UMLS:C0235394 - FACTA Search

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Query: UMLS:C0235394 (wasting)
8,040 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Corticosteroid myopathy was studied in young, mature New Zealand white rabbits given daily injections of betamethasone (0.3 mg/kg body weight/day) for two weeks. Control rabbits were pair-fed and received saline injections. Bethamethasone treatment caused significant wasting of type 2 gluteus medius and psoas muscles but did not cause any atrophy of type 1 soleus and gluteus minimus muscles. The Mg2+- and Ca2+-activated myofibrillar ATPase activities of the corticosteroid-treated rabbits did not differ from controls despite a 30% reduction in muscle wet weight and pronounced reduction in cross-sectional area of fibers. SDS-polyacrylamide gel electrophoresis profiles of myofibrillar proteins did not differ quantitatively or qualitatively between experimental and control rabbits. Studies of net muscle protein degradation (using 3H-leucine) in betamethasone-treated and control rabbits indicate that both type 1 and type 2 muscle fiber proteins are degraded several times faster in the corticosteroid-treated group. This suggests that a compensatory mechanism exists for those type 1 and mixed fiber type muscles which have increased degradation but do not undergo wasting.
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PMID:Experimental corticosteroid myopathy: effect on myofibrillar ATPase activity and protein degradation. 15 6

The heart is not spared from the catabolic effects of undernutrition, but is subject to the same degree of weight loss as skeletal muscle. Pumping performance, however, is not reduced in proportion to myocardial wasting and thus functional protection prevents failure of the hypotrophic heart. In animal experiments, no major qualitative changes in myocardial composition apart from reduced myosin ATPase activity have been found. This reduction in ATPase activity might be associated with down-regulation of thyroid hormones and the development of insulin resistance and serve as an energy saving adaptation. Increased cardiac sensitivity to adrenergic stimulation may also constitute a means to increase heart performance in situations with augmented circulatory demands. On the other hand, increased sensitivity and maximum response to adrenergic stimulation might render the heart more susceptible to arrhythmia, and thus explain sudden unexpected death following rapid weight loss.
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PMID:Cardiac effects of caloric restriction-mechanisms and potential hazards. 132 44

Pseudohypoaldosteronism (PHA) is a disease characterized by hyponatremia, hypotension, and dehydratation, despite the presence of hyperreninemic hyperaldosteronism. The membrane-bound Na,K ATPase activity and the transmembrane Na and K transport systems have been studied in vitro in red blood cells of two subjects, son and mother, affected by pseudohypoaldosteronism with different degrees of clinical involvement. Both parameters were significantly altered suggesting that the refractory response to mineralocorticoids is detectable, not only in kidneys and salivary and sweat glands, but also in red blood cells. Since pseudohypoaldosteronism, in its asymptomatic form, may be much more common than expected, we suggest the use of the tests described herein as a practical approach to the early diagnosis of pseudohypoaldosteronism in the investigation of sodium wasting syndromes.
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PMID:Erythrocyte transmembrane Na and K fluxes in pseudohypoaldosteronism. 133 41

Renal function differs in term infants from that in adults, with lower glomerular filtration rate (GFR) and reduced proximal tubular reabsorption of sodium (Na) and water: nevertheless, it is adequate for their needs. This is not true of very preterm infants in whom hyponatraemia is common. Animal studies have shown that Na+, K(+)-ATPase and the Na+/K+ exchanger are poorly expressed at birth with rapid postnatal rises. Cell receptors for hormones that influence tubular Na transport are less numerous in the premature infant than later in life: intracellular second messenger systems may also be immature. The low GFR is due to vasoconstriction and may be necessary to prevent water and electrolyte wasting due to tubular overload. The hyponatraemia of prematurity could, in principle, be due either to Na loss or water excess and can be prevented either by giving additional Na or by restricting water intake. Na supplementation causes relative volume expansion (VE), water restriction volume contraction (VC); this is demonstrated by the effect of the two approaches on weight gain and on the levels of vasoactive hormones in the blood. We argue that moderate VE is more physiological than VC, both in attempting to simulate intrauterine conditions and in consideration of the infant's nutritional needs. The much less common complication of hypernatraemia is usually due to abnormal water loss and should be prevented by increasing water intake appropriately. The above applies to well, preterm babies: sick preterm infants are much more variable in their Na and water requirements than well infants of comparable gestation and weight and each needs an individually tailored regimen based on frequent clinical assessment and laboratory measurement.
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PMID:Salt and the newborn kidney. 202 43

