In Japan, calcimimetics and other phosphate binders such as lantanum carbonate are not available for patients on long-term hemodialysis (HD), so we prospectively evaluated the clinical efficacy of the combination of sevelamer hydrochloride and calcium carbonate (CaCO3) for hyperphosphatemia. The study group comprised 65 HD patients who had been administered CaCO3 (>or=1500 mg/day) for hyperphosphatemia [>or=6.0 mg/dL (>or=1.94 mmol/L)]. At the beginning of the study the dose of CaCO3 was reduced by 1500 mg/day and the patients divided into two groups according to the dose of additional sevelamer hydrochloride: group A 2250 mg/day; group B 3000 mg/day. Oral active vitamin D therapy was unchanged. Fourteen patients (21.5%) dropped out because of adverse effects and of the 51 remaining patients 35 (53.8%) suffered from gastrointestinal problems. Serum phosphate concentration decreased significantly [from 7.5+/-0.8 mg/dL (2.42+/-0.26 mmol/L) to 6.6+/-1.3 mg/dL (2.13+/-0.42 mmol/L), P<0.01] in group B only after the 8 weeks of combination therapy. The calcium-phosphate product (CaxPi) also decreased in group B only [from 74.4+/-13.4 mg2/dL2 (5.99+/-1.07 mmol2/l2) to 63.7+/-15.8 mg2/dL2 (5.13+/-1.27 mmol2/l2), P<0.001]. The combination of sevelamer hydrochloride and CaCO3 is a suitable regimen for hyperphosphatemia treatment in HD patients because it avoids both the hypercalcemia of CaCO3 and the adverse effects of sevelamer hydrochloride when each is used as single-drug therapy. The ability of sevelamer hydrochloride to decrease the serum phosphate concentration is 2/3 (2250/1500 mg) that of CaCO3.
Ventricular premature contractions (VPCs) occasionally appear successively in the form of bigeminy, trigeminy or quadrigeminy associated with quiescent periods. However, details of these rhythmic VPC bursts have not been well documented. We analyzed the incidence, periodicity and interval of VPC bursts exhibiting bigeminy or trigeminy using ambulatory ECG monitoring and computer analysis. We defined VPC bursts as more than 5 successive groups of VPCs each containing more than 20 VPCs in the form of bigeminy or trigeminy that were interrupted by normal sinus rhythm lasting for more than 60 seconds. Bursts thus defined were observed transiently or continuously in 78 out of 500 consecutive patients showing > 3000 VPCs a day. Their age ranged from 14 to 76 years (mean 48). Forty patients were men and 38 were women. We could discriminate between two types of bursts on the instantaneous heart rate tachograms. Dome type bursts (n = 48) showed gradual shortening of the VPC coupling intervals whereas horizontal type bursts (n = 30) demonstrated fixed coupling intervals during the bursts. Cycle length of the dome type burst was 185 +/- 40 seconds and regular, whereas it was 210 +/- 63 seconds and irregular in the horizontal type (NS). Duration of the VPC bursts was 101 +/- 31 seconds in the dome type and 98 +/- 41 seconds in the horizontal type. Both burst types were associated with transient increases in sinus rate and abbreviated VPC-VPC intervals. We suspect ventricular parasystole to be the mechanism of these bursts especially in the dome type. Recognition of these two burst types from heart rate tachograms may be of value in the suppression of VPCs.
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