UMLS:C0015672 - FACTA Search

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Query: UMLS:C0015672 (fatigue)
51,768 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

The measurement of the adequacy of dialysis in continuous ambulatory peritoneal dialysis (CAPD) is controversial. The use of weekly total creatinine clearance (TCC) has been recommended, but not validated. We analyzed data from our recent urea kinetics in a CAPD study to investigate TCC and its relationship to patient outcomes. TCC was measured over 24 hours by adding residual renal and peritoneal creatinine clearance, correcting for 1.73 m2 surface area and converting to a weekly value. Seventy-six patients had 218 measurements, on starting CAPD and then at 6-month intervals, with mean follow-up of 20 months (range 1-57 months). The mean TCC was 73.62 +/- 32.11 L/week. Due mainly to the loss of residual renal function, the TCC decreased with time (r = -0.40, p < 0.0001), from 88.65 L/week initially to 66.11 at one year, 59.84 at two years, and 50.47 at three years. Dialysate-to-plasma creatinine concentration ratios (D/P Cr) increased with time (r = 0.28, p < 0.0001) from 0.62 initially to 0.66 at one year and 0.73 at two years. The TCC correlated significantly with serum levels of creatinine (r = -0.46, p < 0.0001), urea (r = -0.21, p < 0.001), potassium (r = 0.14, p < 0.05), phosphate (r = 0.25, p < 0.001), and hemoglobin (r = 0.16, p < 0.01), but not with serum albumin or with clinical outcomes including technique failure, hospital days, transfusions, peritonitis rate, nerve conduction velocity, or subjective indices of well-being, except for a weak correlation with the fatigue index (r = 0.19, p < 0.05).(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:Is total creatinine clearance a good predictor of clinical outcomes in continuous ambulatory peritoneal dialysis? 142 Apr 89

Work conditions in the synthetic detergents production according to the new technology created by Sumitomo (Japan) were evaluated from hygienic point of view. The main unfavourable factor is the contamination of air by initial products (aerosols of sodium tripoli phosphate, carboxy methylcellulose, optic bleacher, enzymes et al.) and dust of the final product. Sulphur oxides appear in the air of the sulphating unit. Levels of noise and vibration are surpassed. At the same time the studied technology is more profitable than the current ones. Parameters of the cardiovascular, central nervous and neuromuscular systems do not indicate the physical and neuropsychic fatigue.
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PMID:[Industrial hygiene in the modern manufacture of synthetic detergents]. 142 39

The purpose of respiratory muscle training for patients with chronic respiratory failure is to improve exercise performance during daily life. Firstly, to confirm the clinical effect on respiratory muscle training, the abdominal pad method for inspiratory muscle training and abdominal pad method with expiratory resistor for both inspiratory and expiratory muscle training were simultaneously performed. Both methods were clinically useful to increase respiratory muscle power and to subjectively decrease dyspnea. Ventilatory pattern analyzed by the Konno-Mead (K-M) diagram during exercise also showed their effectiveness. Secondly, the influence of hypoxemia and hypophosphatemia, which are important factors producing respiratory muscle fatigue, was investigated in a patient with respiratory failure. (1) O2 inhalation in patients receiving home oxygen therapy was effective in terms of the endurance time and ventilatory pattern analyzed by the K-M diagram during exercise. (2) A case of hypercapnea due to hypoventilation caused by respiratory muscle fatigue developed reduced PaCO2 following correction of serum phosphate level, suggesting that hypophosphatemia is an important clinical factor producing respiratory muscle fatigue.
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PMID:[Clinical study on respiratory muscle training for chronic respiratory failure]. 143 18

All exercise draws first on intramuscular stores of ATP and creatine phosphate; initially these are replenished by anaerobic glycolysis. The lactic acid produced contributes to the rapid development of fatigue in high intensity exercise. Aerobic metabolism (at first mainly of glycogen, later increasingly of fat) is the principal route of ATP resynthesis in activities lasting longer than 2 min, but can only maintain work-rates about 1/4 of those possible in very brief bursts. Blood lactate rises at the higher aerobic work rates. 'Lactate threshold' (LT: approximately 2 mmol/l) is almost exactly the speed at which endurance races are won, and close to those apparently providing optimal aerobic training. This training, predominantly of muscle aerobic capacity, elevates LT more than maximum oxygen consumption. LT is not now thought to indicate oxygen-deprivation, but intracellular adjustments driving oxidative phosphorylation faster. Ventilatory breakpoints, formerly considered to indicate LT, correlate more closely with the accumulation of potassium than lactate.
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PMID:Aerobic exercise, anaerobic exercise and the lactate threshold. 145 Aug 85

