UMLS:C0009443 - FACTA Search

Gene/Protein Disease Symptom Drug Enzyme Compound
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Query: UMLS:C0009443 (cold)
92,137 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

The present studies were performed to investigate the potential role of the alternative complement pathway in the host's defense against bacterial L-phase variants and to gain insight into the subcellular component of gram-positive bacteria responsible for activation of the alternative pathway. L-phase variants of Staphylococcus aureus and Streptococcus faecalis were able to activate the alternative pathway and consume C3 in C4-deficient guinea pig serum in amounts comparable to their respective bacterial-phase parent organisms. Activation of the complement system via the alternative pathway resulted in death of the L-phase variants. Membranes prepared from S. faecalis L-phase variants, by either osmotic lysis or mechanical disruption, retained their ability to activate the alternative pathway. Treatment of the membranes by three different methods (water washes, hot trichloroacetic acid, and cold trichloroacetic acid) resulted in a greatly diminished ability of the membranes to activate the alternative pathway. In addition, the extracts derived from the membranes by water washes and by cold-trichloroacetic acid treatment were able to activate the alternative pathway. These studies indicate that these L-phase variants can activate the alternative pathway and suggest that membrane-associated factors play a role in the alternative pathway activation by S. faecalis L-phase variants.
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PMID:Activation of the alternative complement pathway by L-phase variants of gram-positive bacteria. 45 56

Dogs were immersed in cold water 1 h/day for 30 consecutive days. During the first immersion, oxygen uptake increased approximately sevenfold and colonic temperature decreased; a large increase in plasma epinephrine and norepinephrine concentrations was found; plasma glucose, lactic acid, and free fatty acid (FFA) concentrations were also increased. An adaptative response to cold was evidenced during the 10th immersion by a further increase in oxygen uptake and a reduction in the fall of colonic temperature; plasma epinephrine, glucose, and lactic acid were diminished whereas FFA were higher. Consequently 10 h spent in cold are sufficient to induce an improved capacity for heat production. An enhanced ability to produce nonshivering thermogenesis mediated by epinephrine or norepinephrine is not obvious because after the 30th immersion no enhanced calorigenic response to epinephrine or norepinephrine infusion was found. In dogs mechanisms other than norepinephrine-enhanced sensitivity might be involved in this kind of cold adaptation.
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PMID:Catecholamines in dogs during cold adaptation by repeated immersions. 45 43

The response of limb blood flow to cold stimulus was determined by venous occlusion technique in 30 healthy subjects. The stress was applied by immersing one hand into ice-floating water for 35 sec, and the blood flow was measured serially in the contralateral upper limb. The change of blood flow at the 15th sec of stress was the largest among the intermittent measurements, and decreased by 48+/-8% of the control value. A significant rise in plasma dopamine-beta-hydroxylase was found in response to the same stress. This simple cold stress test may be used to evaluate the function of the reflex arc involved in reflex vasoconstriction. A significantly diminished vasoconstriction was observed in 12 uremic patients with a concomitantly smaller rise of plasma dopamine-beta-hydroxylase activity in the test.
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PMID:Reflex vasoconstriction to a cold stimulus for non-invasive evaluation of neurovascular function in man. 45 99

Hilar drainage fluid of dog kidneys was analyzed as an approximation to renal extracellular fluid after preservation by flushing with chilled high K-low Na solution (Collins C4) followed by ice-cold storage for 24 and 48 hr in a bath of flushing medium. Compared with the medium, Na and Cl were increased to 30 mM/liter and K decreased slightly to 93 mM/liter. Glucose decreased, whereas lactate, lactic dehydrogenase, and creatine phosphokinase increased by significant amounts in both the drainage fluid and bath. The inulin space of the undrained kidney average 37% of wet weight. Calculated intracellular Na and Cl concentrations averaged 50 and 37 mM/kg cell water while K remained within normal limits. A significant fraction of red blood cells retained during initial flushing entered the effluent during storage. Bath and effluent composition of a human cadaver kidney approximated those of a dog.
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PMID:Extracellular fluid of the kidney preserved by the Collins technique. 46 28

