Gene/Protein
Disease
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Pivot Concepts:
Gene/Protein
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Target Concepts:
Gene/Protein
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Query: UMLS:C0024591 (
malignant hyperthermia
)
2,353
document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)
The frequency of HL-A8 in
myasthenia gravis
is markedly increased in women (60-80%) but not in men. The MLC determinant, LD-8a, is frequently associated with HL-A8. Of the 37 female MS patients, 15 were LD-8a positive (41%), whereas of the males only one of seven was LD-8a positive. The frequency of HL-A8 was 68% in women and 29% in men with the disease. We therefore conclude that the gene which is responsible for the increased susceptibility to
myasthenia gravis
in women and which is present in the
MHS
region, is more closely linked to the SD-2 than to the LD-1 locus.
...
PMID:HL-A8 and LD-8a in patients with myasthenia gravis. 5 59
Neuromuscular diseases raise a lot of anesthesia related problems. The first is the hitherto unknown disease discovered by an unexpected adverse reaction to anesthetics or/and muscle relaxants up to a life-threatening incident. A second problem is the probable, suspected or proven disposition to
malignant hyperthermia
in patients with other neuromuscular diseases. Furthermore, severe rhabdomyolysis can be induced in myopathic muscle by the application of succinylcholine alone or in combination with inhalational anesthetics resulting in hyperkalemia, myoglobinuria and CK-elevation, sometimes followed by cardiac arrest. Cardiomyopathy is a common feature in many neuromuscular diseases. All cardiodepressant agents must be avoided. Specific problems with muscle relaxants arise in
myasthenia gravis
and in the myotonias. In the later stages of severe neuromuscular diseases the main problem concerning anesthesia is respiratory failure. The individual risk of every patient has to be evaluated before anesthesia. Recommendations for the anesthetic management are given.
...
PMID:Anesthesia in neuromuscular diseases. 219 54
Children with neurological and neuromuscular diseases often present anesthetic problems in the perioperative period. The anesthetic technique can play a significant role in altering the state of the brain during neurosurgical procedures through effects on the cerebral circulation and metabolism. Pre-existing neuromuscular disease may also have specific anesthetic implications such as cardiorespiratory involvement (eg, myotonia dystrophica), the potential for drug interactions (eg,
myasthenia gravis
) or abnormal responses to commonly used drugs (eg,
malignant hyperthermia
). In this review, the perioperative anesthetic considerations in a number of common neurological and neuromuscular conditions in the pediatric patient are discussed.
...
PMID:Anesthesia for pediatric neurological and neuromuscular diseases. 329 98
Calcium signalling in cells is dependent on a communication between channels/ transporters in two membrane structures: the cell membrane and the membranes of endo- and sarcoplasmic reticula (ER/SR). In general, cytosolic Ca2+ can be raised by influx of calcium over the cell membrane through three types of channels: voltage-, receptor-, and store-operated channels (VOCs, ROCs and SOCs). This small Ca2+ influx is most often amplified by a Ca2+ release from the ER/SR through two types of channels: the IP3-receptor and the ryanodine receptor (RyR), which are huge proteins identified and cloned in recent years. We focus on the 'synaptic' connection between VOCs (L-type calcium channels) and RyRs of the SR in heart and skeletal muscle. Depolarization of the cell membrane (an action potential) opens the VOC and moves it in the membrane. One VOC triggers opening of a certain number of underlying RyRs that together release a quantum of calcium from the SR, a calcium spark. The communication between the VOC and RyRs is probably achieved primarily by a mechanical link in skeletal muscle (voltage-controlled calcium release), and by the small inward calcium flux through the VOC in the heart (calcium-induced calcium release, CICR). Conditions as different as heart failure,
myasthenia gravis
,
malignant hyperthermia
, and skeletal muscle fatigue, may be examples of deteriorated control or function of the RyR.
...
PMID:Intracellular calcium signalling in striated muscle cells. 939 86
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
Disorders of skeletal muscle and peripheral nervous system are collectively called neuromuscular disorders (NMD). Important for anesthesia is that these disorders show various symptoms and have a high risk during general anesthesia. Especially administration of succinylcholine and volatile anaesthetics may cause problems. Under special circumstances opioids, nondepolarising muscle relaxants and intravenous anaesthetics can interfere with this kind of disorder, too. Complications during and after anaesthesia may result in
malignant hyperthermia
,
malignant hyperthermia
-like reactions and primary or secondary changes relating to the underlying NMD. These include cardiac and respiratory problems, dysautonomia as well as hypothermia or hyperthermia. Thus the perioperative management must be determined individually to assure the best possible safety for each patient. Preoperative examination such as ECG, echocardiography, respiratory function test including arterial blood-gas analysis, x-ray of the thorax, neurological status, and extended serum chemistry (such as CK and myoglobin) needs to be done. For premedication no drugs suppressing respiratory function should be administered. Regional anesthesia should be used whenever possible, especially in patients with respiratory and cardiac problems. The dosage of all recommended drugs should be as low as possible. Volatile anaesthetics should not be administered in the majority of NMD and succinylcholine is contraindicated, with the exception of
myasthenia gravis
. Additionally to the usual intraoperative monitoring, the invasive measurement of blood pressure allows frequent blood-gas analysis. It is obligate to monitor neuromuscular function and body temperature. During recovery special attention should be paid to maintain normal body temperature and electrolytes and acid-base status. The discharge of the patient from the recovery area to the normal ward should be performed only after respiratory function is normalized.
...
PMID:[Anesthesia in neuromuscular disorders. Part 1: introduction]. 1186 84
