Travis S. Tierney scite author profile

Postmortem analysis of five subjects with Parkinson's disease9-14 years after transplantation of fetal midbrain cell suspensions revealed surviving grafts that included dopamine and serotonin neurons without pathology. These findings are important for the understanding of the etiopathogenesis of midbrain dopamine neuron degeneration and future use of cell replacement therapies.Despite indirect evidence of long-term survival of fetal midbrain dopamine cell suspensions in people with Parkinson's disease 1 , the question remains whether grafted neurons are affected by pathogenic factors intrinsic to the parkinsonian brain.Prominent neuropathological features of Parkinson's disease include dopaminergic neuron loss in the substantia nigra, the presence of dystrophic neurites (Lewy neurites) 2 and the presence of Lewy bodies 3,4 . Ultimately, the durability of transplanted fetal ventral midbrain neurons in therapeutic approaches relies on their resistance to these neurodegenerative processes. Because many aspects of these processes remain unknown, it is important to understand the effects of neurodegeneration in the parkinsonian striatum upon transplanted fetal dopamine neurons. We report histopathological findings in the brains of three subjects (referred to as subjects 4, 5 and 6) with advanced idiopathic Parkinson's disease who had received intracerebral transplantation

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Susceptibility of developing cochlear nucleus neurons to deafferentation-induced death abruptly ends just before the onset of hearing

Tierney¹,

Russell²,

Moore³

1997

J. Comp. Neurol.

157

101

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To investigate the ability of developing cochlear nucleus (CN) neurons to survive in the absence of afferent input, left cochlear removals were performed on gerbils at 2 day intervals from postnatal (P)3 to P11, and at P18 and P93. After a 3 month postsurgical survival period, Nissl-stained frontal sections through the brainstem were analyzed under the light microscope. CN volume, anteroventral cochlear nucleus (AVCN) neuron cross-sectional area, and total number of neurons in the CN were measured on both sides of the brain. Mean volume reduction of the deafferented CN relative to the intact CN ranged between 76% in the P3 group to 33% in the P11 group and did not differ significantly between P11 and P93. Cochlear removal at all ages reduced AVCN neuron cross-sectional area by approximately 40% in the deafferented CN relative to the intact CN, except for the P93 group where neuron atrophy was significantly less severe (23% mean reduction). Massive loss of CN neurons (>50% of the intact side) was observed following cochlear removal performed during the first postnatal week. However, between P7 and P9, neurons in all areas of the CN lose susceptibility to deafferentation-induced neuron death. No significant neuron loss was observed following cochlear removal after P7. This study shows that an abrupt transition in the ability of CN neurons to survive in the absence of afferent input is coincident with events leading to the onset of hearing.

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Travis S. Tierney

A Randomized Trial of Focused Ultrasound Thalamotomy for Essential Tremor

Dopamine neurons implanted into people with Parkinson's disease survive without pathology for 14 years

Susceptibility of developing cochlear nucleus neurons to deafferentation-induced death abruptly ends just before the onset of hearing

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