Markets, Tort Law, and Regulation to Achieve Safety
Paul H. Rubin
Emory University - Department of Economics
December 17, 2010
Emory Law and Economics Research Paper No. 11-94
Emory Public Law Research Paper No. 11-142
Markets, tort law, and direct regulation are alternative methods of achieving safety. Of these, the market is the most powerful, but it is often ignored in policy discussions. I show that both for the U.S. over time and for the world as a whole, higher incomes are associated with lower death rates, and I discuss some examples of markets creating safety. Markets may fail if there are third party effects or if there are information problems. Classic tort law is a reasonable (although expensive) way to handle third party effects for strangers, as in the case of auto accidents. In theory, regulation could solve information problems, but in practice many regulations overreach because of different information problems – consumers are unaware of unapproved alternatives. A particularly difficult information problem arises in the case of what I call “ambiguous” goods – goods that reduce some risks but increase others (as medical care and malpractice.) Product liability focuses on these goods; over half of the "litigation groups" of the American Association for Justice are for ambiguous goods. Increasing the price of these goods through tort liability may make consumers worse off because they are less likely to purchase more expensive goods. At least in the case of drugs both the regulatory system and the tort system are probably overly restrictive so using both is likely to lead to net consumer harm. This would argue for preemption – FDA approval should preempt state tort law.
Number of Pages in PDF File: 34
Keywords: Safety, regulation, tort law, product liability, market for safety, pharmaceuticals
JEL Classification: D18, I18, K13, K32, L65
Date posted: December 19, 2010 ; Last revised: July 28, 2013
© 2016 Social Science Electronic Publishing, Inc. All Rights Reserved.
This page was processed by apollobot1 in 0.172 seconds