UMLS:C0020672 - FACTA Search

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Query: UMLS:C0020672 (hypothermia)
17,327 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Hypothermic protection of myocardia during E.C.C. has been estimated on a 35 dogs experimental series and on a clinical series of 700 acquired cardiopathies of adult, including 400 valvular replacements and 300 aorto-coronary by-pass. Experimental results have been estimated by biochemic and morphologic controls done on myocardic samples took up by drillbiopsy. The biochemical study includes among others a dosing of the high-energy phosphorus compounds (P.C. and A.T.P.). Morphological study was done by optic and electronic microscopy. Results made clear the superiority of the hypothermic ischemia at 10 degrees C on the continued perfusion at 32 degrees C with fibrillative heart. An hypothermic protection method with successively cold perfusion of the coronary system and a heart immersion in a salted solution at 4 degrees C has been utilized during valvular and coronary surgery on human in 700 cases. The total mortality was of 5,8 p. 100. The rate of post-operative infarcts was 2,4 p. 100. Incidence of intra-ventricular conduction troubles has been 1,1 p. 100. There was no relation between mortality and morbidity of myocardic origin and the lasting of the ischemic clamp, which were of 21 mn up to 165 mn. The low incidence of complications of myocardic origin is due to the hypothermic protection of the myocardia.
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PMID:[Protection of the myocardium by hypothermia during extracorporeal circulation. Experimental and clinical study]. 1 26

This study tests the hypothesis that postischemic myocardial depression can be reduced by providing an initial reperfusate pH which is appropriate for myocardial temperature (i.e., metabolic systems function optimally when pH is kept slightly alkaline to the neutral point, which changes with temperature in concordance with the pK of water). Ten dogs underwent 1 hour of ischemic arrest with topical hypothermia (intramyocardial temperature 16+/-2 degrees C). The initial reperfusate (500 cc of blood from the extracorporeal circuit) was infused (100 cc/minute) into the proximal aorta just before removing the cross-clamp. Reperfusate pH was kept at 7.4 in five dogs (control) and raised to 7.8 with THAM [tris (hydroxymethyl) aminomethane] in five dogs. Measurements 30 minutes after reperfusion showed that raising reperfusate pH to 7.8 resulted in (1) higher subendocardial blood flows (109+/-20 vs 61 cc+/-8 cc/100 gm/minute), (2) redistribution of postischemic blood flow toward the subendocardium (endocardial/epicardial flow 1.25+/-0.1 vs 1.0+/-0.03), (3) higher left ventricular oxygen uptakes (0.046 vs 0.033 cc/100 gm/beat), (4) better postischemic left ventricular compliance (56+/-3% more compliant), and (5) improved left ventricular performance (88+/-7% recovery vs only 57+/-3% recovery at pH 7.4). Postischemic edema (2% water gain) was unchanged by pH modification. We conclude that initial reperfusion with the appropriate pH provides an optimal milieu for restoration of cellular metabolism, counteracts the acidosis of ischemia, and improves postischemic left ventricular blood flow, distribution, oxygen uptake, compliance, and performance.
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PMID:Studies on myocardial reperfusion injury. I. Favorable modification by adjusting reperfusate pH. 1 28

Hind legs of dogs were amputated at the middle of the thigh and preserved in three different conditions: in ice water, in a refrigerator, and at room temperature. After 6 or 12 hours of ischemia, recirculation was established. The survival rate of the animals was observed and measurement of limb edema, potassium, pH, and lactate in the blood was performed to study the effects of hypothermia on prevention of "replantation toxemia." Cooling of the amputated limb was effective for prevention of toxemia, and the cooling effect was greater in ice water than in a refrigerator. However, when cooled in ice water, some animals died due to toxemia when the time of ischemia was prolonged to 12 hours. In the dead animals, a close relationship was observed between the developement of toxemia and metabolic acidosis due to the increase in lactate.
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PMID:An experimental study on "replantation toxemia". The effect of hypothermia on an amputated limb. 3 78

Deep hypothermic circulatory arrest facilitates repair of congenital cardiac anomalies in infants. It is known empirically that hypothermia protects against central nervous system (CNS) ischemic damage. The Q10O2 is only 2.2 for brain and thus a decrease in metabolic rate does not fully account for protective effects of hypothermia. Since enthalpy of dissociation of H2O is high (approximately 7 kcal/mole), its pH is temperature dependent (7.0 at 25 degrees C, 7.4 at 20 degrees C) and hypothermia may in part protect by its influence on hydrogen ion concentration. A manifestation of CNS susceptibility to ischemia is an obstruction of the microcirculation [no-reflow lesion (NRL)] demonstrated by infusion of carbon black into the cerebral circulation after a period of circulatory arrest. White lesions (NRL) against a gray background on cut section of brain increase in size with increasing time of arrest. The effect of anoxia versus circulatory arrest, brain temperature, and extracellular brain pH on NRL was studied in 45 mongrel dogs, subjected to varying periods of N2-induced anoxia on cardiopulmonary bypass (CPB) at 37 degrees C or 20 degrees C. In some studies jugular venous pH was adjusted by infusion of NaHCO3 or HCl. Control groups included normothermic CPB without anoxic and normothermic CPB, anoxia, and equimolar NaCl infusion. NRL was quantified by planimetry of photographs of cut sections of brain. These results confirm that NRL is abated by hypothermia and suggest that (1) NRL is a function of anoxia and not arrested circulation since perfusion with N2 at 37 degrees C does not protect the brain (i.e., NRL is not solely related to "critical reopening pressure") and (2) NRL is in part a function of extracellular pH.
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PMID:Cerebral anoxia: effect of deep hypothermia and pH. 3 7

