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Query: UMLS:C0024591 (
malignant hyperthermia
)
2,353
document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)
What do epilepsy,
migraine headache
, deafness, episodic ataxia, periodic paralysis,
malignant hyperthermia
, and generalized myotonia have in common? These human neurological disorders can be caused by mutations in genes for ion channels. Many of the channel diseases are "paroxysmal disorders" whose principal symptoms occur intermittently in individuals who otherwise may be healthy and active. Some of the ion channels that cause human neurological disease are old acquaintances previously cloned and extensively studied by channel specialists. In other cases, however, disease-gene hunts have led the way to the identification of new channel genes. Progress in the study of ion channels has made it possible to analyze the effects of human neurological disease-causing channel mutations at the level of the single channel, the subcellular domain, the neuronal network, and the behaving organism.
...
PMID:Ion channel genes and human neurological disease: recent progress, prospects, and challenges. 1022 Mar 66
Rapid progress in the complementary fields of molecular genetics and cellular electrophysiology has led to a better understanding of many disorders which are caused by ion channel dysfunction. These channelopathies may manifest in a multitude of ways depending on the tissue specificity of the channel that is affected. Several important general medical conditions are now known to be channelopathies but the neurological members of this family are amongst the best characterized. Over recent years, ion channel dysfunction in skeletal muscle in particular has emerged as a paradigm for understanding neurological ion channel disorders. This review concentrates mainly on the diseases caused by dysfunction of the voltage-gated ion channels. We initially focus on the skeletal muscle channelopathies (the periodic paralyses,
malignant hyperthermia
, paramyotonia congenita and myotonia congenita). The central nervous system channelopathies are then explored, with particular reference to the advances which have implications for understanding the mechanisms of common neurological disorders such as epilepsy and
migraine
. Looking towards the new millennium, DNA-based diagnosis will become a realistic proposition for most neurological channelopathies. Furthermore, it seems likely that new therapies will be designed based on genotype and mode of ion channel dysfunction.
...
PMID:Neurological channelopathies: diagnosis and therapy in the new millennium. 1068 Aug 55
Based on the gene-related function and molecular structure of various receptors, neurological receptor diseases were reviewed from both the immunologic and genetic perspectives. The nicotinic acetyl-choline receptor (AChR), ryanodine receptor (RyR), omega-conotoxin receptor (P/Q-type voltage-gated calcium channel), dihydropyridine receptor (L-type voltage gated calcium channel), and androgen receptor have been found to be affected by autoantibodies and/or genetic anomalies. They reflect on various neurological diseases such as myasthenia gravis, congenital myasthenic syndrome,
malignant hyperthermia
and central core disease, paraneoplastic myasthenic syndrome, hereditary
migraine
and ataxias, hypokalemic periodic paralysis, and bulbospinal muscular atrophy. The interaction of calcitonin gene-related peptide with its receptor tends to compensate the dysfunction caused by antibodies to AChR and RyR. One should look for cancers or genetic disorders in the case of the receptor disease implicated in calcium channel function. Recent advances in search for the etiology of these diseases from the standpoints of immunology and genetics have opened an avenue in understanding the functional structure of receptors and the molecular sites responsible for receptor diseases.
...
PMID:[Receptor diseases in the field of neurology]. 1089 86
1. The conventional approach to understanding the structure and properties of ion channels has been to use physiological characterization. 2. Purification and molecular cloning of ion channel genes has enabled more detailed structure-function analyses to be undertaken. 3. An alternative approach to the identification of genes of pathophysiological importance has been the use of genetic linkage approaches and positional cloning or positional candidate analysis of ion channel genes. 4. Using genetic approaches, mutations have been described that cause inherited neurological disorders of neurons (e.g. epilepsy,
migraine
, deafness, ataxia and startle disease), skeletal muscle (myotonia,
malignant hyperthermia
, periodic paralysis and myasthenia) and cardiac muscle (long QT syndrome and ventricular fibrillation). 5. For each disease, gene structure-function analyses of the mutant alleles have provided further insights into the biology of ion channels. 6. The present brief review examines the methods used in genetic linkage studies and positional cloning of disease genes. Understanding how ion channel gene mutations give rise to dysfunctional channels will be important in defining and treating the episodic and chronic channelopathies.
...
PMID:Genetics, an alternative way to discover, characterize and understand ion channels. 1115 44
Several neurological diseases-including neuromuscular disorders, movement disorders,
migraine
, and epilepsy-are caused by inherited mutations of ion channels. The list of these "channelopathies" is expanding rapidly, as is the phenotypic range associated with each channel. At present the best understood channelopathies are those that affect muscle-fibre excitability. These channelopathies produce a range of disorders which include: periodic paralysis, myotonias,
malignant hyperthermia
, and congenital myasthenic syndromes. By contrast, the mechanisms of diseases caused by mutations of ion channels that are expressed in neurons are less well understood. However, as for the muscle channelopathies, a striking feature is that many neuronal channelopathies cause paroxysmal symptoms. This review summarises the clinical features of the known neurological channelopathies, within the context of the functions of the individual ion channels.
...
PMID:Neurological disorders caused by inherited ion-channel mutations. 1284 84
Hemiplegic migraine (HM) is a rare variety of
migraine
with aura characterized by the presence of a motor weakness during the aura. Hemiplegic migraine has two main forms according to the familial history: patients with at least one first- or second-degree relative who has aura including motor weakness have familial hemiplegic migraine (FHM); patients without such familial history have sporadic hemiplegic migraine (SHM). The prevalence of HM is one in 10,000 with FHM and SHM being equally frequent. Typical HM attacks include a motor weakness that is always associated with other aura symptoms, the most frequent being sensory, visual and speech disorders. In addition, basilar-type symptoms occur in up to 70% of the patients. Severe attacks may occur in FHM as well as in SHM with prolonged hemiplegia, confusion, coma, fever and seizures. The clinical spectrum also includes permanent cerebellar signs (nystagmus, ataxia, dysarthria) and less frequently various types of seizures and intellectual deficiency. FHM is the only variety of the autosomal dominant
migraine
and all three know genes encode ion-transporters. A genetic diagnosis is now possible by screening the three known genes involved in FHM (CACNA1A, ATP1A2 and SCNA1). Prognosis is usually good. Treatment is similar to approaches used in other varieties of
migraine
with aura, excepted for triptans that are contraindicated in MHF/
MHS
. Based on new pathophysiological insight, preventive treatments by various antiepileptic agents seem promising.
...
PMID:[Familial and sporadic hemiplegic migraine]. 1840 71
