Gene/Protein Disease Symptom Drug Enzyme Compound
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Query: UMLS:C0599766 (functional recovery)
 13,441 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Depletion of high-energy phosphates, accumulation of inorganic phosphate and intracellular acidosis have each been proposed as important events in the transition from reversible to irreversible ischemic injury. To assess whether each variable is predictive of functional recovery on reperfusion, these were measured in the isolated isovolumic rat heart using 31P NMR. Perfused hearts were subjected to either 10, 12 or 40 min of normothermic ischemia followed by 40 min of reperfusion. Hearts were then freeze-clamped for further analysis of phosphate metabolites by NMR and ion chromatography. High-energy phosphates, Pi, phosphomonoesters and pH were measured by 31P NMR spectroscopy at 2 minute intervals. Heart rate and developed pressure were monitored simultaneously. All hearts undergoing 10 min of ischemia and 40% of hearts subjected to 12 min of ischemia demonstrated good functional recovery. The remainder of hearts ischemic for 12 min went into contracture on reperfusion with little return of function. Hearts subject to 40 min of ischemia went into ischemic contracture and showed no recovery on reperfusion. Intracellular pH, [ATP], and [Pi] measured prior to reperfusion did not predict the extent of recovery. However, phosphomonoesters were detected prior to reperfusion in all hearts that did not recover well, but were not observed in hearts that showed good mechanical recovery. Analysis of tissue extracts by 31P NMR and ion chromatography indicated that the most prominent components of the phosphomonoesters were glucose 6-phosphate, alpha-glycerol phosphate and AMP. In conclusion, of the various phosphorus metabolites that can be measured by 31P NMR, only one group, the phosphomonoesters, was predictive of functional recovery.
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PMID:Predicting functional recovery from ischemia in the rat myocardium. 148 87

Using NADH fluorometry to monitor myocardial metabolism, the mechanism of reperfusion injury was investigated after the delivery of an experimental reperfusate. Using an isolated working heart preparation, rat hearts underwent 15 min of global ischemia at 37 degrees C. Following the ischemic insult, an oxygenated enriched reperfusion solution was given for 5 min. The hearts were then returned to a working state and aortic flow recorded to evaluate recovery. NADH levels were monitored throughout the experiment with a fluorometer and glycogen, AMP, ADP, and ATP were measured biochemically pre- and postischemia, after reperfusion and after recovery. In this study, reperfusion injury was best abated by an enriched reperfusate. Our results indicate the mechanism for this amelioration is not high-energy phosphate replenishment. Rather, as indicated by NADH fluorescence, the hearts attain an intermediate level of metabolism that permits glycogen to be restored and functional recovery to be improved.
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PMID:Monitoring myocardial reperfusion injury with NADH fluorometry. 161 62

Adenine nucleotides speed structural and functional recovery when administered after experimental renal injury in the rat and stimulate proliferation of kidney epithelial cells. As cell migration is a component of renal regeneration after acute tubular necrosis, we have used an in vitro model of wound healing to study this process. High density, quiescent monkey kidney epithelial cultures were wounded by mechanically scraping away defined regions of the monolayer to simulate the effect of cell loss after tubular necrosis and the number of cells that migrated into the denuded area was counted. Migration was independent of cell proliferation. Provision of adenosine, adenine nucleotides, or cyclic AMP increased the number of migrating cells and accelerated repair of the wound. Other purine and pyrimidine nucleotides were not effective. Arginine-glycine-aspartic acid-serine peptide, which blocks the binding of extracellular fibronectin to its cell surface receptor, completely inhibited migration in the presence or absence of ADP. Very low concentrations of epidermal growth factor (K0.5 approximately 0.3 ng/ml) stimulated migration, whereas transforming growth factor-beta 2 was inhibitory (Ki approximately 0.2 ng/ml). Thus, adenosine and/or adenine nucleotides released from injured or dying renal cells, or administered exogenously, may stimulate surviving cells in the wounded nephron to migrate along the basement membrane, thereby rapidly restoring tubular structure and function.
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PMID:Adenine nucleotides stimulate migration in wounded cultures of kidney epithelial cells. 163 17

