Neural Responses To Injury Prevention Protection And Repair; Volume 6 Protecting The Auditory System And Prevention Of Hearing Problems

Neural Responses to Injury: Prevention, Protection and Repair; Volume 6: Protecting the Auditory System and Prevention of Hearing Problems

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File Size : 48,44 MB

Release : 1996

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The experimental animals used during this period for the project, Neural Responses to Injury: Prevention, Protection, and Repair, Subproject: Protecting the Auditory System and Prevention of Hearing Problems, are as follows: Species, Guinea Pig, Number Allowed, 276, Number Used, 83, LSU IACUC# 1061. ANIMAL PROJECT: The SPECIFIC MMS of this study are to demonstrate and explore mechanisms for preventing the effects of intense sound. In years 01, and 02 we discovered that continuous, ipsilateral primary stimulation (CM-LIPS) will produce complex changes in the mechanics of the cochlea, possibly related to toughening In year 03 we discovered that ATP is involved in generating this complex mechanics. We extended the noise exposure studies and found that continuous noise is less effective than interrupted noise in inducing "toughing" Cellular mechanism studies discovered that ATP kills outer hair cells in vitro and in vivo, indicating that ATP may be a key player in noise-induced deafness and toughening. HUMAN PROJECT: We have found that binaural noise suppresses linear click evoked emissions twice as much as ipsilateral noise and 3 times as much as contralateral noise. However, subjects with noise exposure often show poor or reduced emissions when the stimulus is a click. Of 20 subjects enrolled and 13 completely tested so far in the multi-day protocol, subjects with noise exposure effects at higher frequencies show MORE suppression at and around 1500 Hz than do subjects with no hearing loss. This may support the original hypothesis in this program that "Noise Tender Ears" will show different emission suppression patterns from ears that are tough.





Naural Responses to Injury: Prevention, Protection, and Repair. Volume 6. Protecting the Auditory System and Prevention of Hearing Problems

Author : Nicolas Bazan

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Page : 292 pages

File Size : 36,86 MB

Release : 1997

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ANIMAL PROJECT: The SPECIFIC AIMS of this study are to demonstrate and explore mechanisms for preventing the effects of intense sound. In years 01, 02, 03 we discovered that continuous, ipsilateral sound stimulation (CM-LIPS) will produce complex changes in the mechanics of the cochlea. In year 04 we obtained additional evidence that ATP is involved in generating this mechanics. We completed the noise exposure studies and found that continuous noise is less effective than interrupted noise in inducing.



Neural Responses to Injury: Prevention, Protection, and Repair. Protecting the Auditory System and Prevention of Hearing Problems

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Page : 108 pages

File Size : 46,13 MB

Release : 1994

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The LSU Neuroscience Center is a comprehensive, multidisciplinary, and transdepartmental entity that unites fundamental neurobiology and the clinical neurosciences in the common goal of elucidating the workings of the brain and contributing to the treatment of currently incurable diseases of the nervous system. The objective of the present program is to find solutions to neuroscience-related problems of interest to the U.S. Army Medical Research and Development Command. The program is focused on exploiting novel neuroprotective strategies that lead to prevention of and repair after neural injury. Corwerging approaches using state-of-the-art tools of cell biology, neurochemistry, neuroimmunology, neurophysiology, neuropharmacology, molecular biology and virology are proposed. JMD.



Neural Responses to Injury: Prevention, Protection, and Repair. Volume 6: Vision, Laser Eye Injury, and Infectious Diseases

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Page : 116 pages

File Size : 16,15 MB

Release : 1995

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Study a new confocal microscope that can be used in living eyes to understand the earliest stages of trauma, laser injuries and diseases. Evaluate drugs to prevent retinal damage after laser injury. Study traumatic and non-traumatic glaucoma to determine its pathogenesis Study the stress factors involved in the recurrences of ocular herpes Study drugs that will prevent the recurrences of ocular herpes.



Neural Responses to Injury: Prevention, Protection and Repair; Volume 9: Expansion of Physical Facilities

Author : Nicolas Bazan

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Page : 17 pages

File Size : 31,94 MB

Release : 1996

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The addition of two floors to the existing building housing the LSU Eye Center and the Lions Eye Research Laboratories is now nearing completion. The Neuroscience Center will be occupying this space in February - March 1997. Plans for floors eight and nine have been included as an appendix of this volume. The additional space will greatly enhance the capabilities of the research program of the Neuroscience Center. Many components of the eight research projects, as well as the associated Core research facilities and administrative units, will be housed in the new space. The benefits of the synergy created by proximity in the development of exciting new approaches to research problems related with Neural Responses to Injury: Prevention, Protection, and Repair will soon be realized. The centralization of the Core Research Facilities will allow cooperative usage and simply oversight, reducing costs and eliminating duplication. Finally, the location of administrative functions in constant contact with the research facilities will permit efficient management and minimize wasteful miscommunication.