The development of fatigue was investigated by electrical stimulation in 15 domestic pigs (1 yr old, 70-90 kg body weight) and seven adult dogs (3 yr old, 45 kg body weight). After anaesthesia, silver electrodes were implanted in the anterior and posterior parts of the right masseter muscles. The contralateral muscle was used as control. The bite force was measured. Muscle biopsies were obtained from the anterior, central and posterior parts, and were immediately frozen in liquid nitrogen. A fluorometrical analysis by enzymatic methods for glycogen, glucose, creatine phosphate, NAD, NADH, lactate and pyruvate was made. Blood flow was measured by 133Xe wash-out; oxygen consumption was monitored with an oxygen electrode. The porcine masseter was continuously stimulated for 60 min (100 V, 4 Hz and 2 ms). The canine masseter was intermittently stimulated (100 V, 20 Hz and 2 ms). The contraction was repeated four times, with a 10-min rest between. The porcine masseter could sustain longer endurance times than the canine masseter, which was easily fatigued. A marked substrate depletion was evident. The precontractional contents of glycogen, glucose and creatine phosphate were reduced. Lactate accumulation was evident (2-4 times more in the porcine and 4-8 times more in the canine masseter). The NADH concentration increased and the NAD content decreased. Blood-flow impairment (80% reduction in the dog, 60% in the pig) was observed. After the contraction phase, there was a hyperaemia (58% elevation of blood flow in the pig masseter, 45% in the canine). The oxygen tension followed in magnitude and time the blood-flow changes. These circulatory variables returned to normal after recovery. The high degree of substrate depletion, blood-flow impairment and a simultaneous decrease in oxygen transport to the contracted muscle, in combination with a prominent lactate accumulation, may induce a decrease in bite-force production.
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PMID:Bite-force development, metabolic and circulatory response to electrical stimulation in the canine and porcine masseter muscles. 147 60

The purpose of this study was to compare the intramuscular and the intravascular events in relation to energy metabolism during progressive arm exercise. Twelve healthy untrained Japanese males participated in this study as subjects. They performed wrist flexion in a ramp incremental load of 0.14 W/min until exhaustion. 31P-MR spectra were obtained from wrist flexor muscle before and throughout the exercise. Venous blood was also sampled from antecubital vein with one minute interval during the exercise, and a change in plasma lactate concentration (La) was observed. Intracellular pH (pH) was calculated from a chemical shift between phosphocreatine (PCr) and inorganic phosphate (Pi) of the 31P-MR spectra. Change in pH showed a threshold behavior during exercise. Threshold points at decline in pH (pHT), increase in Pi/PCr (PT), and increase in La (LT) were determined by piecewise linear regression analysis of minutes-by-minutes data. Mean values of pHT, PT and LT were 43.0, 42.5, and 24.8% of maximal work rate, respectively. LT was significantly smaller than pHT and PT. This result suggests that lactic acidosis has already existed when pH is kept at resting level, and pHT reflects the capacity of remaining intracellular biochemical homeostasis, which might be one of the physiological indices of muscle fatigue.
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PMID:Thresholds for decrease in intracellular pH and increase in blood lactate during progressive exercise: 31P-MRS study. 147 66

In isometric contraction-induced fatigue force loss has been related to mostly myoelectrical or intramuscular events. However, some factors potentially involved may interfere at more than one site in these events and it has proven difficult to distinguish between those influences. The study of the relationships between force generating capacity, the metabolic state of a muscle and its myoelectrical properties may therefore help broaden our understanding of the fatigue process. In order to investigate these relationships, we have evaluated changes in force-generating capacity, NMR-determined metabolic variables, and myoelectrical activity, as measured from surface EMG, simultaneously in brachial biceps muscle of healthy subjects, during different types of fatiguing isometric exercise and during recovery. Factors studied include intramuscular pH, inorganic phosphate and its diprotonated form concentrations, root-mean square and mean power frequency of the EMG power spectrum, and neuromuscular efficiency index. Results show that different mechanisms are likely to contribute to force loss in fatiguing muscle and during different phases of recovery from fatigue. Indeed, relationships between variables from the three groups differed according to exercise protocol as well as in fatiguing and recovering muscle.
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PMID:Myoelectrical and metabolic changes in muscle fatigue. 148 58

