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Hello Hitoshi, Welcome to the list. My PD started after a blow to the head also. I'm sorry I'm neither Doctor nor Nurse, so I'll let one of them comment on the rest of your message. Please continue to post, its so nice to hear from someone in Japan. just me, Marjorie At 09:37 AM 07/26/2000 +0900, you wrote: >Hello List members. >My name Hitoshi Nishio from Japan. My mother' >s onset of Parkinson disease was after that >I was diagnosed with ALS and had to take a >ventilator one month later. I guess my >mother feels sivere stress! > My mother had a trafic accident by the car >and hit her back head on the hard block five >years ago of the onset of PD. >I also beleve that the stress and trauma >shoud a degenerative neuron disease. >This is the abstract of American Science. > >July-August 2000 > > > > > >Depression and the Birth and Death of Brain Cells. > > > >Stress and Glucocorticoids > > > > > >Many scientists believe that stress is the >most significant causal agent--with the >possible exception of genetic predisposition- >-in the etiology of depression. > > In addition, nerve cells in the >hippocampal formation are among the most >sensitive to the deleterious effects of >stress. > > Consequently, a stress-induced decrease in >neurogenesis in the hippocampus might be an >important factor in precipitating episodes >of depression. On the other hand, increasing >serotonergic neurotransmission is the most >effective treatment for depression, and it >also augments hippocampal neurogenesis. So >serotonin-induced increases in neurogenesis >might promote recovery from depression. >Considering all of this, we suggest that the >waning and waxing of neurogenesis in the >hippocampal formation might trigger the >precipitation of and recovery from episodes >of clinical depression. > > > >Gould and her colleagues examined the >relation between stress and hippocampal >neurogenesis in several species. First, they >reported that removing a ratís adrenal >glands increased neurogenesis in the adult >dentate gyrus. Moreover, they could reverse >that effect with the glucocorticoid hormone >corticosterone, which normally comes from >the adrenals. The circulating level of >glucocorticoids apparently suppressed the >birth of neurons in the dentate gyrus under >normal conditions. In an extension of these >results, Gouldís group showed that systemic >administration of corticosterone to normal >animals suppressed dentate gyrus >neurogenesis. > > > >This group also examined the effects of >naturally stressful situations. For instance, > they exposed a rat to the odor of one of >its natural predators--a fox--and that >suppressed cell proliferation in the ratÅfs >dentate gyrus. They also demonstrated >reduced dentate-gyrus cell proliferation in >adult tree shrews after the psycho social >stress of exposing them to same-sex >individuals. Most recently, GouldÅfs group >reported suppressed cell division in a >marmoset monkeyÅfs dentate gyrus after >putting it in a cage with another marmoset >that had already been living there. In >combination, these studies show clearly that >stress suppresses the rate of dentate-gyrus >cell proliferation in adults of a number of >species. Furthermore, it probably does so >through increases in brain glucocorticoids. > > > >Additional, but older, literature is also >relevant here. Over the past 15 years, work >by Robert Sapolsky of Stanford University, >Bruce McEwen of Rockefeller University and >others has shown, in a number of species, >that stress and glucocorticoids cause >widespread morphological changes and even >cell death in parts of the hippocampal, such >as in the CA3 subfields. This region of the >hippocampus is the main target of the output >of neurons in the dentate gyrus. Whether >this hippocampal damage is at least in part >dependent on the suppression of neurogenesis >in the dentate gyrus is not known.