A prospective randomized controlled trial was performed to determine optimal flow rates and hemoglobin concentrations for continuous normothermic blood cardioplegia and to compare warm heart surgery with standard intermittent cold blood cardioplegia. Thirty-five patients received intermittent cold blood cardioplegia, low hemoglobin low flow, low hemoglobin high flow, high hemoglobin low flow, or high hemoglobin high flow warm blood cardioplegia (seven patients per group: low hemoglobin, 50 g/l; high hemoglobin, 80 g/l; low flow, less than 80 ml/min; high flow, greater than 80 ml/min). Hypothermia resulted in a significantly greater accumulation of ADP and AMP during cross clamp, consistent with impaired mitochondrial function. Low hemoglobin low flow warm blood cardioplegia increased myocardial oxygen consumption and coronary sinus blood flow after cross clamp release, and also decreased lactate consumption. Postoperative myocardial performance and diastolic compliance were reduced in low hemoglobin low flow warm patients, and diastolic compliance was increased with high hemoglobin high flow warm blood cardioplegia when compared with cold patients. In this study, continuous normothermic cardioplegia was safe when delivered at 80 ml/min or greater, with a hemoglobin concentration of at least 80 g/l, affording myocardial metabolic and functional recovery comparable to that found after intermittent cold blood cardioplegia.
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PMID:Optimal delivery of blood cardioplegia. 193 34

A number of organ preservation solutions have been formulated to slow the inevitable progression of ischemic injury, thus prolonging the storage time between removal and implantation. As adenine nucleotide content has been shown to correlate with the functional recovery of transplanted livers and hearts, this study investigated the effects of 24 hr of storage in three preservation solutions, saline (SA), Euro-Collins (CO), and University of Wisconsin (UW) on adenine and nicotinamide adenine nucleotides and inosine content of the rat small intestine. Significant biochemical differences were found between segments as early as after the initial perfusion when the inosine content was higher in UW-perfused than CO- or SA-perfused segments. After 2 hr of storage in CO solution and after 6 and 24 hr in both CO and UW solutions, the ATP content was higher than in SA-stored segments. In addition to inosine, which was significantly higher at all time points for UW-stored segments, the AMP and total adenine nucleotide content of UW-stored segments at 24 hr was significantly higher than SA- or CO-stored segments. After 24 hr of storage, those segments stored in UW were able to utilize significantly more oxygen than SA-stored. These data provide biochemical evidence supporting the advantages of CO and UW storage solutions over SA for preservation of small intestine segments.
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PMID:Evaluation of solutions for small intestinal preservation. Biochemical changes as a function of storage time. 194 62

The influence of pressure-controlled postischemic reperfusion (Rp) on functional and metabolic parameters in hearts of sham-operated rats and hypertrophied hearts of rats with aortic constriction were studied. Hypertrophied hearts are considered to be more susceptible to ischemia. The hearts were perfused in the Langendorff-technique for thirty minutes at 35 degrees C with Krebs-Henseleit bicarbonate buffer at a perfusion pressure (PP) of 75 mmHg and for five minutes at 15 degrees C with St. Thomas' Hospital cardioplegic solution at a PP of 60 mmHg. After a period of global ischemia of forty minutes' duration at 15 degrees C, reperfusion was started either abruptly (aRp: PP 75 mmHg immediately) or gently (gRp: PP 75 mmHg within thirty minutes); it lasted for forty-five minutes. Intraventricular peak systolic pressure (ISP) was monitored and energy-rich compounds (ATP, ADP, AMP, CrP, free Cr) were analyzed. In normal hearts, metabolic recovery was not affected by the mode of reperfusion, but functional recovery (ISP) averaged 88% of the preischemic control value after gRp as compared with 73% after aRp. In hypertrophied hearts, gentle reperfusion ameliorated both metabolic and functional recovery. At forty-five minute recovery, CrP averaged 5.1 mumol/g ww after aRp and 6.6 mumol/g ww after gRp (p less than 0.01), and ISP amounted to 73% of the preischemic control after aRp and to 85% after gRp.
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PMID:Pressure-controlled reperfusion improves postischemic recovery of LV-hypertrophied rat hearts. 252 79

We have evaluated the impact of inhibiting adenine nucleotide dephosphorylation on the metabolic and functional consequences of renal ischemia. Intramuscular injection of the ADP-analogue adenosine alpha, beta-methylene diphosphate (AMP-CP) achieved a 70% reduction in 5'-nucleotidase activity, as measured in crude extracts of rat kidney. AMPCP-treated animals had an increased residual nucleotide pool at the end of 45 min of ischemia compared with untreated rats. Assessment of renal ATP by 31P-nuclear magnetic resonance (31P-NMR) in vivo during reflow demonstrates the following: 1) higher rapid initial recovery of ATP (69.3 +/- 1.2 vs. 50.0 +/- 0.5% control value, P less than 0.005), 2) accelerated rate of ATP restoration (0.20 +/- 0.02 vs. 0.11 +/- 0.01% control/min, P less than 0.005), and 3) significantly enhanced renal ATP content after 120 min (93.6 +/- 2.0 vs. 63.1 +/- 0.7% control, P less than 0.005). Kidney function, as measured by the rate of inulin clearance 24 h after the insult, was also significantly improved in AMPCP-treated rats (725 +/- 50 vs. 313 +/- 28 microliters.min-1.100 g body wt-1). Thus inhibition of 5'-nucleotidase results in enhanced metabolic and functional recovery from a renal ischemic insult.
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PMID:Protection of the kidney against ischemic injury by inhibition of 5'-nucleotidase. 253 26

