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

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Query: UMLS:C0009443 (cold)
92,137 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Bilateral lung transplantation (BLT) is a recently described procedure based on two sequential single-lung transplantations (SLT), which are performed by a transverse sternobithoracotomy. It does not require either cardiac arrest or routine use of cardiopulmonary bypass (CPB). The intraoperative management of 10 patients suffering from end-stage pulmonary disease is reported. Implantation of the first graft is quite similar to a SLT. Problems encountered during this procedure (ie, hypoxemia, hypercapnia, or low cardiac output) were due to restricted pulmonary and cardiac reserve. Preoperative and intraoperative assessment of the recipient's respiratory and cardiac status was, therefore, of prime importance. Mild preoperative pulmonary hypertension, well-preserved right ventricular function, and removal of the less well-perfused lung limited these difficulties; no patient required partial CPB at this stage. During the second lung implantation, gas exchange was provided by the first grafted lung. Measurements of pulmonary vascular resistance (PVR), venous admixture (Qva/Qt), and dead space (VD/VT) assessed with the arterial-to-end-tidal CO2 difference were used to confirm the adequacy of perfusion and V/Q matching. In one patient, partial CPB was instituted because of surgical difficulty related to inadequate size matching of the lungs. In the other patients, first graft function was satisfactory and the second graft was implanted without CPB. With chest closure, PVR returned to nearly normal values (range, 57-293, mean 167 dynes.s.cm-5) and Qva/Qt increased (range, 3 to 36, mean 20%). This limited series demonstrates that CPB is optional during this procedure. Good selection of recipients and donors, good lung preservation methods, and a short duration of cold ischemia are essential to success.
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PMID:Anesthesia for bilateral lung transplantation without cardiopulmonary bypass: initial experience and review of intraoperative problems. 149 95

The purpose of this study was to investigate the possibility of improving the organ preservation properties of the University of Wisconsin (UW) solution by adding the calcium entry blocker lidoflazine. We also investigated the possibility of decreasing the cold ischemia and reperfusion damage by pretreatment with lidoflazine of the donor and/or recipient. The protective effects of lidoflazine treatment were estimated by measuring the amount of trapped erythrocytes in the rat renal medulla after 48 h of cold storage, subsequent transplantation, and 20 min of reperfusion. Lidoflazine (20 mg/liter) added to the UW solution decreased the amount of erythrocyte trapping from 14.8 +/- 3.1% in controls to 8.6 +/- 1.7% (P less than 0.01). The flow rate of the flush-out solution during the harvesting procedure was also significantly (P less than 0.01) increased when lidoflazine was included in the UW solution (1.10 +/- 0.21 ml/min vs 0.75 +/- 0.22 ml/min). Administration of lidoflazine (0.28 mg/kg body wt) to the donor and/or the recipient did not further reduce the postischemia/reperfusion damage as estimated by the degree of erythrocyte trapping. In conclusion, the results indicate that the preservation properties of the UW solution can be significantly improved by adding lidoflazine to the solution.
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PMID:Improvement of renal preservation by adding lidoflazine to University of Wisconsin solution. An experimental study in the rat. 149 15

Preservation of the liver involves a period of cold (0 degrees to 4 degrees C) ischemia; the longer the ischemic period, the greater the injury to the liver. The mechanisms for cold-induced ischemic injury are not known, but it is clear that after preservation the liver has a reduced capacity to regenerate high-energy phosphate compounds (ATP). One cause for the delayed rate of ATP synthesis could be injury to the mitochondria. The effects of long-term (more than 24 hr) preservation on liver mitochondrial function have not been previously studied. In this study, rat livers were preserved in University of Wisconsin solution at 4 degrees C for up to 96 hr. After preservation, mitochondrial respiratory function was assayed in a homogenate and in isolated mitochondria. We saw a progressive increase in oligomycin-sensitive respiration with time of preservation (from 1.2 +/- 0.09 mumol.min-1.gm tissue-1 at 0 hr to 3.8 +/- 0.2 mumol.min-1.gm tissue-1 after 96 hr). The increase after 24-hr preservation (2.1 +/- 0.2 mumol.min-1.gm tissue-1) was also significantly greater than 0 time values (p less than 0.05). No decrease was found in uncoupler-stimulated respiration for up to 48 hr of preservation; only a small decrease was seen after 72 hr of preservation (about 30%). The cause of the increase in oligomycin-sensitive respiration appeared to be related to free fatty acids (or another uncoupling factor) generated during preservation. This was suggested from the fact that bovine serum albumin prevented the increase in oligomycin-sensitive respiration after all periods of preservation.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:Loss of mitochondrial respiratory function and its suppression during cold ischemic preservation of rat livers with University of Wisconsin solution. 150 19

