The 6-min walk test (6MW) as an efficacy endpoint in pulmonary arterial hypertension clinical trials: demonstration of a ceiling effect.

Abstract	BACKGROUND: PAH trials traditionally use 6MW as the primary endpoint. Concerns regarding a "ceiling effect" masking efficacy have led to exclusion of patients with milder disease from most trials (BL 6MW>450 m). STRIDE I evaluated the selective endothelin A receptor antagonist, sitaxsentan (SITAX), in a 12-week randomized, double-blind, trial (178 patients) employing placebo (PBO), 100 mg or 300 mg SITAX orally once daily in PAH and included patients with NYHA class II, congenital heart disease and a BL 6MW>450 m, groups often excluded from previous trials. METHODS: We analyzed 6MW effects For All Pts (intention-to treat) and those meeting Traditional enrollment criteria, defined as patients with NYHA class III or IV and 6MW< or =450 m at BL with idiopathic PAH or PAH related to connective tissue disease. The 100 mg and 300 mg SITAX arms are pooled based on similar treatment effects on 6MW. CONCLUSION: Existence of a "ceiling effect" is supported by these data. The magnitude of the treatment effect and statistical power when using 6MW as the endpoint. Comparisons between PAH trials that do not adjust for the effects of differing enrollment criteria require caution.
Authors	Adaani E Frost, D Langleben, R Oudiz, N Hill, E Horn, V McLaughlin, I M Robbins, S Shapiro, V F Tapson, D Zwicke, T DeMarco, R Schilz, M Rubenfire, R J Barst
Journal	Vascular pharmacology (Vascul Pharmacol) Vol. 43 Issue 1 Pg. 36-9 (Jun 2005) ISSN: 1537-1891 [Print] United States
PMID	15890561 (Publication Type: Clinical Trial, Journal Article, Randomized Controlled Trial)
Chemical References	Endothelin Receptor Antagonists Isoxazoles Thiophenes sitaxsentan
Topics	Double-Blind Method Endothelin Receptor Antagonists Endpoint Determination Exercise Test Heart Diseases (complications) Humans Hypertension, Pulmonary (complications, drug therapy, physiopathology) Isoxazoles (therapeutic use) Research Design Thiophenes (therapeutic use) Walking (physiology)

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