75 4.1 Introduction 4.1.1 Contributions of Animal Models to Understanding Human Presbycusis Any reader who has grown up with a pet dog cannot have failed to notice that the effects of advancing age in dogs are not very different from those apparent in aging grandparents, except that in calendar time they appear more rapidly. Although domesticated animals may present a special case compared with wild animals that hardly survive to the age of sexual maturity, a few wild animals do survive and they also exhibit these common effects of human aging. Very close to human sympathies are the observations of elderly chimpanzees by naturalists who, having followed their stable groups for many years, write that the rare creature that has successfully survived the challenges of the wild exhibits the same thinning hair, slow movements, and sagging and wrinkled facial skin as the elderly human (Hill et al. 2001). And given the laboratory studies of hearing in old monkeys (Bennett et al. 1983) and examinations of cochlear pathology in postmortem studies of aged pet dogs J.R. Ison (*) Department of Brain & Cognitive Sciences, University of Rochester, Meliora Hall, Box 270268, Rochester, NY 14627 e-mail: jison@bcs.rochester.edu K.L. Tremblay Department of Speech & Hearing Sciences, University of Washington, 1417 NE 42nd St., Seattle, WA 98105 e-mail: tremblay@u.washington.edu P.D. Allen Department of Neurobiology & Anatomy, University of Rochester, 601 Elmwood Avenue, Box 603, Rochester, NY 14642 e-mail: pallen@cvs.rochester.edu Chapter 4 Closing the Gap Between Neurobiology and Human Presbycusis: Behavioral and Evoked Potential Studies of Age-Related Hearing Loss in Animal Models and in Humans James R. Ison, Kelly L. Tremblay, and Paul D. Allen S. Gordon-Salant et al. (eds.), The Aging Auditory System, Springer Handbook of Auditory Research 34, DOI 10.1007/978-1-4419-0993-0_4, © Springer Science + Business Media, LLC 2010