The effects of prolonged hypothermic ischemia and subsequent normothermic perfusion on the energetic metabolism and intracellular pH (pHin) of isolated rat livers were studied by phosphorus-31 nuclear magnetic resonance spectroscopy. Nucleoside triphosphate (NTP) depletion and intracellular pH were studied within an 18-h-storage phase, by using the following preservation media: Eurocollins (EC), UW Lactobionate (UW) and Bretschneider's solution (HTK). Values obtained after 8-h ischemia were chosen to estimate the performance of the various media: NTP levels were 37 +/- 7%, 10 +/- 5% and 0% of control levels, respectively, in livers stored in UW, HTK and EC solutions. pHin reached values of 7.15 +/- 0.10 in UW and HTK, and 6.96 +/- 0.10 in EC-stored livers. Ischemic damage was assessed by reperfusing the stored organ with Krebs medium: NTP recovery was around 70 +/- 20% for the three solutions used. Recovery of pHin was near the control value (7.23 +/- 0.08), except for EC solution (7.05 +/- 0.20). The main results are that (i) the rates of NTP and pHin decrease are strongly dependent on the nature of the preservation solution, whereas (ii) NTP recovery is not significantly different during post-ischemic reperfusion. With regard to animal survival, UW solution is at present considered largely superior to EC medium for liver preservation. Thus, our data suggest that the rates of NTP depletion and pHin fall during cold preservation could be both considered as better indicators assessing liver injury than the post-ischemic NTP recovery.
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PMID:Phosphorus-31 nuclear magnetic resonance of isolated rat liver during hypothermic ischemia and subsequent normothermic perfusion. 150 39

In renal preservation, the longer the organ is cold stored the greater the damage to the organ. The mechanism of hypothermic-induced kidney injury is not known. In this study the effects of long-term preservation (up to 120 h) of the dog kidney on mitochondrial functions in an homogenate of kidney cortex tissue was investigated. Kidneys were exposed to either warm ischemia (0 to 90 min) cold ischemia (0, 72, 96, and 120 h). The mitochondrial oxygen uptake was measured in an homogenate. In both warm and cold ischemia there were changes in the mitochondrial utilization of oxygen. The changes were characterized as a decrease in uncoupler stimulated oxygen uptake by up to 40%, an increase in oligomycin-sensitive respiration by up to about 150%, and a decrease in the respiratory control ratio (uncoupler control ratio) from about 3 to 1. These changes in mitochondrial utilization of oxygen were partially reversed by including albumin in the respiration medium. Albumin binds free fatty acids and these may originate, during ischemia, from the action of phospholipases during ischemia. The changes in mitochondrial oxygen uptake may result from both the loss of membrane-bound phospholipids and the accumulation of free fatty acids. The changes in mitochondrial activity between 72 h (viable kidneys on transplantation) and 96 to 120 h preservation (nonviable kidneys) were not significant. Furthermore, reperfusion of kidneys preserved for 72 to 120 h resulted in a restoration of mitochondrial oxygen uptake to near normal (control) values. Thus, it does not appear that the limitation of successful long-term renal preservation is due to mitochondrial injury caused by cold ischemia.
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PMID:Energy metabolism and renal ischemia. 150 57

Oxygen free radicals are generated during reperfusion of ischemic organs. Studies employing several species of laboratory animal (rat, dog, pig, rabbit, mouse) have documented protective effects of a variety of free-radical scavengers and antioxidants when administered before or immediately preceding reperfusion of ischemic kidneys. These protective agents include superoxide dismutase, dimethylthiorea, dimethyl sulfoxide, alpha-tocopherol, glutathione, the iron chelator deferoxamine, probucol, allopurinol and oxypurinol, and the spin-trapping agent PBN. Furthermore, deficiency of antioxidants (selenium, alpha-tocopherol, or catalase) exacerbates postischemic renal injury. These findings have been applied to renal transplantation in an attempt to decrease the incidence of posttransplantation acute renal failure. This is important because acute renal failure results in morbidity, increases hospital stay and the cost of transplantation, and complicates the use of cyclosporine. In porcine and in canine kidney transplantation, superoxide dismutase and allopurinol have provided renal protection. Transplantation is complicated because there may be prolonged hypoperfusion before harvesting plus a brief period of total ischemia during harvesting, followed by a prolonged period of cold ischemia and/or reperfusion, then followed by another brief period of ischemia and reperfusion during transplantation. Injury may occur at each of these phases by different mechanisms.
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PMID:Free radical-mediated postischemic injury in renal transplantation. 150 58

