Spelling suggestions: "subject:"nonneural transplantation"" "subject:"andneural transplantation""
1 |
Parameters affecting the survival and function of embryonic grafts in the neostriatumFricker, Rosemary A. January 1995 (has links)
No description available.
|
2 |
Improving the survival of embryonic dopaminergic neuronsLove, Rebecca Margaret January 2000 (has links)
No description available.
|
3 |
Anatomical and Behavioral Sequelae of Fetal Brain Transplants in Rats With Trimethyltin-Induced NeurodegenerationWoodruff, M. L., Baisden, R. H., Nonneman, A. J. 17 October 1991 (has links)
The effect of transplants of either fetal hippocampal or dorsal ventricular ridge (DVR) tissue into the brains of adult male rats exposed to TMT was determined for two behavioral tasks. Administration of TMT produced deficits in acquisition and performance of an operant differential reinforcement of low response rates (DRL) schedule and learning in the Morris water maze. The fetal transplants developed well within the TMT damaged brains of the adult rats and numerous axons could be shown to cross the host transplant interface. The transplants significantly recuced the DRL deficit produced by exposure to TMT. However, the TMT-induced deficit in water maze acquisition was made significantly worse by the hippocampal transplants. The improvement in DRL performance is attributed to the effect on the host brain of an unidentified trophic substance produced by the transplants. However, this positive effect may not protect the brain sufficiently to produce recovery in tasks demanding more complex neural computations than are required to withhold lever-press responses. The transplant-induced deficit observed in some aspects of water maze acquisition and performance may be attributable to either a tumor-like deleterious effect of the mass of the transplant or to abnormal neuronal activity transmitted from the transplant to the host brain. The results of the present study, and those from other similar studies, suggest that transplants of fetal tissue may be useful in producing changes in the brain of an animal exposed to an environmental neurotoxin, but that research should be focused upon development of transplant methodology that will minimize adverse effects of the grafts.
|
4 |
Novel Mechanisms and Approaches in the Study of Neurodegeneration and Neuroprotection. A ReviewKostrzewa, Richard M., Segura-Aguilar, Juan 01 December 2003 (has links)
Cellular mechanisms involved in neurodegeneration and neuroprotection are continuing to be explored, and this paper focuses on some novel discoveries that give further insight into these processes. Oligodendrocytes and activated astroglia are likely generators of the pro-inflammatory cytokines, such as the tumor necrosis factor family and interleukin family, and these glial support cells express adhesion receptors (e.g., VCAM) and release intercellular adhesion molecules (ICAM) that have a major role in neuronal apoptosis. Even brief exposure to some substances, in ontogeny and sometimes in adulthood, can have lasting effects on behaviors because of their prominent toxicity (e.g., NMDA receptor antagonists) or because they sensitize receptors (e.g., dopamine D2 agonists), possibly permanently, and thereby alter behavior for the lifespan. Cell cycle genes which may be derived from microglia, are the most-recent entry into the neuroprotection schema. Neuroprotection afforded by some common substances (e.g., melatonin) and uncommon substances [e.g., nicotine, green tea polyphenol (-)-epigallocatechin-3-gallate (EGCG), trolox], ordinarily thought to be simple radical scavengers, now are thought to invoke previously unsuspected cellular mechanisms in the process of neuroprotection. Although Alzheimer's disease (AD) has features of a continuous spectrum of neural and functional decline, in vivo PET imaging and and functional magnetic resonance imaging, indicate that AD can be staged into an early phase treatable by inhibitors of β and γ secretase; and a late phase which may be more amenable to treatment by drugs that prevent or reverse tau phosphorylation. Neural transplantation, thought to be the last hope for neurally injured patients (e.g., Parkinsonians), may be displaced by non-neural tissue transplants (e.g., human umbilical cord blood; Sertoli cells) which seem to provide similar neurotrophic support and improved behavior-without posing the major ethical dilemma of removing tissue from aborted fetuses. The objective of this paper is to invite added research into the newly discovered (or postulated) novel mechanisms; and to stimulate discovery of additional mechanisms attending neurodegeneration and neuroprotection.
|
Page generated in 0.1434 seconds