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Query: UMLS:C0392674 (
exhaustion
)
13,658
document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)
The paper reviews data in the literature as well as the authors' own investigations, performed during the last seven years, concerning the hemostatic balance in nephrotic patients. The obviously increased plasma levels of fibrinogen, fibronectin, fibrin-stabilizing factor XIII, clotting factors V and
VIII
, von Willebrand factor as well as the enhanced platelet aggregability of such patients, associated with a decreased plasma antithrombin III, are compatible with a thrombotic tendency. On the other hand the increased plasma protein C may provide a compensative antithrombotic mechanism. A rather complex behaviour of the fibrinolytic system was noted in the nephrotic syndrome. Actually the enhanced release of tissue plasminogen activator (t-PA) from the endothelia of nephrotic patients is accompanied by an accelerated lysis of dilute blood clots, although the inhibitors of fibrinolysis such as alpha 2-macroglobulin and alpha 2-antiplasmin are increased. Failure or
exhaustion
of the compensative antithrombotic mechanisms would accentuate the hemostatic imbalance and favour the occurrence of thrombotic events. It is considered that increased urinary loss of antithrombin III and the enhanced hepatic synthesis of clotting factors would represent the main mechanisms involved in the production of this precarious hemostatic balance of nephrotic patients.
...
PMID:Hemostatic variables in nephrotic patients. 184 91
The hemostatic response to acute exercise and increased atmospheric pressure was studied in 20 healthy male subjects (18-35 yr of age) exercised to volitional
exhaustion
on a cycle ergometer in a hyperbaric chamber at 3 atmospheres absolute (ATA). As a means of comparison, 6 of the 20 subjects were exercised in the same manner at 1 ATA. Similar increases in fibrinolytic activity (FA), Factor VIII activity (
VIII
:C), von Willebrand factor antigen (vWF:Ag) and plasma catecholamine levels were observed following acute exercise at 1 ATA and at 3 ATA. There were no changes in the levels of plasminogen, antithrombin III, Protein C or Fibrinopeptide A (FPA) with exercise either at 1 ATA or at 3 ATA. In addition, there were no changes in plasma catecholamine levels or any of the hemostatic variables measured when atmospheric pressure was increased from 1 ATA to 3ATA without exercise. These findings demonstrate that increasing atmospheric pressure from 1 ATA to 3 ATA does not alter the exercise-induced changes in hemostasis. Therefore, exercise or physical exertion at 3 ATA for a time period not to exceed 30 min does not perturb the hemostatic mechanism and increase the risk of bleeding or thrombosis.
...
PMID:The effects of acute exercise and increased atmospheric pressure on the hemostatic mechanism and plasma catecholamine levels. 233 66
Components of the factor VIII complex increase and activation of the fibrinolytic system occur during exercise. The relation between the duration and intensity of exercise and the relative changes in the
VIII
complex and fibrinolytic system have not been previously examined. Five healthy male subjects were exercised with three protocols: a graded progressive exercise test to
exhaustion
on a cycle ergometer with 50-W increments every 4 min, steady-state exercise, 15 min at 5 and 125 W each, and an acute 30-s maximal exercise test on a cycle ergometer. Venous blood samples were drawn at base line, during the last 30 s of each power output in the graded exercise, at 5-min intervals for the steady-state exercise, and for up to 1 h after completion of exercise in all three protocols. At the maximum exercise intensities, increases in plasma lactate concentration ([La]), O2 uptake, and [H+] were observed. Components of the
VIII
complex [
VIII
procoagulant,
VIII
procoagulant antigen,
VIII
-related antigen (VIIIR:Ag),
VIII
ristocetin cofactor activity] abruptly rose at only the highest work intensities, whereas the whole blood clot lysis time began to gradually shorten much earlier at low work intensities. There were no qualitative changes in the factor VIIIR:Ag on crossed immunoelectrophoresis nor was there evidence of thrombin generation as determined by fibrinopeptide A generation. We conclude that during exercise the changes observed in the coagulation and fibrinolytic systems are related to the intensity of the exercise, which is reflected by increases in plasma [La] and [H+], and that the fibrinolytic system is activated before the changes in the
VIII
complex are observed.
...
PMID:Increases in factor VIII complex and fibrinolytic activity are dependent on exercise intensity. 308 36
Thromboembolic phenomena may occur as humans ascend to high altitude. To investigate the role of the coagulation cascade and its inhibitors in these disorders, venous blood was obtained from eight subjects who participated in the Operation Everest II project. Samples were obtained before and 5 min after completion of a progressive incremental exercise test to
exhaustion
at sea level and atmospheric pressures of 380 (18,000 ft) and 282 Torr (25,000 ft). Plasma was analyzed for the activity or concentration of factors II, V, VII,
VIII
complex, IX-XIII, prekallikrein, high-molecular-weight kininogen, fibrinogen, antithrombin III, alpha 2-macroglobulin, alpha 2-antiplasmin, C1-esterase inhibitor, alpha 1-antitrypsin, and protein C. Prolonged exposure to simulated high altitude did not alter the concentration of any of the coagulation factors or inhibitors. Exercise increased the circulating concentrations of the factor VIII complex at sea level, 380, and 282 Torr. However, the increment was less at the simulated high altitudes. The increase in the factor VIII complex was inversely related to arterial O2 saturation and directly related to the work load achieved and blood pH and plasma lactate concentrations. These studies suggest that the gradual development of marked chronic hypoxia does not affect the coagulation cascade.
...
PMID:Operation Everest II: coagulation system during prolonged decompression to 282 Torr. 311 52
C. L. Cordes and T. M. Dougherty (1993) provided a conceptual framework of job burnout in nonservice organizations. This study sought to determine the "fit" of that theoretical model within nonservice occupations. LISREL
VIII
was used to test this model on 165 participants, and the overall model fit the data well. Supervisory support moderated the relationships between the role conflict, role ambiguity, and quantitative role overload stressors and emotional
exhaustion
and between emotional
exhaustion
and depersonalization. Unexpectedly, role conflict, role ambiguity, and quantitative role overload had a positive impact on emotional
exhaustion
when supervisory support was high. As expected, participation had a negative association with depersonalization. Employees experiencing emotional
exhaustion
were more likely to feel nervous or tense at work.
...
PMID:Extending our understanding of burnout: test of an integrated model in nonservice occupations. 1255 26
It is known that coagulation and fibrinolysis are activated after exercise, and that the response is related to exercise intensity. The contribution, however, of eccentric exercise has not yet been investigated. Twenty boys (age 13 years) were randomly assigned to two experimental groups, which had to perform a monopedal stepping exercise until
exhaustion
. One group had to step up and down (U/D) in the same rhythm of one second each, while the other group (U/DD) had to step up during one second and to step down during two seconds, thereby experiencing a higher eccentric load. Blood samples were collected before and at 0, 1, and 24 hrs after exercise, and F
VIII
, t-PA, PAI-1, and D-dimer were determined as markers for coagulation or fibrinolysis, respectively. While the tendency for hypercoagulability was counterbalanced by fibrinolysis in the U/D group, the U/DD group showed a prothrombotic and hypofibrinolytic hemostatic response. It is assumed that eccentric exercise, beyond the well-known muscle fiber damage, also leads to some damage of the endothelial cells, affecting their capacity to liberate sufficient amounts of fibrinolytic agents.
...
PMID:Exhaustive exercise with high eccentric components induces prothrombotic and hypofibrinolytic responses in boys. 1683 25