Effects of an infusion of Na2HPO4 on diaphragm strength, endurance, and magnitude of recovery were evaluated in in situ canine diaphragm strips. Results showed no effect on maximal isometric tetanic tension. Twitch tension and tension in the low- (10-Hz) frequency range were significantly increased (P less than 0.01). Time to fatigue (endurance) increased by 38 +/- 4.5% in the group that received phosphorus compared with its control and decreased by 18.5 +/- 2.5% in the group that received dextrose compared with its control (P less than 0.005). Recovery from fatigue was also significantly improved after the phosphorus infusion. Serum ATP and 2,3-diphosphoglycerate levels were unchanged throughout the experiment. The results of this study support the notion that hyperphosphatemia improves diaphragmatic endurance and recovery from fatigue. The mechanisms involved may in part be due to the phosphate-buffering effects, which limit the extent of the muscle intracellular acidosis produced with fatigue.
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PMID:Effects of hyperphosphatemia on diaphragmatic strength and endurance. 150 3

Transformation of the latissimus dorsi (LD) muscle from a fast-twitch, fatigue-prone to a fatigue-resistant ("heart-like") muscle, necessary to allow its application in cardiac assist devices, can be induced by chronic electrical stimulation. In adult dogs we studied the nature and time course of myofibrillar and metabolic adaptations in the LD muscle when exposed in situ to 24 weeks of continuous electrical stimulation. In addition, the metabolic properties of the stimulated muscle were compared with those of canine cardiac muscle. The proportion of immunohistochemically identified type I fibres increased on stimulation from 28% to 80%, while that of type II fibres decreased from 69% to 16%. Fibres of intermediate type (IIC and IC) appeared transiently; the highest levels were found between 4 and 8 weeks of stimulation. The activities of fructose-6-phosphate kinase and lactate dehydrogenase (LDH), which before stimulation were similar to those in heart, decreased to 18% and 34% of their initial values respectively. However, the LDH isozyme pattern changed towards that typical for cardiac muscle. These changes indicate a markedly decreased flux capacity through the glycolytic pathway which, however, is directed more towards the oxidative conversion of substrates. The mitochondrial capacity (maximal palmitate oxidation and pyruvate dehydrogenase complex activities) of the muscle did not change and remained at a level less than half of that of cardiac ventricular muscle. Contents of adenine nucleotides and endogenous substrates were maintained during stimulation. No further changes in the observed adaptations occurred after week 12 of stimulation.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:Adaptation of energy metabolism of canine latissimus dorsi muscle in response to chronic electrical stimulation. 155 54

Fludarabine phosphate is the 2-fluoro, 5'-monophosphate derivative of vidarabine (ara-A) with the advantages of resistance to deamination by adenosine deaminase (ADA) and improved solubility. The mechanism of cytotoxic action of the compound appears to involve metabolic conversion to the active triphosphate. Fludarabine phosphate has substantial activity against lymphoid malignancies, particularly chronic lymphocytic leukemia (CLL) and low-grade non-Hodgkin's lymphoma (NHL). Its single-agent activity in CLL appears at least comparable to those of other conventional combination regimens. Its activity in Hodgkin's disease, mycosis fungoides, and macroglobulinemia, although suggestive, needs to be further defined and clinical trials are warranted in hairy cell leukemia, prolymphocytic leukemia, and previously untreated myeloma. The compound does not appear active against most common solid tumors. Early clinical trials indicated significant myelosuppression and the potential for severe neurotoxicity. Toxicity on the currently used low-dose schedules includes transient and reversible myelosuppression, nausea and vomiting, diarrhea, somnolence/fatigue, and elevations of liver enzymes and/or serum creatinine. Possible pulmonary toxicity has been suggested in several patients. The currently used low-doses of fludarabine phosphate, even with repeated administration, are well tolerated and appear safe with a negligible risk for severe neurotoxicity. Based on its single-agent activity and tolerability, the Food and Drug Administration recently granted group C designation of the drug for the treatment of patients with refractory CLL outside the clinical trials setting. The use of fludarabine phosphate in combination regimens and its impact on the natural history of the lymphoid malignancies is yet to be determined. Fludarabine phosphate may well occupy a pivotal role in the management of CLL and low-grade NHL.
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PMID:Fludarabine phosphate: a synthetic purine antimetabolite with significant activity against lymphoid malignancies. 170 43

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