Gene/Protein Disease Symptom Drug Enzyme Compound
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Query: UMLS:C0002736 (amyotrophic lateral sclerosis)
 19,048 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

The authors determined FDP levels in the cerebrospinal fluid by the method of Merskey in 214 neurological patients and found raised levels in 58.6% of cases (from 0.1 to 8.0 ug/ml, with normal value range 0-0.5 ug/ml). In the control group the FDP levels in the CSF were normal. No correlation was noted between the FDP levels in the CSF and in blood. Raised CSF FDP level was observed in exacerbations of multiple sclerosis, strokes especially of embolic origin, syringomyelia, bulbar form of amyotrophic lateral sclerosis, epilepsy, migraine, lumbar disc lesions, polyneuropathy, parkinsonism, brain atrophy, after craniocerebral trauma, in Kleine-Levin syndrome. The authors are studying now the course of FDP changes in the CSF in various cases in the aspect of clinical-laboratory correlations.
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PMID:[Fibrin fibrinogen degradation products in the cerebrospinal fluid of neurological patients]. 610 Mar 18

This article reviews new drugs and recent knowledge or indications for old drugs for the treatment of neurological disorders. Drugs for disorders such as migraine, epilepsy, Parkinson's disease, Alzheimer's disease, ischemic stroke, amyotrophic lateral sclerosis and multiple sclerosis are considered.
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PMID:[New drugs in neurology]. 1040 81

In recent years several new treatments have been introduced in neurology, sumatriptan in migraine, riluzole in amyotrophic lateral sclerosis, interferon-beta in multiple sclerosis and rivastigmine in Alzheimer's disease. Doubts exist on the effects on functional outcome of these new treatments. Hardly effective drugs are not forced on physicians by the pharmaceutical industry, since physicians are involved in decisions from phase I studies to the final approval of the drugs. The problem is, however, that in clinical studies emphasis is still on statistically significant differences rather than on meaningful differences in the functional status of patients. In conclusion, in clinical studies outcome measures should be chosen more carefully and there is a need for sensitive linear functional scales.
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PMID:[New therapies in neurology, but who benefits?]. 1049 26

Modern molecular biology has revealed vast numbers of large and complex proteins and genes that regulate body function. By contrast, discoveries over the past ten years indicate that crucial features of neuronal communication, blood vessel modulation and immune response are mediated by a remarkably simple chemical, nitric oxide (NO). Endogenous NO is generated from arginine by a family of three distinct calmodulin- dependent NO synthase (NOS) enzymes. NOS from endothelial cells (eNOS) and neurons (nNOS) are both constitutively expressed enzymes, whose activities are stimulated by increases in intracellular calcium. Immune functions for NO are mediated by a calcium-independent inducible NOS (iNOS). Expression of iNOS protein requires transcriptional activation, which is mediated by specific combinations of cytokines. All three NOS use NADPH as an electron donor and employ five enzyme cofactors to catalyze a five-electron oxidation of arginine to NO with stoichiometric formation of citrulline. The highest levels of NO throughout the body are found in neurons, where NO functions as a unique messenger molecule. In the autonomic nervous system NO functions NO functions as a major non-adrenergic non-cholinergic (NANC) neurotransmitter. This NANC pathway plays a particularly important role in producing relaxation of smooth muscle in the cerebral circulation and the gastrointestinal, urogenital and respiratory tracts. Dysregulation of NOS activity in autonomic nerves plays a major role in diverse pathophysiological conditions including migraine headache, hypertrophic pyloric stenosis and male impotence. In the brain, NO functions as a neuromodulator and appears to mediate aspects of learning and memory. Although endogenous NO was originally appreciated as a mediator of smooth muscle relaxation, NO also plays a major role in skeletal muscle. Physiologically muscle-derived NO regulates skeletal muscle contractility and exercise-induced glucose uptake. nNOS occurs at the plasma membrane of skeletal muscle which facilitates diffusion of NO to the vasculature to regulate muscle perfusion. nNOS protein occurs in the dystrophin complex in skeletal muscle and NO may therefore participate in the pathophysiology of muscular dystrophy. NO signalling in excitable tissues requires rapid and controlled delivery of NO to specific cellular targets. This tight control of NO signalling is largely regulated at the level of NO biosynthesis. Acute control of nNOS activity is mediated by allosteric enzyme regulation, by posttranslational modification and by subcellular targeting of the enzyme. nNOS protein levels are also dynamically regulated by changes in gene transcription, and this affords long-lasting changes in tissue NO levels. While NO normally functions as a physiological neuronal mediator, excess production of NO mediates brain injury. Overactivation of glutamate receptors associated with cerebral ischemia and other excitotoxic processes results in massive release of NO. As a free radical, NO is inherently reactive and mediates cellular toxicity by damaging critical metabolic enzymes and by reacting with superoxide to form an even more potent oxidant, peroxynitrite. Through these mechanisms, NO appears to play a major role in the pathophysiology of stroke, Parkinson's disease, Huntington's disease and amyotrophic lateral sclerosis.
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PMID:Endogenous nitric oxide synthesis: biological functions and pathophysiology. 1063 Jun 82

