1. Jeffrey T Bergin Judge Drug Treatment Program Near Me
2. Jeffrey T Bergin Judge Drug Treatment Program Reviews

Corwin, Jeffrey T. Primary AppointmentProfessor, Neuroscience Education. BS, Biological Sciences, Cornell University. MS, Zoology, University of Hawaii, Honolulu, Hawaii.

Jeffrey T Bergin Judge Drug Treatment Program Near Me

PhD, Neurosciences, University of California, San DiegoContact InformationPO Box 801392Telephone:Email:Website: Research InterestsRegeneration and Developmental Biology of the Hearing and Balance Organs in the Vertebrate Ear. Research DescriptionOver 20 million Americans have significant hearing deficits that result from loss of sensory hair cells, the acoustic receptors in the ear. Those losses are usually permanent in humans, but comparable losses in other species are followed by dramatic recovery of function.

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Jeffrey T Bergin Judge Drug Treatment Program Reviews

Past work in our lab and others has shown that sharks, bony fish, amphibians, and birds can regenerate damaged auditory and vestibular detector cells in a matter of weeks, leading to dramatic functional recovery from the kinds of deafness and balance disorders that are permanent when they occur in humans.A decade ago, we discovered that sensory hair cells also can be regenerated in the balance organs from the ears of mammals, including those from humans, but in mammalian tissues those processes occur at very low rates. Of course, we would have been happy to find robust regenerative responses in human tissues and in those from other mammals, but the discovery of even the low rates of regeneration observed showed for the first time that the machinery for biological self-repair existed and could operate in the mature human ear. Our work has extended from those first discoveries in mammalian tissue and we hope that by contributing answers about regenerative processes that work may lead to the development of effective treatments for conditions of neuronal and sensory cell loss.A primary aim of our recent work was the discovery of pharmacological treatments that might increase the level of regenerative cell production in mammals. Working with pure sensory epithelia from young rodents we have identified a number of the intracellular and extracellular signals that can trigger the cell replacement events that are the first stages of the regenerative processes in non-mammalian ears. The powerful actions of the triggers for inner ear cell production are observed after a sequential two-drug treatment.