Neural Responses to Injury: Prevention, Protection and Repair; Volume 7: Role Growth Factors and Cell Signaling in the Response of Brain and Retina to Injury

Author : Nicolas Bazan

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Page : 126 pages

File Size : 35,61 MB

Release : 1996

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The experimental animals used during this period for the project, Neural Responses to Injury: Prevention, Protection, and Repair, Subproject: Role of Growth Factors and Cell Signaling in the Response of Brain and Retina to Injury, are as follows: Species Rat(Albino Wistar), Number Allowed: 78, Number Used, 78, LSU IACUC# 1032. The objective of this study is to assay for changes in expression of genes involved in neural growth and differentiation as a flinction of wound healing. We have used the Chalifour procedure (1) to assay for changes in panels of brain cortex RNAs. Materials and Methods Rat Brain Cryogenic Injury Winstar rats weighing 250-275 g were ether anesthetized and a 9 mm diameter probe cooled in liquid nitrogen was placed on the right parietal region of the rat skull for 1 min. The animals were then euthanized and the brains dissected at the specified times. Analysis of Gene Expression Pafterns Double-stranded radiolabeled cDNAs were synthesized from rat cortex RNAs isolated at various time points following brain injury. Panels of nitrocellulose filter-fixed cDNA clones were then screened according to the method of Chalifour et al. (1). Modifications included the use of 50 g of RNA, 2000u reverse transcriptase, 120 Ci 32P-dCTP, and 2u of klenow per sample. Nitrocellulose filters were hybridized to 106 cpm/ml of brain cDNA in 10 ml of hybridization solution. RNA Collection and Northern Blots RNAs from rat brain were collected by the method of Chomczynski and Sacchi (2). Northern blots were performed using standard techniques.



Neural Responses to Injury: Prevention, Protection and Repair; Volume 4: Neurochemical Protection of the Brain, Neural Plasticity and Repair

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Page : 0 pages

File Size : 39,56 MB

Release : 1996

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The experimental animals used during this period for the project, Neural Responses to Injury: Prevention, Protection, and Repair, Subproject: Neurochemical Protection of the Brain, Neural Plasticity and Repair, are as follows: Species Number Allowed Number Used LSU IACUC# Rat (sprague-Dawle) 125 125 1046 Rat (Sprague-Dawle) 91 91 1045 The development of chronic epilepsy is a very serious complication of head injury, neurodegenerative diseases, brain tumors, and exposure to neurotoxic agents. Head injury is often associated with loss of short-term memory, indicating trauma to the hippocampal formation, the brain region most commonly associated with epileptic brain damage. Underlying the formation of epilepsy (epileptogenesis) is proposed to be a vicious cycle initiated by the loss of neurons. In an attempt to repair and/or replace lost synaptic connections, the brain can develop aberrant synaptic circuits that permit the propagation and amplification of waves of excitatory neurotransmission, eventually resulting in prolonged or repeated seizures (status epilepticus). The massive amounts of excitatory amino acids released during these episodes can stimulate further neuronal loss (excitotoxic damage), the formation of more aberrant synaptic circuits, and further seizures (Choi and Rothinan, 1990). Excitotoxic damage has been demonstrated in several experimental models of status epilepticus (Meldmm et al, 1973; Ben-Ari, 1995; Sloviter, 1987).



Neural Responses to Injury: Prevention, Protection and Repair; Volume 7: Role Growth Factors and Cell Signaling in the Response of Brain and Retina to Injury

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Page : 0 pages

File Size : 27,41 MB

Release : 1996

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The experimental animals used during this period for the project, Neural Responses to Injury: Prevention, Protection, and Repair, Subproject: Role of Growth Factors and Cell Signaling in the Response of Brain and Retina to Injury, are as follows: Species Rat(Albino Wistar), Number Allowed: 78, Number Used, 78, LSU IACUC# 1032. The objective of this study is to assay for changes in expression of genes involved in neural growth and differentiation as a flinction of wound healing. We have used the Chalifour procedure (1) to assay for changes in panels of brain cortex RNAs. Materials and Methods Rat Brain Cryogenic Injury Winstar rats weighing 250-275 g were ether anesthetized and a 9 mm diameter probe cooled in liquid nitrogen was placed on the right parietal region of the rat skull for 1 min. The animals were then euthanized and the brains dissected at the specified times. Analysis of Gene Expression Pafterns Double-stranded radiolabeled cDNAs were synthesized from rat cortex RNAs isolated at various time points following brain injury. Panels of nitrocellulose filter-fixed cDNA clones were then screened according to the method of Chalifour et al. (1). Modifications included the use of 50 g of RNA, 2000u reverse transcriptase, 120 Ci 32P-dCTP, and 2u of klenow per sample. Nitrocellulose filters were hybridized to 106 cpm/ml of brain cDNA in 10 ml of hybridization solution. RNA Collection and Northern Blots RNAs from rat brain were collected by the method of Chomczynski and Sacchi (2). Northern blots were performed using standard techniques.



Neural Responses to Injury: Prevention, Protection and Repair; Volume 1 of 9: Neuroscience Core Research Facilities

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File Size : 31,95 MB

Release : 1996

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In Year 4 of the DOD Agreement, the calcium Imaging Facility has continued to support DOD-Funded projects and to serve as a core facility for Neuroscientists throughout the LSUMC campus. Usage of the Facility has been divided up at approximately 20 percent hardware and software maintenance and development, 40 percent DoD-Funded investigations, and 40 percent other neuroscience projects.