The OPTIMA study: assessing a new cinacalcet (Sensipar/Mimpara) treatment algorithm for secondary hyperparathyroidism

Abstract

Background and objectives: Cinacalcet, a novel calcimimetic, targets the calcium-sensing receptor to lower parathyroid hormone (PTH), calcium, and phosphorus levels in dialysis patients with secondary hyperparathyroidism (SHPT). This study compared the efficacy of a cinacalcet-based regimen with unrestricted conventional care (vitamin D and phosphate binders) for achieving the stringent National Kidney Foundation Kidney Disease Outcomes Quality Initiative (KDOQI) targets for dialysis patients.

Study design: In this multicenter, open-label study, hemodialysis patients with poorly controlled SHPT were randomized to receive conventional care (n = 184) or a cinacalcet-based regimen (n = 368). Doses of cinacalcet, vitamin D sterols, and phosphate binders were adjusted during a 16-wk dose-optimization phase with the use of algorithms that allowed cinacalcet to be used with adjusted doses of vitamin D. The primary end point was the proportion of patients with mean intact PTH < or =300 pg/ml during a 7-wk efficacy assessment phase.

Results: A higher proportion of patients receiving the cinacalcet-based regimen versus conventional care achieved the targets for PTH (71% versus 22%, respectively; P < 0.001), Ca x P (77% versus 58%, respectively; P < 0.001), calcium (76% versus 33%, respectively; P < 0.001), phosphorus (63% versus 50%, respectively; P = 0.002), and PTH and Ca x P (59% versus 16%, respectively, P < 0.001), and allowed a 22% reduction in vitamin D dosage in patients receiving vitamin D at baseline. Achievement of targets was greatest in patients with less severe disease (intact PTH range, 300 to 500 pg/ml) and the cinacalcet dose required was lower in these patients (median = 30 mg/d).

Conclusions: Compared with conventional therapy, a cinacalcet-based treatment algorithm increased achievement of KDOQI treatment targets in dialysis patients in whom conventional therapy was no longer effective in controlling this disease.

Figures

Figure 1.

OPTIMA treatment algorithm. When indicated, the dose of a vitamin D (vit D) sterol was reduced by approximately 50% in sequential steps until a minimum administered dose was reached: intravenous calcitriol, 0.5 μg three times per week (TIW); intravenous alfacalcidol, 1 μg TIW; intravenous paracalcitol, 2 μg TIW; oral calcitriol, 0.25 μg TIW; oral alfacalcidol, 0.25 μg/d. aThe dose of cinacalcet was reduced if a patient was not receiving vitamin D.

Figure 2.

Mean (SE) percentage change from baseline PTH, Ca × P, calcium, and phosphorus.

Figure 3.

Mean (SE) iPTH over time. Error bars represent ± 1 SE; iPTH: 1 pmol/L = 1 pg/ml × 0.105; B: baseline.

Figure 4.

Mean Ca × P over time. Ca × P: 1 mmol2/L2 = 1 mg2/dl2 × 0.08; B: baseline.

Figure 5.

A, Patients (%) achieving end points by baseline iPTH levels. B, Reduction in PTH based on PTH levels at baseline.