A case of mitochondrial encephalomyopathy with a partial cytochrome c oxidase deficiency was reported with special reference to electrophysiological studies. A 56-year-old man was readmitted to Himeji Central Hospital due to mental deterioration and character change. At the age of 44 when he was attacked by his first epileptic seizure, he was admitted to Himeji Central Hospital, where EEG abnormalities and cerebral atrophy were found. Anticonvulsants helped to relieve his generalized convulsions but the EEG abnormalities persisted. At age 46, he had the second generalized seizure, so he quit his job as a crane operator. His family began to notice deterioration of his intellectual function and hyperaggressive behavior. His daily activities, intellectual performance and mental condition gradually deteriorated (WAIS FIQ less than 60). Other clinical and laboratory findings are as follows: bilateral impaired hearing, no optic nerve atrophy, no disturbance of extra ocular muscle movements, mild wasting and weakness of his extremities, normal coordination and sensation, no myoclonus or other involuntary movements, normal laboratory data of serum creatinine kinase, lactate dehydrogenase and aldolase, and increased amount of lactate and pyruvate in serum and cerebrospinal fluid (CSF), no abnormal amino acids in urine. A biopsy specimen of right biceps brachii muscle revealed numerous ragged-red fibers in frozen sections stained by the Gomori trichrome method. These fibers did not react to a cytochrome c oxidase staining. An ATPase staining demonstrated an atrophy of type-2 fibers. An electron micrograph showed many mitochondria in the sarcoplasm but few paracrystalline inclusions. A biochemical analysis of the muscle biopsy also revealed a significant decrease in the cytochrome c oxidase activity.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:[A mitochondrial encephalomyopathy due to partial cytochrome c oxidase deficiency with giant evoked potentials--a case report]. 217 89

Loss of lean body mass occurs frequently in patients with acute or chronic renal failure, but the mechanism(s) causing this abnormality are unknown. Using animal models of experimental uremia, it was found that excess lactate formation in muscle is directly related to the rate of protein breakdown. This suggests that abnormal energy metabolism may be one mechanism for protein wasting. A second mechanism involves metabolic acidosis. Metabolic acidosis activates the catabolism of protein and amino acids in muscle of uremic rats independently of azotemia. Defects in sodium transport by Na,K-ATPase and the Na/K/Cl cotransport system suggest that intracellular ions including hydrogen may be abnormal. If this were the case, uremia would increase the susceptibility to the catabolic effect of metabolic acidosis.
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PMID:Protein and amino acid metabolism in uremia: influence of metabolic acidosis. 263 59

Erythrocyte sodium transport was evaluated by measurement of intracellular Na concentration (ICNa), 22Na efflux rate constant (NaERC) and 3H-ouabain binding (BMax) (reflecting the number of Na/K ATPase pump sites) in 9 children with Bartter's syndrome compared to controls (children and adults) and children with various forms of salt wasting disease. There were no differences between control children and adults. In untreated Bartter's syndrome ICNa was significantly increased with NaERC and BMax significantly decreased compared to findings in controls and patients with other salt wasting disease. On prostaglandin synthetase inhibitor (Indomethacin) therapy, ICNa decreased but remained higher than in controls, NaERC increased to normal values but BMax remained low. These data support the view that there is a widespread defect in membrane electrolyte transport in Bartter's syndrome but suggest that the benefit of indomethacin therapy is not manifest via an effect on Na/K ATPase.
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PMID:Erythrocyte sodium transport in Bartter's syndrome. 284 51