The review focuses on the clinical diagnostic utility of transcranial magnetic stimulation (TMS). The central motor conduction time (CMCT) is a sensitive method to detect myelopathy and abnormalities may be detected in the absence of radiological changes. CMCT may also detect upper motor neuron involvement in amyotrophic lateral sclerosis. The diagnostic sensitivity may be increased by using the triple stimulation technique (TST), by combining several parameters such as CMCT, motor threshold and silent period, or by studying multiple muscles. In peripheral facial nerve palsies, TMS may be used to localize the site of nerve dysfunction and clarify the etiology. TMS measures also have high sensitivity in detecting lesions in multiple sclerosis and abnormalities in CMCT or TST may correlate with motor impairment and disability. Cerebellar stimulation may detect lesions in the cerebellum or the cerebellar output pathway. TMS may detect upper motor neuron involvement in patients with atypical parkinsonism and equivocal signs. The ipsilateral silent period that measures transcallosal inhibition is a potential method to distinguish between different parkinsonian syndromes. Short latency afferent inhibition (SAI), which is related to central cholinergic transmission, is reduced in Alzheimer's disease. Changes in SAI following administration of cholinesterase inhibitor may be related to the long-term efficacy of this treatment. The results of MEP measurement in the first week after stroke correlate with functional outcome. We conclude that TMS measures have demonstrated diagnostic utility in myelopathy, amyotrophic lateral sclerosis and multiple sclerosis. TMS measures have potential clinical utility in cerebellar disease, dementia, facial nerve disorders, movement disorders, stroke, epilepsy, migraine and chronic pain.
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PMID:The clinical diagnostic utility of transcranial magnetic stimulation: report of an IFCN committee. 1806 9

The aim of this study was to investigate a possible link between cellular telephone use and risks for various diseases of the central nervous system (CNS). We conducted a large nationwide cohort study of 420 095 persons whose first cellular telephone subscription was between 1982 and 1995, who were followed through 2003 for hospital contacts for a diagnosis of a CNS disorder. Standardized hospitalization ratios (SHRs) were derived by dividing the number of hospital contacts in the cohort by the number expected in the Danish population. The SHRs were increased by 10-20% for migraine and vertigo. No associations were seen for amyotrophic lateral sclerosis, multiple sclerosis or epilepsy in women. SHRs decreased by 30-40% were observed for dementia (Alzheimer disease, vascular and other dementia), Parkinson disease and epilepsy among men. In analyses restricted to subscribers of 10 years or more, the SHRs remained similarly increased for migraine and vertigo and similarly decreased for Alzheimer disease and other dementia and epilepsy (in men); the other SHRs were close to unity. In conclusion, the excesses of migraine and vertigo observed in this first study on cellular telephones and CNS disease deserve further attention. An interplay of a healthy cohort effect and reversed causation bias due to prodromal symptoms impedes detection of a possible association with dementia and Parkinson disease. Identification of the factors that result in a healthy cohort might be of interest for elucidation of the etiology of these diseases.
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PMID:Risks for central nervous system diseases among mobile phone subscribers: a Danish retrospective cohort study. 1919 93

The neurology field has been greatly improved in 2008. The therapeutic window of intravenous thrombolysis for acute ischemic stoke is extended to 4 h 30. New studies show that the clinical progression of Parkinson's disease might be slowed by some medication. Deep brain stimulation may be beneficial early in the course of the disease. Tysabri and Fingolimod in multiple sclerosis are discussed. The pharmacopoeia for epilepsy is in constant development with new products recently released in Switzerland. CGRP receptor antagonists are about to be launched as a promising acute migraine treatment. The pharmacological approach in amyotrophic lateral sclerosis patients might be improved according to research results.
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PMID:[Therapeutic advances in neurology]. 1921 24

Could the novel fulfil a role in the neurologist's daily clinical practice? A good book or story can indeed make the neurology patient's experiences clearer, both for the patient and for the doctor. The novel is no longer just an end-product or form of art, but a method for better understanding disease and experiences. Several neurological examples are given, such as migraine, Parkinson's disease and ALS. The narrative opens a perspective on disease 'from the inside'. Neurology lends itself to a narrative approach, because it is primarily a field to which the patient's story is central.
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PMID:[Narrative neurology: access to the patient's experiences]. 1978

In a large nationwide cohort study including 420,095 persons whose first mobile phone subscription was between 1982 and 1995, who were followed through 2003 for hospital contacts for a diagnosis of a central nervous system disease, we observed 10-20% more hospital contacts than expected for migraine and vertigo and 30-40% less hospital contacts than expected for dementia (Alzheimer's disease, vascular and other dementia), Parkinson's disease and epilepsy among men. No associations were seen for amyotrophic lateral sclerosis, multiple sclerosis or epilepsy in women.
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PMID:[Mobile phone use as a risk factor for affection of the central nerve system--secondary publication]. 1991 95

Purinergic neurotransmission, involving release of ATP as an efferent neurotransmitter was first proposed in 1972. Later, ATP was recognised as a cotransmitter in peripheral nerves and more recently as a cotransmitter with glutamate, noradrenaline, GABA, acetylcholine and dopamine in the CNS. Both ATP, together with some of its enzymatic breakdown products (ADP and adenosine) and uracil nucleotides are now recognised to act via P2X ion channels and P1 and P2Y G protein-coupled receptors, which are widely expressed in the brain. They mediate both fast signalling in neurotransmission and neuromodulation and long-term (trophic) signalling in cell proliferation, differentiation and death. Purinergic signalling is prominent in neurone-glial cell interactions. In this review we discuss first the evidence implicating purinergic signalling in normal behaviour, including learning and memory, sleep and arousal, locomotor activity and exploration, feeding behaviour and mood and motivation. Then we turn to the involvement of P1 and P2 receptors in pathological brain function; firstly in trauma, ischemia and stroke, then in neurodegenerative diseases, including Alzheimer's, Parkinson's and Huntington's, as well as multiple sclerosis and amyotrophic lateral sclerosis. Finally, the role of purinergic signalling in neuropsychiatric diseases (including schizophrenia), epilepsy, migraine, cognitive impairment and neuropathic pain will be considered.
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PMID:Purinergic signalling: from normal behaviour to pathological brain function. 2190 61


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