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Query: UMLS:C0026838 (
spasticity
)
6,471
document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)
To characterize the behavioral and histopathological changes that occur in spinal cord after transient ischemia, reversible occlusion of the descending aorta was achieved in the halothane (1-1.5%)-anesthetized rat by the insertion and subsequent inflation of a 2F Fogarty catheter for 10, 15, 20, or 30 min. Neurological recovery was tested during 8 h of reperfusion. After reflow, animals undergoing 30 min of ischemia displayed an initial flaccidity at 1 h,
spasticity
at 4 h, and flaccidity at the end of 8 h. Following 20 min of ischemia the initial flaccidity was followed by hindlimb
spasticity
that persisted for 8 h. Shorter intervals of ischemia had minimal effects on motor function. After reflow, animals developed a prominent allodynea, the incidence of which was dependent on the duration of ischemia. A clear correlation of histopathological changes with the degree of neurological deficit was noted. In spastic animals, small and medium-sized interneurons localized in laminae III to VII were affected. Animals with flaccidity at 8 h additionally displayed a significant incidence of argyrophilic A motoneurons in the ventral horns. Corresponding to the frequent appearance of allodynea, these animals also showed a significant number of damaged neurons in lamina II.
J
Cereb
Blood Flow Metab 1994 May
PMID:Transient spinal ischemia in the rat: characterization of behavioral and histopathological consequences as a function of the duration of aortic occlusion. 816 96
Effects of thyroid hormone on development of the brain have been documented for over a century. Although in many respects the hypothyroid brain appears morphologically normal, functional impairments include mental retardation, ataxia and
spasticity
. Keyed by the discovery of nuclear receptors for thyroid hormone that function as transcription factors, recent work has examined the mechanism of thyroid hormone action in brain development. The prediction that gene expression regulated by thyroid hormone is important for mediating brain development has spurred the search for thyroid hormone-responsive genes. Here we review some of the identified genes whose expression patterns correlate with the functional deficits observed in the hypothyroid brain. Recently identified thyroid hormone-responsive genes include synaptotagmin-related gene 1 (Srg1), a putative mediator of synaptic structure and/or activity, and hairless, a transcriptional cofactor that may influence the expression of other thyroid hormone-responsive genes.
Cereb
Cortex 2000 Oct
PMID:Thyroid hormone action in neural development. 1100 44
Cathodal transcranial direct current stimulation (c-tDCS) can reduce excitability of neurons in primary motor cortex (M1) and may facilitate motor recovery after stroke. However, little is known about the neurophysiological effects of tDCS on proximal upper limb function. We hypothesized that suppression of contralesional M1 (cM1) excitability would produce neurophysiological effects that depended on the severity of upper limb impairment. Twelve patients with varying upper limb impairment after subcortical stroke were assessed on clinical scales of upper limb
spasticity
, impairment, and function. Magnetic resonance imaging was used to determine lesion size and fractional anisotropy (FA) within the posterior limbs of the internal capsules indicative of corticospinal tract integrity. Excitability within paretic M1 biceps brachii representation was determined from motor-evoked potentials during selective isometric tasks, after cM1 sham stimulation and after c-tDCS. These neurophysiological data indicate that c-tDCS improved selective proximal upper limb control for mildly impaired patients and worsened it for moderate to severely impaired patients. The direction of the neurophysiological after effects of c-tDCS was strongly related to upper limb
spasticity
, impairment, function, and FA asymmetry between the posterior limbs of the internal capsules. These results indicate systematic variation of cM1 for proximal upper limb control after stroke and that suppression of cM1 excitability is not a "one size fits all" approach.
Cereb
Cortex 2012 Nov
PMID:Contralesional hemisphere control of the proximal paretic upper limb following stroke. 2213 91