Fibre type differentiation was carried out on 20 biopsies from Duchenne Muscular Dystrophy (DMD) sufferers using the acid-preincubated reaction for myofibrillar ATPase. Fibres, classified as either type 1, type 2 or 2C, were counted and their minimum diameters (least fibre axis) measured. Particular attention was paid to the population of small fibres that becomes increasingly prominent with the increasing age of the patient. Type 1 fibres were always predominant in the fibre population as a whole. The numbers of type 2 fibres declined with the increasing age of the patients while the numbers of 2C fibres increased. All fibre types were represented in the population of small fibres and the ratio of the numbers of types 1:2:2C fibres was approximately 1:1:3. Ultrastructural examination of the small fibres showed them to be at varying stages of regeneration and differentiation. The continuous presence of regenerating fibres in DMD while the muscles are wasting implies that while regeneration can be initiated it becomes increasingly constrained or restricted as the disease progresses. The cause of this restriction and whether it is related to the basic genetic lesion is unknown. It is suggested that the accumulation of fibrous connective tissue interferes with growth, either directly, in the formation of pseudomyotendinous junctions, or indirectly, by reducing nutrient exchange with the vascular system.
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PMID:Histochemical fibre typing and ultrastructure of the small fibres in Duchenne muscular dystrophy. 293 70

Potassium output from the body is regulated by renal excretion, which takes place predominantly in the late distal and cortical collecting tubules. The accepted model for potassium secretion implies the accumulation of potassium into the cell by the activity of basolateral Na-K-ATPase and its exit through voltage-dependent conductive channels. The factors regulating renal potassium secretion are potassium intake, distal urinary flow, systemic acid-base equilibrium, aldosterone, antidiuretic hormone and, probably, epinephrine. Renal handling of potassium is best studied by the response to the acute administration of furosemide. This loop diuretic not only increases sodium and chloride excretion but also enhances potassium and hydrogen ion excretion and stimulates the renin-aldosterone axis. The term "renal tubular hyperkalaemia" refers to a tubular dysfunction where the hyperkalaemia is disproportionate to any reduction in glomerular filtration rate (GFR) and not due primarily or solely to aldosterone deficiency or to drugs impairing either mineralocorticoid action or tubular transport. The syndromes of renal tubular hyperkalaemia mainly observed in childhood are "chloride shunt" syndrome, hyporeninaemic hypoaldosteronism and primary or secondary pseudohypoaldosteronism. Differential diagnosis between these conditions is easily made if attention is paid to the level of GFR, presence of sodium wasting, activity of the renin-aldosterone axis and renal response to acute administration of furosemide.
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PMID:Renal tubular hyperkalaemia in childhood. 315 64

Myosin ATPase activity was fine-structurally examined in various skeletal muscle lesions including atrophy, degenerations, necrosis, "deltashaped subsarcolemmal lesion", and apparently normal fibers from seven patients of Duchenne muscular dystrophy (D M D). The enzyme activity was almost completely lost in the foci of necrosis, and more or less markedly diminished in various kinds of degenerations, while it was well preserved in the apparently normal and simply atrophic fibers. The results suggested that there were two different lesions in wasting of the skeletal muscles in D M D; necrotic process with degenerations in which myosin-ATPase activity was affected and simply atrophic process which had little influence on the enzyme activity. The former lesion might be related with direct or indirect damages such as proteolysis, while the latter seemed to be an expression of basically different process such as disuse or denervation, or a more mild expression basically of the same process ultimately resulting in necrosis.
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PMID:Fine structural histochemistry of myosin-ATPase activity in the skeletal muscles of Duchenne muscular dystrophy. 621 29

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