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Query: UMLS:C0024591 (
malignant hyperthermia
)
2,353
document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)
Fourteen cases in which hyperpyrexia, akinesia, mutism, extrapyramidal symptoms and severe, diverse autonomic symptoms developed in the course of neuroleptic drug therapy are reported as the malignant neuroleptic syndrome, with analysis and discussion of the clinical features and pathogenic factors. Possible factors contributing to the danger of evoking this syndrome are: 1. Physical exhaustion associated with
dehydration
, and 2. Parenteral administration of neuroleptic agents, especially of the incisive type. Symptomatologic similarity of the syndrome to the condition known as
malignant hyperthermia
during anesthesia is also discussed.
...
PMID:Malignant neuroleptic syndrome--its present status in Japan and clinical problems. 60 59
1. Neuroleptic drugs (antipsychotics) produce numerous side effects which include serious extrapyramidal symptoms consisting of akathisia, dystonia, neuroleptic malignant syndrome, parkinsonian reactions such as postural abnormality, tremor, akinesia or bradykinesia, rigidity, and tardive dyskinesia. 2. Among the complications of neuroleptic chemotherapy, the most serious and potentially fatal complication is malignant syndrome, which is characterized by extreme hyperthermia, "lead pipe" skeletal muscle rigidity causing dyspnea, dysphagia, and rhabdomyolysis, autonomic instability, fluctuating consciousness, leukocytosis, and elevated creatine phosphokinase. 3. Neuroleptic malignant syndrome should be differentiated from
malignant hyperthermia
, lethal catatonia, and other pathological states producing some of these same symptoms. 4. In addition to neuroleptics, malignant syndrome has been caused by thymoleptics (antidepressants), metoclopramide (antiemetic), metoclopramide combined with cimetidine, tetrabenazine, overdosage of benzodiazepine, phenelzine, dothiepin and alcohol, and amphetamine. 5. Factors leading to and/or facilitating the emergence of neuroleptic malignant syndromes are reportedly organic brain syndrome,
dehydration
, exhaustion, external heat load, excessive sympathetic discharge, use of long acting neuroleptics, high doses of neuroleptics, rapid dose titration with neuroleptics, abrupt discontinuation of antiparkinsonism agents, and concurrent lithium therapy. 6. Although, the pathogenesis of neuroleptic malignant syndrome is not understood completely, a blockade of dopaminergic receptors in the hypothalamus, spinal cord and striatum, an alteration of dopaminergic-serotonergic transmission in the body, an enhanced synthesis and action of prostaglandin E1 and E2, and a modification of calcium-mediated signal transduction in the body have been suggested. 7. The treatment of malignant syndrome includes immediate withdrawal of neuroleptic drugs, i.v. infusion of dantrolene, and oral administration of bromocriptine; or alternatively i.v. infusion of dantrolene and the combination of levodopa-carbidopa. 8. Other measures to enhance the therapeutic effectiveness of the aforementioned regimens are to include the use of anticholinergic drugs such as benztropine to enhance the effectiveness of bromocriptine, of lorazepam if catatonic symptoms persist, or of electroconvulsive therapy (ECT) if psychotic symptoms persist. 9. These treatments, however, must be "active" rather than "passive", in order to avert fatalities and/or unfortunate sequelae from this iatrogenic and incompletely understood disease.
...
PMID:Pathogenesis and treatment of neuroleptic malignant syndrome. 197 19
Striated musculature is considered unusually tolerant to all kinds of injuries, and rhabdomyolysis associated with drug overdose or chronic drug intake is a rare event. This may be because striated musculature, in contrast to other tissues such as liver and kidney, shows little affinity for most drugs. Several different types of drug-induced rhabdomyolysis may be distinguished, and the clinical features of the condition may vary widely, from moderate myalgia to involvement of groups of muscles to involvement of the total skeletal musculature. In clinically asymptomatic rhabdomyolysis, early diagnosis is only made if routine laboratory tests include determination of serum creatine kinase. Determination of myoglobin in serum and urine is more sensitive and allows earlier diagnosis of muscle necrosis. Myoglobinaemia may lead to toxin-induced tubular necrosis, and impairment of renal function or even acute renal failure. About 10% of all cases of acute renal failure are due to rhabdomyolysis. Fulminant rhabdomyolysis may be associated with excessive hyperkalaemia and hypocalcaemia which may induce further life-threatening complications. Therefore, early diagnosis of rhabdomyolysis is most important for prevention of its potentially life-threatening sequelae. Therapy of rhabdomyolysis consists of supportive and specific measures. Early diagnosis may help to prevent life-threatening sequelae like acute renal failure, electrolyte imbalance and shock. Withdrawal of the incriminated drug or detoxification in drug overdose should be followed by supportive measures including infusion therapy and correction of
dehydration
and electrolyte imbalances. Forced diuresis with sodium bicarbonate may protect the kidney function from acidosis and precipitation of myoglobin in tubules. Elimination of myoglobin from plasma may be enhanced by plasmapheresis. In patients with acute renal failure, haemodialysis is necessary. In
malignant hyperthermia
, immediate infusion of dantrolene sodium is required. This drug also seems to have a beneficial effect in neuroleptic malignant syndrome. The repair mechanisms of striated musculature function extremely well. The prognosis of muscular atrophy after the acute stage of rhabdomyolysis is excellent. The same is true for the prognosis of acute renal failure. However, the extent of complications or survival of the acute stage of rhabdomyolysis strongly depend on early diagnosis and start of adequate therapy.
...
PMID:Clinical features, pathogenesis and management of drug-induced rhabdomyolysis. 265 42
Hyperglycemic hyperosmolar nonketotic syndrome (HHNS) was infrequently diagnosed till recently. Now it is being diagnosed with increasing frequency in obese children with type 2 diabetes mellitus (T2 DM) and its incidence is likely to go up, given global increase in incidence of childhood obesity, increased insulin resistance, and T2 DM. The syndrome is characterized by severe hyperglycemia, a marked increase in serum osmolality and
dehydration
without accumulation of beta -hydroxybutyric or acetoacetic ketoacids. Significant ketogenesis is restrained by the ability of the pancreas to secrete small amount of insulin. Prolonged phase of osmotic diuresis leads to severe depletion of body water, which excees that of sodium, resulting in hypertonic
dehydration
. These children, usually obese adolescents with T2 DM, present with signs of severe
dehydration
and depressed mental status but continue to have increased rather than decreased urine output and are at increased risk of developing rhabdomyolysis and
malignant hyperthermia
. Emergency treatment is directed at restoration of the intravascular volume, followed by correction of deficits of fluid and electrolyte (Na+, K+, Ca++, Mg++, PO4++), hyperglycemia and serum hyperosmolarity, and a thorough search for conditions that may lead to this metabolic decompensation and their treatment. Use of iso-osomolar isotonic fluid (0.9% saline) until hemodynamic stabilization initially, followed by 0.45% saline with insulin infusion at the rate of 0.1 units/kg/hour, addition of 5% dextrose in fluids and reduction of insulin infusion once the blood glucose is 250 to 300 mg/dl is generally recommended. However, evidence-based guidelines about composition and tonicity of fluids and electrolyte solutions for early resuscitation and rehydration, the rate of infusion-rapid vs slow, and insulin dose-low vs normal, in treatment of HHNS in children are awaited. Careful monitoring of glucose levels and ensuring adequate hydration in patients 'at risk' of HHNS, including those receiving medications that interfere with the secretion or effectiveness of insulin should decrease the risk of HHNS.
...
PMID:Hyperglycemic hyperosmolar nonketotic syndrome. 1644 62