Thermoregulatory responses of six trained swimmers and five runners to cold and heat were evaluated during 30 min of exercise (60% VO2max) while immersed to the neck in 20, 25, 30, and 35 degrees C water. Mean oxygen uptake was similar for both groups during all four trials. Changes in metabolic rate during the 8th to 28th min were significantly greater for the runners in 20 degrees C water, and swimmers in 30 and 35 degrees C water. Heart rates, Tsk, delta Tre, Tb, body heat content, and heat storage were dependent on water temperature. Runners were able to attain higher sweat rates than swimmers in 35 degrees C water. Swimmers had significantly greater tissue conductance values in the 35 degrees C exposure. Swimmers thermoregulated better in 20 degrees C water than runners, possibly due to a larger surface area-to-volume ratio, percentage body fat, subcutaneous fat, or improved vasomotor control. Exercise in the heat was better tolerated by runners. Physical training in water does not improve heat acclimatization to the extent of training in air, but does improve cold tolerance.
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PMID:Thermoregulation in swimmers and runners. 46 28

In dogs acutely immersed in cold water (8--13 degrees C), oxygen uptake increased approximately sevenfold and colonic temperature rapidly began to decrease. Fifteen minutes after the start of immersion a high level of hyperglycemia was found but no increase in immunoreactive plasma insulin level was observed. Under these conditions exogenous insulin (0.3 U.kg-1) induced a further increase in oxygen uptake and in shivering intensity whereas a decrease in the fall of colonic temperature was observed. It can be concluded that insulin may have a calorigenic effect and improve the resistance to cold of dogs exposed to an acute cold stress.
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PMID:Calorigenic effect of insulin in hypothermic dogs. 46 91

Rats were exposed to cold (4 degrees C) for 1 and 4 weeks. The T4 plasma concentrations initially declined (24.5 +/- 7.7 nmol/l) after 1 week but returned to normal levels after 4 weeks (52.9 +/- 14.2 nmol/l). The T3 concentrations were elevated after both 1 and 4 weeks at 4 degrees C (1.31 +/- 0.21 and 1.38 +/- 0.12 nmol/l, respectively). Control values (23 degrees C) for T4 were 42.6 +/- 10.3 and for T3 1.11 +/- 0.13 nmol/l. Addition of 0.015 g KI/l to the drinking water prevented the T4 decrease in plasma after 1 week of cold exposure. No effect of iodide was observed at 23 degrees C. The suppletion of KI did not change pattern of T3 increase after cold exposure. After 4 weeks of cold exposure the T4 levels of the iodide-supplemented animals did not differ from the non-sulemented group. No evidence was found that increased food intake is a contributory factor in the development leading to increased T3 plasma levels during cold exposure.
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PMID:Effect of iodine intake and food consumption. 47 39

Experimental evidence presented suggests that [3H]TdR can be rapidly and efficiently transported from the intestine to the systemic circulation. This pathway for thymidine transport may be physiologically important since administration of cold thymidine in the drinking water enhances the utilization of a parenterally injected dose of [3H]TdR in several body tissues of the mouse.
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PMID:Effects of intestinally absorbed thymidine on tritiated thymidine utilization. 47 83

1. Twenty lightly anaesthetized dogs were cooled to 29 degrees C by cold-water immersion. Ventilation was spontaneous and the animals were allowed to shiver freely. Metabolic heat production and respiratory heat exchange were measured during rewarming. 2. The animals were divided into four groups each of five dogs and each group was rewarmed by a different technique. The control group was allowed to rewarm spontaneously; a second group was given warm (45-50 degrees C) fully humidified air to breathe in addition; a third group was rewarmed in a hot-water bath (42-44 degrees C) and the remaining group was given in muscle relaxant to abolish shivering and rewarmed by warm inspired air only. 3. The group rewarmed in hot water achieved normal core temperature most rapidly but there was no difference in the rewarming rates of the group rewarmed spontaneously and of the group given warm air to breathe in addition. 4. The group given a muscle relaxant and rewarmed with warm inspired air required 12 h to achieve the same core temperature as the shivering groups achieved in 2 h. Compared with the heat produced by shivering the amount of heat which it was possible to transfer across the respiratory tract was so small that it did not materially influence the rate of rewarming.
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PMID:Accidental hypothermia and rewarming in dogs. 47 41

A simple thermodilution technique is described for determining systemic blood flow with right atrial and left atrial catheters and a pulmonary arterial thermistor probe. Injections of cold water into the atrial catheters provide computer display readings that permit direct calculation of systemic blood flow. The method is convenient for determining systemic blood flow in postoperative patients with a residual left-to-right shunt.
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PMID:Calculation of systemic blood flow with pulmonary artery thermistor probe. 48 Sep 67

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