) is activated in states of decreased cardiac output and by certain cardiovascular therapeutic agents, such as loop diuretics and vasodilators. HYPOTHESIS: Short-term treatment with the inodilator, pimobendan, will not activate the circulating RAAS because its vasodilatory action will be offset by its positive inotropic property, thereby ameliorating RAAS stimulation at the juxtaglomerular apparatus. Furthermore, pimobendan will suppress RAAS activation produced by furosemide. ANIMALS: Nine healthy laboratory dogs were used in this study. METHODS: Experimental, cross-over study. Dogs were administered pimobendan (0.5 mg/kg q12h) for 4 days followed by furosemide (2 mg/kg q12h) and then, after a wash-out period, a combination of the drugs. Aldosterone : creatinine (A : Cr) was measured at the end of each treatment cycle. RESULTS: There was no significant increase in the average urinary A : Cr with the administration of pimobendan (control urinary A : Cr = 0.46, standard deviation (SD) 0.33; pimobendan A : Cr = 0.48, SD 0.28). There was a significant increase in the average urinary A : Cr after administration of furosemide (urinary A : Cr = 1.3, SD 0.70) and with the combination of furosemide and pimobendan (urinary A : Cr = 2.9, SD 1.6). CONCLUSIONS AND CLINICAL RELEVANCE: Short-term administration of high-dose pimobendan, does not activate the RAAS in healthy dogs. Pimobendan did not prevent RAAS activation associated with furosemide therapy. These results in healthy dogs suggest that furosemide therapy, with or without pimobendan, should be accompanied by RAAS suppressive therapy.
Authors: Jonathan P Mochel; Martin Fink; Mathieu Peyrou; Antoine Soubret; Jérôme M Giraudel; Meindert Danhof Journal: Pharm Res Date: 2014-12-02 Impact factor: 4.200
Authors: Alberto Galizzi; Mara Bagardi; Angelica Stranieri; Anna Maria Zanaboni; Dario Malchiodi; Vitaliano Borromeo; Paola Giuseppina Brambilla; Chiara Locatelli Journal: BMC Vet Res Date: 2021-01-07 Impact factor: 2.741
Authors: Jessica L Ward; Emilie Guillot; Oliver Domenig; Wendy A Ware; Lingnan Yuan; Jonathan P Mochel Journal: J Vet Intern Med Date: 2022-03-14 Impact factor: 3.175
Authors: Marisa K Ames; Clarke E Atkins; Andrea C Lantis; James zum Brunnen Journal: J Renin Angiotensin Aldosterone Syst Date: 2016-03-23 Impact factor: 1.636