To clarify the functional recovery of the liver after partial hepatectomy, serum c-AMP responses to glucagon were investigated after hepatectomy in rats. Serum glucagon, insulin and weight of the regenerating liver were simultaneously measured. Wistar strain male rats, weighing 120-130 g, were divided into three groups; I 30% hepatectomy, II 70% hepatectomy and III sham operation. On the first postoperative day, cyclic AMP response to glucagon was remarkably decreased in I and II groups. In group I, c-AMP response returned to the normal level 2 weeks after operation. In group II the response returned to normal at the sixth postoperative week. The liver weights were almost normal after two weeks in the both groups. Levels of serum glucagon sharply increased 24 hours after operation and returned to the normal level after 7 days. However the levels of serum insulin showed no remarkable changes. In conclusion, the complete functional recovery of the liver after hepatectomy needed 6 weeks in cyclic AMP response to glucagon and was delayed 4 weeks to that of the liver weight after 70% hepatectomy. Insulin seems to have no direct effect of the liver regeneration.
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PMID:[Cyclic AMP response to glucagon after partial hepatectomy]. 299 Oct 97

Currently, for practical clinical purposes, the preservation of donor hearts is limited to about 4 h. Transplantation must be finished within this period to assure complete functional recovery upon reperfusion. From the clinical setting it is well known that hypothermia results in a better myocardial preservation during ischemia. During ischemia, rapid catabolism of high-energy phosphates (e.g., ATP and creatine phosphate) occurs. The purpose of this study was to investigate the influence of temperature during a 24-h preservation period on the rate of catabolism of ATP and on the rate of accumulation of breakdown products (ADP, AMP, adenosine, inosine, hypoxanthine, and xanthine). For this purpose, hearts were excised and stored for 24 h at 0.5 degrees, 12 degrees, or 18 degrees C. In addition, the effect of initial cardioplegic arrest was compared with simple normothermic excision of the heart followed by 24 h in cold storage. It was found that the higher the storage temperature, the higher the rate of catabolism of high-energy phosphates and, hence, after 24 h, the lower the final ATP level and the higher the level of breakdown products, mainly nucleosides. It was also found that the initial cardioplegic arrest strongly benefits the preservation of high-energy phosphates as a result of the ATP-sparing effect.
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PMID:Optimal storage temperature and benefit of hypothermic cardioplegic arrest for long-term preservation of donor hearts: a study in the dog. 307 13

Recovery from ischaemia in heart tissue can be accelerated by addition of precursors of ATP such as AMP to the coronary circulation. Endocytosis in capillary endothelia is also stimulated by AMP; therefore endocytosis may be important in the transport of AMP from the circulation into myocytes. Alternatively, the increase in endocytotic transport itself could be responsible for accelerated recovery, irrespective of the stimulating agent. The effects of sham, AMP, cytochalasin-D (an inhibitor of endocytosis), and cytochalasin-D + AMP infusates given prior to, during, and following a 15 min ischaemic episode, were examined. AMP accelerated biochemical and functional recovery after episodes of ischaemia and stimulated endocytosis in coronary capillaries. Cytochalasin-D strongly inhibited contractility before, during, and after ischaemia, and similarly depressed ATP and creatine phosphate levels. Cytochalasin-D also strongly inhibited endocytosis and caused swelling of the capillary endothelium. When cytochalasin-D and AMP were provided together, the beneficial effects of AMP were only partially inhibited by cytochalasin-D. In fact, AMP was able to reverse most of the effects of cytochalasin-D including the inhibition of endocytosis. This suggests accelerated recovery of ischaemic myocytes requires precursors of ATP such as AMP, and the stimulation of endocytosis may abet transport of these precursors, or may be a spurious phenomenon.
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PMID:Recovery of myocardial function after ischaemia: the effects of AMP and inhibition of endocytosis. 359 9


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