STUDY OBJECTIVE: To determine the effect of variations in blood ionized calcium (Ca2+) on myocardial contractility independent of changes in loading conditions and other biochemical variables. DESIGN: Hemodialysis done in a randomized, double-blind manner with dialysates differing in calcium concentration only. Left ventricular contractility was assessed using the load- and heart rate-independent relationship between end-systolic wall stress (sigma es) and rate-corrected velocity of fiber shortening (Vcfc). SETTING:In-hospital dialysis unit and echocardiography laboratory of a university medical center. PATIENTS: Seven patients with stable, chronic renal failure maintained on regular hemodialysis. INTERVENTIONS: Each patient was hemodialyzed three times within 1 week with dialysates differing in calcium concentration only. Ultrafiltration was adjusted to achieve the same postdialysis weight. Immediately after dialysis, two-dimensionally targeted M-mode echocardiographic and calibrated carotid pulse tracings were recorded over a wide range of left ventricular end-systolic wall stress values (a measure of left ventricular afterload) generated by either methoxamine or nitroprusside. MEASUREMENTS AND MAIN RESULTS: After dialysis, three statistically distinct levels of Ca2+ were achieved. When Ca2+ was 1.34 +/- 0.03 mmol/L, Vcfc, calculated at a common level of afterload (sigma es = 50 g/cm2), was 1.01 +/- 0.05 cir/sec; at low Ca2+ (1.02 +/- 0.02 mmol/L), Vcfc fell to 0.89 +/- 0.04 cir/sec (P less than 0.001 compared with medium); at high Ca2+ (1.68 +/- 0.07 mmol/L) Vcfc rose to 1.10 +/- 0.03 circ/sec (P less than 0.001 compared with medium and low). CONCLUSION: Variations in Ca2+ are directly correlated with clinically significant changes in myocardial contractility.
RCT Entities:
STUDY OBJECTIVE: To determine the effect of variations in blood ionizedcalcium (Ca2+) on myocardial contractility independent of changes in loading conditions and other biochemical variables. DESIGN: Hemodialysis done in a randomized, double-blind manner with dialysates differing in calcium concentration only. Left ventricular contractility was assessed using the load- and heart rate-independent relationship between end-systolic wall stress (sigma es) and rate-corrected velocity of fiber shortening (Vcfc). SETTING: In-hospital dialysis unit and echocardiography laboratory of a university medical center. PATIENTS: Seven patients with stable, chronic renal failure maintained on regular hemodialysis. INTERVENTIONS: Each patient was hemodialyzed three times within 1 week with dialysates differing in calcium concentration only. Ultrafiltration was adjusted to achieve the same postdialysis weight. Immediately after dialysis, two-dimensionally targeted M-mode echocardiographic and calibrated carotid pulse tracings were recorded over a wide range of left ventricular end-systolic wall stress values (a measure of left ventricular afterload) generated by either methoxamine or nitroprusside. MEASUREMENTS AND MAIN RESULTS: After dialysis, three statistically distinct levels of Ca2+ were achieved. When Ca2+ was 1.34 +/- 0.03 mmol/L, Vcfc, calculated at a common level of afterload (sigma es = 50 g/cm2), was 1.01 +/- 0.05 cir/sec; at low Ca2+ (1.02 +/- 0.02 mmol/L), Vcfc fell to 0.89 +/- 0.04 cir/sec (P less than 0.001 compared with medium); at high Ca2+ (1.68 +/- 0.07 mmol/L) Vcfc rose to 1.10 +/- 0.03 circ/sec (P less than 0.001 compared with medium and low). CONCLUSION: Variations in Ca2+ are directly correlated with clinically significant changes in myocardial contractility.
Authors: Darrell B Newman; Salman S Fidahussein; Deanne T Kashiwagi; Kurt A Kennel; Kianoush B Kashani; Zhen Wang; Osama Altayar; Mohammad H Murad Journal: Heart Fail Rev Date: 2014-03 Impact factor: 4.214