The efficacy of recombinant human extracellular-superoxide dismutase type C (EC-SOD C) on myocardial reperfusion injury was explored in hypothermically arrested rat hearts, as was its site of action. Forty isolated working rat hearts were subjected to 30 min of global ischemia followed by 30 min of reperfusion. The hearts were arrested by the administration of 10 mL of cold perfusate at the onset of ischemia. At the same time, they were randomly assigned to one of five groups; A: cold perfusate only; B: cold perfusate + EC-SOD C 10.4 mg/L (30,000 U/L); C: cold perfusate+bovine CuZn-SOD 7.5 mg/L (30,000 U/L); D: cold perfusate + EC-SOD C 10.4 mg/L + heparin 50,000U/L; E: cold perfusate + heparin 50,000 U/L. Heparin was given to prevent binding of EC-SOD C to endothelial cell surfaces. Left ventricular function was studied before ischemia and at the end of reperfusion. Percent recovery of maximal left ventricular dP/dt after reperfusion was more pronounced in group B (109 +/- 24%; p less than .05) than in groups A (42 +/- 40%), C (47 +/- 36%), D (44 +/- 33%) and E (58 +/- 25%). Likewise, percent recovery of the double product (heart rate x systolic left ventricular pressure) was better in group B (104 +/- 18%; p less than .05) than in the other groups (A: 47 +/- 37%, C: 49 +/- 36%, D: 50 +/- 35%, E: 69 +/- 31%). Compared to the preischemic level, creatine kinase increased significantly in the coronary effluent after reperfusion in groups A, C, D, and E, but not in group B. The results suggest that EC-SOD C, which attaches to the endothelial cell surfaces, might be particularly effective as protection against myocardial reperfusion injury when given together with cardioplegic solution.
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PMID:Effects of recombinant human extracellular-superoxide dismutase type C on myocardial reperfusion injury in isolated cold-arrested rat hearts. 151 40

The types of animal models that are used for assessing lung preservation, and the types of interventions that are likely to prove of value, must be carefully selected. For example, the events of warm ischemia are not necessarily the same as those that occur during cold preservation. Warm ischemia has often been used as a means of accelerating the degree of ischemic injury, but the events may not be qualitatively the same. Nonetheless, the use of different types of lung injury models contributes to our overall understanding of mechanisms of lung injury associated with transplantation. Pathologic studies of lung injury ischemia and reperfusion may not prove helpful, as they may be nonspecific and insensitive. To compare results of different preservation methods, a standardized animal model would be most helpful if a universally accepted one could be identified. This would include standard measurements of lung function, standard techniques of transplantation, and follow-up studies of several days' duration after transplantation. Such a model could serve as the ultimate test of preservation methods following its development in a variety of the animal models. It must be emphasized that whereas animal models generally begin with a normal lung that is preserved, the clinical situation differs because the donor lungs may be far from normal at the outset due to the effects of brain death, hemodynamic instability, infection, trauma, and a host of other factors. Thus, the limits of safe preservation in a clinical situation may well be significantly less than the safe preservation time demonstrated in the laboratory.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:NHLBI workshop summary. Biology of lung preservation for transplantation. 151 69

In hepatic transplantation, the recipient and the graft must manage a difficult symbiosis. The causes that can unbalance the mutual adaptation are various, but the clinical-biochemical hepatic graft syndromes they produce are not specific. Morphological study of the graft shows a distinct pattern for each type of dysfunction etiopathogeny. Such study may find: (1) immune attack: acute rejection or chronic rejection; (2) technical complications in the biliary tract or in the blood perfusion of the graft; (3) nonspecific cholestasis secondary to graft cold ischemia or preceding development of chronic rejection; (4) recurrence of the previous illness: graft infected by hepatitis virus; (5) opportunistic viral infections (cytomegalovirus, Epstein-Barr virus, herpesvirus, adenovirus); (6) reactions to drugs and toxics; and (7) combinations of several etiologies. Morphological knowledge enables the pathologist to collaborate in hepatic transplantation programs: elaborating protocols, selecting patients, diagnosing hepatic graft dysfunction, and assessing program quality.
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PMID:The role of histopathology in hepatic transplantation. 152 58

Initial function of the graft is an essential factor for successful liver transplantation. The aim of this study was to evaluate the influence of the nutritional status of the donor on hepatic graft quality at reperfusion. Livers (n = 41) were taken from pigs normally fed or fasted for 24 h or fasted for 24 h and conditioned for 2 hours with a solution containing glucose, fructose and glutamine. The quality of liver grafts was evaluated using an original, blood-free isolated perfusion model, after 8 h cold storage, or after 15 min warm ischemia performed prior to harvesting. The hepatic concentration of glycogen and ATP, measured from in vivo biopsies, was decreased in fasted animals (P less than 0.05 vs fed) and restored by nutritional conditioning (P less than 0.05 vs fasted). At the time of reperfusion following 8 h cold ischemia, the liberation of aminotransferases and lactate dehydrogenase was elevated in livers coming from fasted animals (P less than 0.05 vs fed) and restored to fed levels after nutritional conditioning (P less than 0.01 vs fasted). After 15 min of warm ischemia, the bile secretion during the reperfusion period was decreased in the 24 h fasted livers (P less than 0.01 vs fed) and reestablished after nutritional conditioning (P less than 0.01 vs fasted). Perfusion of the donor liver, in the 2 h preceding harvest, with a solution of glucose plus neoglucogenic precursors enhances the quality of the liver graft at the time of reperfusion.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:[Effect of nutritional status of the donor on the quality of hepatic graft. Value of restoration of glycogenic reserves of the donor]. 152 97


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