BACKGROUND: Medical devices are often introduced prior to randomized-trial evidence of efficacy and this slows completion of trials. Alternative regulatory approaches include restricting device use outside of trials prior to trial evidence of efficacy (like the drug approval process) or restricting out-of-trial use but permitting coverage within trials such as Medicare's Coverage with Study Participation (CSP). METHODS: We compared the financial impact to manufacturers and insurers of three regulatory alternatives: (1) limited regulation (current approach), (2) CSP, and (3) restrictive regulation (like the current drug approval process). Using data for patent foramen ovale closure devices, we modeled key parameters including recruitment time, probability of device efficacy, market adoption, and device cost/price to calculate profits to manufacturers, costs to insurers, and overall societal impact on health. RESULTS: For manufacturers, profits were greatest under CSP-driven by faster market adoption of effective devices-followed by restrictive regulation. Societal health benefit in total quality-adjusted life years was greatest under CSP. Insurers' expenditures for ineffective devices were greatest with limited regulation. Findings were robust over a reasonable range of probabilities of trial success. CONCLUSIONS: Regulation restricting out-of-trial device use and extending limited insurance coverage to clinical trial participants may balance manufacturer and societal interests.
BACKGROUND: Medical devices are often introduced prior to randomized-trial evidence of efficacy and this slows completion of trials. Alternative regulatory approaches include restricting device use outside of trials prior to trial evidence of efficacy (like the drug approval process) or restricting out-of-trial use but permitting coverage within trials such as Medicare's Coverage with Study Participation (CSP). METHODS: We compared the financial impact to manufacturers and insurers of three regulatory alternatives: (1) limited regulation (current approach), (2) CSP, and (3) restrictive regulation (like the current drug approval process). Using data for patent foramen ovale closure devices, we modeled key parameters including recruitment time, probability of device efficacy, market adoption, and device cost/price to calculate profits to manufacturers, costs to insurers, and overall societal impact on health. RESULTS: For manufacturers, profits were greatest under CSP-driven by faster market adoption of effective devices-followed by restrictive regulation. Societal health benefit in total quality-adjusted life years was greatest under CSP. Insurers' expenditures for ineffective devices were greatest with limited regulation. Findings were robust over a reasonable range of probabilities of trial success. CONCLUSIONS: Regulation restricting out-of-trial device use and extending limited insurance coverage to clinical trial participants may balance manufacturer and societal interests.
Authors: Philip M Meyers; H Christian Schumacher; E Sander Connolly; Eric J Heyer; William A Gray; Randall T Higashida Journal: Circulation Date: 2011-06-07 Impact factor: 29.690
Authors: E Ray Dorsey; Jason de Roulet; Joel P Thompson; Jason I Reminick; Ashley Thai; Zachary White-Stellato; Christopher A Beck; Benjamin P George; Hamilton Moses Journal: JAMA Date: 2010-01-13 Impact factor: 56.272
Authors: John D Carroll; Jeffrey L Saver; David E Thaler; Richard W Smalling; Scott Berry; Lee A MacDonald; David S Marks; David L Tirschwell Journal: N Engl J Med Date: 2013-03-21 Impact factor: 91.245