Gene/Protein Disease Symptom Drug Enzyme Compound
Pivot Concepts: Gene/Protein Disease Symptom Drug Enzyme Compound   Target Concepts: Gene/Protein Disease Symptom Drug Enzyme Compound

---

Query: UMLS:C0022116 (ischemia)
91,303 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Potassium-induced cardioplegia was studied in 38 mongrel dogs supported by normothermic cardiopulmonary bypass and subjected to 60 minutes of aortic cross clamping followed by 30 minutes of reperfusion. A study of preischemic and postischemic ventricular function and myocardial high-energy phosphate compounds, lactate, and glycogen showed substantial preservation of high-energy phosphates and ventricular performance when potassium cardioplegia was used. However, the substantial depression in contractility observed following ischemia nad reperfusion suggests that potassium cardioplegia alone does not provide adequate intraoperative protection of the myocardium.
...
PMID:Potassium cardioplegia. An alternate method of intraoperative myocardial protection. 68 94

Under conditions of varying flow rates, total myocardial blood flow, measured by fractional uptake of rubidium-84, using a coincidence counting system, was compared with myocardial flow measured by microspheres (15 +/- 5 micrometer). The methods were compared, open-chested, in 47 dogs: 17 during control, ten following 5 min of ligation of left anterior descending coronary artery, five following i.v. isoproterenol, six following ligation and isoproterenol, and nine after ligation plus dipyridamole. Regional flows by Rb-84 and by either Ce-141 or Cr-51 microspheres were also compared for left ventricle, as well as for nonischemic posterior wall, which served as a reference area, and for anterior wall with ligation of left anterior descending artery in the same preparations. There were no significant differences in total or regional flow measured by the two methods, nor in the estimate of ischemic area size. The data indicate that measurement of myocardial blood flow by fractional uptake of a potassium analog is a reliable method in the presence of ischemia and drug intervention. It is suggested that the inequalities of extraction ratio that occur with differing flow rates do not invalidate fractional-uptake methods over the flow ranges examined.
...
PMID:Myocardial blood flow as measured by fractional uptake of rubidium-84 and microspheres. 69 Jul 2

A new colloid hyperosmolar solution with high concentrations of proteins, potassium, and glucose has been favorably compared with a crystalloid, intracellular, and hyperosmolar solution (Sacks II) for 24-hr hypothermic storage of ischemic and nonischemic canine kidneys. Sixty minutes of warm ischemia was overcome by all kidneys flushed with the colloid hyperosmolar solution. In four of six ischemic kidneys flushed with Sacks' solution the function returned to normal limits. Hypothermic storage (24 hr) without warm ischemia did not cause any deleterious effects on either one of the flushed group of kidneys. Thirty minutes of warm ischemia followed by 24-hr hypothermic storage was tolerated by most of the kidneys (83%) flushed with the colloid hyperosmolar solution and one-half of the kidneys flushed with the crystalloid hyperosmolar solution. Sixty minutes of warm ischemia and 24-hr hypothermic storage was detrimental to 50% of the kidneys flushed with the colloid hyperosmolar solution.
...
PMID:Comparison of sacks and a new colloid hyperosmolar solution for hypothermic renal storage. 70 72

Preservation of left ventricular function with various potassium-based cardioplegic solutions has been considered to be effective for at least 60 minutes during occlusion of the ascending aorta. The purpose of this study was to define the limits of protection offered by potassium alone. A single bolus of 150 ml of potassium (24 mEq per liter) in normal saline solution at 30 degrees C was injected in the aortic roots of foxhounds at the initiation of periods of 45 minutes, 60 minutes, and 75 minutes of aortic occlusion at a core temperature of 30 degrees C. Data derived from postischemic recovery phase ventricular function curves and force-velocity relations demonstrated excellent protection during 45 minutes of ischemia, inconsistent protection at 60 minutes, and poor protection at 75 minutes.
...
PMID:Limits of myocardial protection with potassium cardioplegia. 75 64

The measurement of lactate dehydrogenase (LDH) release into perfusates after hypothermic storage was found to be a reliable index of ischemic injury of rabbit kidneys. Kidneys were exposed to warm and cold ischemia for varying periods. Each kidney was perfused before and after storage at simple hypothermia with 25 ml of a modified Collins solution. The venous effuent was collected in 5 ml fractions. Total LDH activity was measured in the first fraction after storage and used as a measure of ischemic tissue damage. It was confirmed that increasing the period of cold ischemia result in significant increases in LDH activity. The release of LDH into perfusates was then used to compare kidney damage after preservation with various fluids. With this method, it was not possible to demonstrate any difference in the extent of tissue damage after preservation with sodium-rich vs. potassium-rich perfusion fluid. Addition of steroids, vitamins and essential amino acids did not prevent or reduce tissue damage, estimated in this way. The effects of adding cryoprotectants to the perfusion fluid varied; LDH release following addition of 5% DMSO was significantly greater, and after addition of 5% glycerol smaller than the release after perfusion with a modified Collins solution alone. Stepwise addition of DMSO up to 20% resulted in serious tissue damage with a large LDH release into the perfusate.
...
PMID:LDH release into perfusates of preserved kidneys. 78 32