Transmural left ventricular biopsies from 13 patients undergoing cardiopulmonary bypass were studied. The hypertrophic myocardium was protected by deep hypothermia (15 degrees C.) during ischemic arrest for a maximal period of 96 minutes. Biopsies were taken at the start of bypass, at the end of aortic cross-clamping, and after 20 minutes of reperfusion. The structure of the mitochondria remained normal, whereas cellular alterations in the form of widened intercalated discs, interstitial and intracellular edema, myelin figures, and slight myofibrillar lysis were observed in all stages. As no clear correlation between these structural injuries and aortic cross-clamping time was seen, they are a result of cardiac hypertrophy rather than intraoperative ischemia.
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PMID:Cardiac hypothermia evaluated by ultrastructural studies in man. 14 68

Changes in steady-state levels of reduced pyridine nucleotide (PN) recorded by continuous monitoring of surface fluorescence were correlated with changes in physiological function of perfused rat kidneys when subjected to anoxia, ischemia, hypothermia, variations in perfusion pressure, inhibition of Na-K ATPase, and uncoupling of oxidative phosphorylation. Biphasic responses of PN reduction and oxidation during ischemic cycles at varying temperatures and anoxic cycles at different perfusion pressures demonstrated the presence of two different cell populations in the kidney cortex, those with sufficient oxygen and those without. The magnitude of PN fluorescence change during ischemia increased with decreasing temperature demonstrating better tissue oxygenation during hypothermia. The measurement of mitochondrial NADH oxidation in the perfused kidney during transitions from CO anoxia to normoxia was made possible by flash photolytic activation of mitochondrial electron transport. The half time for NADH oxidation (125 ms) was independent of the rate of oxygen delivery while the initial rate and extent of reaction was faster and steeper, respectively, at higher perfusion pressure, due to a better tissue oxygenation and faster CO washout.
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PMID:Oxygen delivery in perfused rat kidney: NADH fluorescence and renal functional state. 18 9

Canine kidneys were preserved under hypothermia in Collins' standard solution and the contents of sodium, potassium, and Na+ and K+-ATPase in several parts of these kidneys were followed. Hypothermic preservation in combination with single perfusion by means of Collins' solution without thermic ischemia caused loss of sodium, increase of potassium, and decrease of the total osmotic cortico-papillary gradient of the kidney. No loss of Na+ and K+-ATPase activity occurred under these conditions. The determination of Na+ and K+-ATPase level in the renal tissue turns out to be a rational method to assess the vitality of an organ to be transplanted.
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PMID:[Effect of Collins' solution the kidney concentrating gradient and the Na+ and K+-ATPase of the kidney]. 21 72

Hypothermic asanguineous perfusion has been used to arrest 170 hearts at the beginning of 1/2 to 2 hours of intraoperative coronary ischemia. This method of producing cardioplegia has facilitated valve replacement and coronary artery bypass operations. Inadequate myocardial protection has not been experienced since we began using this method of arresting the heart for cardiac operations.
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PMID:Hypothermic coronary perfusion for intraoperative cardioplegia. 29 5

A group of 176 patients undergoing cardiac surgery utilizing a technique of rapid core hypothermic cardioplegia with a hyperosmotic solution is presented. A cold, 2 to 4 degrees C hyperosmotic (396 mOsm) perfusate, injected under pressure, induced cardiac arrest without fibrillation within 2 to 4 seconds in every instance. At the end of each procedure, flushing of the cold solution out of the coronary system re-establishes spontaneous normal sinus cardiac rhythm in 96% (119 of 124) of coronary surgical procedures, 69% (11 of 16) of aortic valve replacements, 62% (10 of 16) of mitral valve replacements, 55% (five of nine) of aortic valve replacements combined with multiple coronary grafting, 57% (four of seven) of mitral valve replacement combined with multiple coronary grafting, and in 50% (two of four) of double valve replacements. Combined core and topical hypothermia with ice slush used in valve replacements and combined valve with coronary operations allowed periods of total ischemia up to 134 minutes without signs of detectable myocardial damage.
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PMID:Cardioplegia without fibrillation or defibrillation in cardiac surgery. 30 Sep 6

The authors report the clinical and laboratory results of 65 orthotopic allotransplantations of the liver in the pig. The operative mortality (8 cases) was nil in the last 23 transplantations. Vascular filling without blood transfusion, blood alkalinisation and precautions to avoid hypothermia, seem essential to reduce early mortality. The various causes of secondary mortality are studied, using certain preventive measures. Thus, deaths due to gallbladder or hepatic ischemia have become rare by conserving end-to-end anastomosis on the hepatic artery and taking certain precautions. The grafts were rejected only in incompatible pigs in the SLA system, but were not rare in this group (13/43) and sufficient to cause death in one case out of two. Gastric ulcers were frequent, even after vagotomy, but vagotomy protects fairly well against ulcer hemorrhage. However, ulcers almost always accompany a disease which is alone sufficient to cause death. Cholangitis appears less frequent after cholecysto-jejunal anastomosis on an excluded omega loop. The mortality from extra-hepatic causes was severe (12 cases), in particular due to mechanical complications at the level of the small intestine. Laboratory analyses showed a definite rise in SGOT transaminase levels and, above all, alkaline prosphatase levels in cases of rejection compared with cases of biliary obstruction or hepatic necrosis.
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PMID:[65 orthotopic transplantations of the liver in the pig. Clinical and laboratory results (author's transl)]. 32 65

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