Gene/Protein
Disease
Symptom
Drug
Enzyme
Compound
Pivot Concepts:
Gene/Protein
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Drug
Enzyme
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Target Concepts:
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Query: UMLS:C0026838 (
spasticity
)
6,471
document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)
This report concerns two patients (female, 9 and 6 years) who were diagnosed with megacystis-microcolon-intestinal hypoperistalsis syndrome (MMIHS). Although they exceeded the usual life expectancy of patients diagnosed with MMIHS because of total parenteral nutrition (TPN), they demonstrated progressive neurological deficits and showed histopathological features in the brain. Both patients were diagnosed with MMIHS in the neonatal period and were fed by TPN. The first patient developed visual and gait disturbances at the age of 7 years. Two months later, she developed dysarthria and muscular weakness, and could not maintain her posture. The level of serum
selenium
was extremely low. The second patient developed flexion and
spasticity
of the extremities followed by decorticate posture at the age of 3 years. Both patients died of sepsis. The brain weights of the two cases were 880 g and 715 g. In both cases, severe neuronal loss and gliosis were present in the medial convolutions of the occipital lobe, including the visual cortex. The postcentral gyrus and temporal transverse gyrus were also involved. In addition, extensive loss of Purkinje cells and granular neurons, and gliosis were observed in the cerebellum. We measured the
selenium
content of the brains and livers using the graphite furnace atomic absorption spectrometry method.
Selenium
was not detected in either brain, although the livers of both cases contained a low level of
selenium
. On immunohistochemical examination of the anti-oxidative enzymes, histiocyte-macrophage lineage cells in MMIHS cases, including microglia and Kupffer cells, showed only a weak reaction for glutathione peroxidase, of which
selenium
is an essential component. However, the cells in the control cases were strongly positive. In cases of MMIHS and methylmercury intoxication, the brain features similar lesions, in both their topographical and histopathological aspects. We considered that the brain lesions of the MMIHS patients mainly resulted from oxidative damage of the brain related to the low levels of glutathione peroxidase and other selenoproteins due to
selenium
deficiency.
...
PMID:Encephalopathy in megacystis-microcolon-intestinal hypoperistalsis syndrome patients on long-term total parenteral nutrition possibly due to selenium deficiency. 1284 51
Brain function and
selenium
concentration are well maintained in rodents under conditions of
selenium
deficiency. Recently, however, targeted deletion of the selenoprotein P gene (Sepp) has been associated with a decrease in brain
selenium
concentration and with neurological dysfunction. Studies were conducted with Sepp(-/-) and Sepp(+/+) mice to characterize the neurological dysfunction and to correlate it with dietary
selenium
level. When weanling Sepp(-/-) mice were fed the basal diet (<0.01 mg/kg
selenium
) supplemented with 0, 0.05 or 0.10 mg
selenium
/kg, they developed
spasticity
that progressed and required euthanasia. Supplementing the diet with > or =0.25 mg
selenium
/kg prevented the neurological dysfunction. To determine whether neurological dysfunction would occur in more mature Sepp(-/-) mice deprived of
selenium
, Sepp(-/-) mice that had been fed the basal diet supplemented with 1.0 mg
selenium
/kg for 4 wk were switched to a
selenium
-deficient diet. Within 3 wk they had developed neurological dysfunction and weight loss. At 3 wk, the 1.0 mg
selenium
/kg diet was reinstituted. Neurological function stabilized but did not return to normal. Brain
selenium
concentration did not increase. Weight gain resumed. This study shows that neurological dysfunction occurs when
selenium
supply to the brain is curtailed and that the dysfunction is not readily reversible. Both the absence of selenoprotein P and a low dietary
selenium
supply are necessary for the dysfunction to occur, indicating that selenoprotein P and at least one other form of
selenium
supply the element to the brain.
...
PMID:Neurological dysfunction occurs in mice with targeted deletion of the selenoprotein P gene. 1470 10
Most MS patients use unconventional therapies, usually as complementary measures in addition to the conventional treatment. Only a few adequate clinical trials exist in this field. By definition, the efficacy of these therapies is unproven. Moreover, the possible risks are also largely unknown. Some therapies rely on rational pathophysiological considerations, other must be regarded as potentially harmful. The influence of diet on MS is unproven. Possibly, unsaturated fatty acids are beneficial. However, a few randomized trials yielded inconclusive results. Long-term supplementation of Vitamin D is associated with a decreased MS incidence. There is, however, insufficient evidence for an influence of Vitamin D on the course of the disease. Because of the high prevalence of osteoporosis in MS patients, prophylaxis with Vitamin D and Calcium is widely accepted. The effects of various minerals,
selenium
, antioxidant compounds, fish oil or vitamins remain speculative. Many patients use cannabis to alleviate
spasticity
and pain. Small series indicated positive effects, but randomized trials were negative for
spasticity
. However, many patients report subjective improvement under cannabis even if their objective parameters remain unchanged. Hyperbaric oxygenation was the subject of several small studies with heterogeneous results which, overall, do not support its use. Generally, physical therapies are perceived as an established therapy for MS. Short-term effects are probable, whereas the possible favourable long-term effects are unclear.
...
PMID:[Alternative and complementary therapies in multiple sclerosis]. 1605 39
Medicinal Chemistry has played a critical role in evolving new products, resources and processes which inexorably correspond to our high standards of living. Unfortunately, this has also caused deterioration of human health and threats to the global environment, even deaths when highly exposed to certain chemicals, whether due to improper use, mishandling or disposal. There are chemicals, which apart from being carcinogens, endocrine disruptors or neurotoxins, are also responsible for climate change and ozone depletion. Certain chemicals are known to cause neurotoxicity and are having tendencies to damage the central and peripheral nervous system or brain by damaging neurons or cells which are responsible for transmitting and processing of signals. This has raised serious concerns for the use and handling of such chemicals and has given growth to a relatively new emerging field known as Green Chemistry that strives to achieve sustainability at the molecular level and has an ability to harness chemicals to meet environmental and economic goals. It has been reported in the literature that apart from family history in the aetiology of Amyotrophic lateral Sclerosis (ALS), also termed as "Lou Gehrig's disease", a neurological disorder, environmental factors, heavy metals, particularly
selenium
, lead, mercury, cadmium, formaldehyde, pesticides and certain herbicides are known to cause ALS. ALS, a progressive neurodegenerative disease affects the motor cortex, brain stem and spinal cord, causing muscular weakness,
spasticity
, and hyperreflexia. In this article we are aiming to discuss and summarize the various corroborations and findings supporting the undesirable role of chemical substance/herbicides/pesticides in ALS aetiology and its mitigation by adopting green chemistry.
...
PMID:Denouement of Chemicals on Amyotrophic Lateral Sclerosis: Is Green Chemistry the Answer. 3228 7