Potassium is an important electrolyte in heart cells and has the greatest membrane permeability in the unexcited state. Hence it is responsible for th generation of the resting membrane potential. Clinical disorders of conduction and impulse formation occur within physiological values of serum potassium. Potassium is indirectly involved in excitation-contraction coupling, and its relation to intracellular calcium metabolism is reviewed. While potassium movements within the cell are metabolic-dependent, it is also true that the activity of metabolic pathways is affected by changes in potassium concentration. During anoxia and ischemia, sodium and calcium are gained by the myocyte, and potassium and magnesium are lost by the cell. At the same time, the action potential duration is abbreviated, the slope of the action potential downstroke (phase 2) is increased, and the resting membrane potential may be reduced. A relationship between disturbances in intracellular potassium and ischemic arrhythmias appears likely.
...
PMID:Potassium metabolism in the normal and ischemic heart cell. 78 7

The metabolic consequences of low-temperature kidney preservation were investigated. A comparison was made between kidneys which were immediately preserved and kidneys which had been ischemic for 1 hour. Two types of preservation techniques were used: (1) continuous perfusion with oxygenated plasma as described by Belzer and (2) a single flush with potassium-containing perfusate as suggested by Collins. Slices of renal cortex were removed at varying times during preservation and analyzed for a variety of metabolic intermediates. ATP levels were markedly reduced from normal. The Belzer technique was associated with higher ATP levels and ischemia lowered the ATP level. Kidneys perfused by the Belzer technique had lower ADP levels than those by the Collins method. Preservation caused marked elevation of tissue lactate, irrespective of ischemia or the technique used. We conclude that low temperature kidney preservation has profound effects on cellular metabolism. Therefore, the measurement of metabolic intermediates may provide a rational approach to the prediction of organ survival.
...
PMID:Metabolic consequences of low-temperature kidney preservation. 79 69

Cardioplegia induced with an osmotically balanced solution of high potassium concentration appears to lower the oxygen requirements of the heart, slows high-energy phosphate depletion to some extent, and is associated with increased survival in prolonged normothermic ischemia. To date no obvious detrimental effects have been observed from injecting this solution.
...
PMID:Potassium-induced cardioplegia. 80 63

The authors present the results of a study of the amount of water and potassium in small samples of skeletal muscle and of the intestinal wall of albino rats. Five groups of 10 animals were separated according to the following conditions: peritonitis, pyloric obstruction, intestinal obstruction, mesenteric ischemia and a control group. The results suggest that skeletal muscle is capable of buffering the increased amount of potassium liberated by the tissues which undergo acute trauma, until a critical concentration is reached. Further studies are needed to clarify some of the conflicting results obtained.
...
PMID:[Metabolic response and aggression: potassium and water content of skeletal muscles]. 82 84

In normothermic anesthetized cats cerebral blood flow was interrupted completely for one hour by arterial clamping and induced hypotension. The effect of ischemia on the ionic gradients of the cerebral cortex was assayed by determining total cortical electrolytes and by recording the activities of extracellular potassium ([K+i1e) and subarachnoid sodium ions ([Na+])s) with ion-sensitive electrodes. During ischemia [K+]e increased from 3.3+/-0.3 to 56+/-5.4 mEq per liter (means+/-SE) and [Na+]s decreased from 133+/-3.8 to 53+/-5.8 mEq per liter. When the brains were recirculated with blood after one hour's ischemia, [K+]e and [Na+]a gradually returned to normal within 45 minutes. The calculated intracellular uptake of sodium during ischemia amounted to 139 mEq per kilogram dry weight, whereas the intracellular release of potassium was only 64 mEq per kilogram. The increase in intracellular cation was accompanied by a movement of water from the extracellular into the intracellular compartment, causing a reversible shrinkage of the extracellular space from 18.9 to 8.5 vol %. The changes in ionic gradients were related to the development and resolution of ischemic brain swelling, and to the elctrophysiological events during and after ischemia.
...
PMID:Cation activities in reversible ischemia of the cat brain. 83 60


<< Previous 1 2 3 4 5 6 7 8 9 10 Next >>

---