Yves Dauvilliers1, Heike Benes2, Markku Partinen3, Virpi Rauta4, Daniel Rifkin5, Elisabeth Dohin6, Nadine Goldammer7, Erwin Schollmayer7, Hanna Schröder7, John W Winkelman8. 1. Sleep Disorders Center, Department of Neurology, Gui-de-Chauliac Hospital, CHU Montpellier, INSERM U1061, Montpellier, France. 2. Somni Bene Institut für Medizinische Forschung und Schlafmedizin, Schwerin, Germany; Rostock University, Medical Center, Rostock, Germany. 3. Helsinki Sleep Clinic, Vitalmed Research Center, Helsinki, Finland. 4. Helsinki University Central Hospital, Helsinki, Finland. 5. Sleep Medicine Centers of Western New York, West Seneca, NY. 6. UCB Pharma, Brussels, Belgium. 7. UCB Pharma, Monheim am Rhein, Germany. 8. Massachusetts General Hospital, Boston, MA. Electronic address: jwwinkelman@partners.org.
Abstract
BACKGROUND:Restless legs syndrome (RLS) has been associated with insomnia, decreased quality of life, and increased morbidity and mortality in end-stage renal disease. This randomized controlled trial investigated effects of rotigotine in patients with RLS and end-stage renal disease. STUDY DESIGN: Double-blind placebo-controlled study. SETTING & PARTICIPANTS: Adults with moderate to severe RLS (International RLS Study Group Rating Scale [IRLS] ≥ 15) and Periodic Limb Movement Index (PLMI) ≥ 15 who were receiving thrice-weekly hemodialysis enrolled from sites in the United States and Europe. INTERVENTION: Following randomization and titration (≤21 + 3 days) to optimal-dose rotigotine (1-3mg/24 h) or placebo, patients entered a 2-week maintenance period. Polysomnography was performed at baseline and the end of maintenance. OUTCOMES & MEASUREMENTS: Primary efficacy outcome: reduction in PLMI, assessed by ratio of PLMI at end of maintenance to baseline. Secondary/other outcomes (P values exploratory) included mean changes from baseline in PLMI, IRLS, and Clinical Global Impression item 1 (CGI-1 [severity of illness]) score. RESULTS:30 patients wererandomly assigned (rotigotine, 20; placebo, 10); 25 (15; 10) completed the study with evaluable data. Mean (SD) PLMI ratio (end of maintenance to baseline) was 0.7±0.4 for rotigotine and 1.3±0.7 for placebo (analysis of covariance treatment ratio, 0.44; 95% CI, 0.22 to 0.88; P=0.02). Numerical improvements were observed with rotigotine versus placebo in IRLS and CGI-1 (least squares mean treatment differences of -6.08 [95% CI, -12.18 to 0.02; P=0.05] and -0.81 [95% CI, -1.94 to 0.33; P=0.2]). 10 of 15 rotigotine and 2 of 10 placebo patients were CGI-1 responders (≥50% improvement). Hemodialysis did not affect unconjugated rotigotine concentrations. The most common adverse events (≥2 patients) were nausea (rotigotine, 4 [20%]; placebo, 0); vomiting (3 [15%]; 0); diarrhea (1 [5%]; 2 [20%]); headache (2 [10%]; 0); dyspnea (2 [10%]; 0); and hypertension (2 [10%]; 0). LIMITATIONS: Small sample size and short duration. CONCLUSIONS:Rotigotine improved periodic limb movements and RLS symptoms in the short term among ESRD patients requiring hemodialysis in a small-scale study. No dose adjustments are necessary for hemodialysis patients.
RCT Entities:
BACKGROUND:Restless legs syndrome (RLS) has been associated with insomnia, decreased quality of life, and increased morbidity and mortality in end-stage renal disease. This randomized controlled trial investigated effects of rotigotine in patients with RLS and end-stage renal disease. STUDY DESIGN: Double-blind placebo-controlled study. SETTING & PARTICIPANTS: Adults with moderate to severe RLS (International RLS Study Group Rating Scale [IRLS] ≥ 15) and Periodic Limb Movement Index (PLMI) ≥ 15 who were receiving thrice-weekly hemodialysis enrolled from sites in the United States and Europe. INTERVENTION: Following randomization and titration (≤21 + 3 days) to optimal-dose rotigotine (1-3mg/24 h) or placebo, patients entered a 2-week maintenance period. Polysomnography was performed at baseline and the end of maintenance. OUTCOMES & MEASUREMENTS: Primary efficacy outcome: reduction in PLMI, assessed by ratio of PLMI at end of maintenance to baseline. Secondary/other outcomes (P values exploratory) included mean changes from baseline in PLMI, IRLS, and Clinical Global Impression item 1 (CGI-1 [severity of illness]) score. RESULTS: 30 patients were randomly assigned (rotigotine, 20; placebo, 10); 25 (15; 10) completed the study with evaluable data. Mean (SD) PLMI ratio (end of maintenance to baseline) was 0.7±0.4 for rotigotine and 1.3±0.7 for placebo (analysis of covariance treatment ratio, 0.44; 95% CI, 0.22 to 0.88; P=0.02). Numerical improvements were observed with rotigotine versus placebo in IRLS and CGI-1 (least squares mean treatment differences of -6.08 [95% CI, -12.18 to 0.02; P=0.05] and -0.81 [95% CI, -1.94 to 0.33; P=0.2]). 10 of 15 rotigotine and 2 of 10 placebo patients were CGI-1 responders (≥50% improvement). Hemodialysis did not affect unconjugated rotigotine concentrations. The most common adverse events (≥2 patients) were nausea (rotigotine, 4 [20%]; placebo, 0); vomiting (3 [15%]; 0); diarrhea (1 [5%]; 2 [20%]); headache (2 [10%]; 0); dyspnea (2 [10%]; 0); and hypertension (2 [10%]; 0). LIMITATIONS: Small sample size and short duration. CONCLUSIONS:Rotigotine improved periodic limb movements and RLS symptoms in the short term among ESRDpatients requiring hemodialysis in a small-scale study. No dose adjustments are necessary for hemodialysis patients.
Authors: Susan E Mackie; R Kathryn McHugh; Katherine McDermott; Margaret L Griffin; John W Winkelman; Roger D Weiss Journal: J Subst Abuse Treat Date: 2016-10-06