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)

In seven patients with peripheral neuropathic pain, the effect of systemic adenosine infusion on pain symptoms was evaluated in a double-blind, placebo controlled, cross-over study. The study infusions, adenosine (50 micrograms.kg-1.min-1) or placebo, were given intravenously (IV) during 45-60 min at two separate occasions. Before and during infusions, bedside examination of sensibility and quantitative sensory testing (QST), i.e., assessments of perception thresholds for touch, touch-evoked pain, cold, warmth, painful heat, and cold, were performed. In the neuropathic area, sensation magnitude was rated by a visual analog scale (100 mm VAS) using a pin and at perception threshold for touch-evoked pain using von Frey filaments. Adenosine infusion reduced spontaneous pain (P < 0.05), and caused an increase of the touch-evoked pain threshold from 10.8 +/- 5.3 to 22.2 +/- 6.9 g (P < 0.05), whereas placebo had no effect. Pain intensity at perception threshold for touch-evoked pain was, however, unaltered. Pinprick-evoked pain in the neuropathic areas was reduced from 53 +/- 11 to 29 +/- 10 mm (P < 0.05). No other sensory modality was consistently changed during adenosine infusion. In conclusion, the present study demonstrates that adenosine infusion alleviates spontaneous neuropathic pain, tactile allodynia, and pinprick hyperalgesia in patients with peripheral neuropathic disorders, probably by a central mechanism of action.
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PMID:Systemic adenosine infusion alleviates spontaneous and stimulus evoked pain in patients with peripheral neuropathic pain. 757 99

Adenosine (ADO) is an endogenous cardioprotective autacoid that exerts receptor-mediated cardioprotection from ischemic-reperfusion injury. This study tested the hypothesis that blood cardioplegia (BCP) supplemented with ADO reduces postischemic left ventricular dysfunction in ischemically injured hearts. Twenty-one anesthetized dogs on total bypass were subjected to 30 minutes of normothermic global ischemia. Cold (4 degrees C) potassium BCP was then delivered every 20 minutes for 60 minutes of cardioplegic arrest. In 7 dogs, unsupplemented BCP was used; in 7 dogs, BCP was supplemented with 400 mumol/L ADO; and, in 7 dogs, ADO receptors were blocked with 8-p-sulfophenyltheophylline (30 mg/kg) given with 400 mumol/L ADO in BCP. Preischemic and postischemic left ventricular systolic function was assessed by the slope and volume axis intercept of the end-systolic pressure-volume (impedance catheter) relationship (ESPVR). In unsupplemented BCP, the postischemic slope of the ESPVR was significantly depressed by 42% versus the preischemic value (from 6.8 +/- 1.2 mm Hg/mL to 3.9 +/- 0.4 mm Hg/mL; p < 0.05 versus the preischemic value). In contrast, BCP supplemented with ADO was found to restore the postischemic ESPVR slope to preischemic levels (7.7 +/- 1.0 mm Hg/mL versus 7.4 +/- 1.2 mm Hg/mL, respectively). This cardioprotection was reversed by 8-p-sulfophenyltheophylline (9.9 +/- 1.5 mm Hg/mL versus 4.5 +/- 0.7 mm Hg/mL; p < 0.05 versus the preischemic value). Postischemic plasma creatinine kinase activity was elevated equally in all groups over the baseline values. We conclude that ADO in BCP attenuates postcardioplegia dysfunction in severely injured hearts through the operation of receptor-mediated mechanisms.
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PMID:Adenosine in blood cardioplegia prevents postischemic dysfunction in ischemically injured hearts. 797 28

Adenosine methylene diphosphate (AMPCP), a 5'-nucleotidase inhibitor, was evaluated as an adjunct to cold crystalloid cardioplegic myocardial protection. Cardiopulmonary bypass (CPB) was instituted at 28 degrees C in two groups of mongrel dogs (each, n = 6). Myocardial ischemia was induced for 150 min by aortic cross clamping. Crystalloid cardioplegia (4 degrees C) was infused into the aortic root at 15 ml/kg/20 min in the control group (CP). The experimental group (CP + AMPCP) received identical doses of cardioplegia supplemented with 250 microM AMPCP. While on CPB, the mean arterial pressure was 70 mm Hg and the myocardial temperature ranged from 16 to 22 degrees C. Hemodynamic parameters were recorded prior to institution of CPB and at 15 and 45 min following the termination of CPB. Starling curves were constructed for cardiac index (CI), mean arterial pressure (MAP), mean left ventricular pressure (LVP), +dP/dt and -dP/dt at each time point for left atrial pressures between 5 and 12.5 mm Hg. The area under each curve was calculated and expressed as a percentage of prebypass values. Statistical analysis was performed with Student's two-tailed t test. The data demonstrate that although recovery of CI, MAP, heart rate, and LVP was similar in both groups, statistically significant improvement in recovery of myocardial compliance (-dP/dt) and systolic function (+dP/dt) was seen with AMPCP. The addition of the 5'-nucleotidase inhibitor, AMPCP, to cold crystalloid cardioplegia enhances postischemic myocardial performance in vivo and may be useful during prolonged periods of global myocardial ischemia.
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PMID:5'-Nucleotidase inhibition enhances postischemic myocardial performance. 815 30

Isometric exercise increases sympathetic nerve activity and blood pressure. This exercise pressor reflex is partly mediated by metabolic products activating muscle afferents (metaboreceptors). Whereas adenosine is a known inhibitory neuromodulator, there is increasing evidence that it activates afferent nerves. We, therefore, examined the hypothesis that adenosine stimulates muscle afferents and participates in the exercise pressor reflex in healthy volunteers. Intraarterial administration of adenosine into the forearm, during venous occlusion to prevent systemic effects, mimicked the response to exercise, increasing muscle sympathetic nerve activity (MSNA, lower limb microneurography) and mean arterial blood pressure (MABP) at all doses studied (2, 3, and 4 mg). Heart rate increased only with the highest dose. Intrabrachial adenosine (4 mg) increased MSNA by 96 +/- 25% (n = 6, P < 0.01) and MABP by 12 +/- 3 mmHg (P < 0.01). Adenosine produced forearm discomfort, but equivalent painful stimuli (forearm ischemia and cold exposure) increased MSNA significantly less than adenosine. Furthermore, adenosine receptor antagonism with intrabrachial theophylline (1 microgram/ml forearm per min) blocked the increase in MSNA (92 +/- 15% vs. 28 +/- 6%, n = 7, P < 0.01) and MABP (38 +/- 6 vs. 27 +/- 4 mmHg, P = 0.01) produced by isometric handgrip (30% of maximal voluntary contraction) in the infused arm, but not the contralateral arm. Theophylline did not prevent the increase in heart rate produced by handgrip, a response mediated more by central command than muscle afferent activation. We propose that endogenous adenosine contributes to the activation of muscle afferents involved in the exercise pressor reflex in humans.
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PMID:Role of adenosine in the sympathetic activation produced by isometric exercise in humans. 816 67

The two-layer cold storage method using the University of Wisconsin solution (UW) allows continuous tissue adenosine triphosphate (ATP) production during the preservation period. UW contains 5mM of adenosine which has several mechanisms of action, however, its efficacy is controversial. In this study, at first, we investigated the metabolism of exogenous adenosine during preservation by the two-layer method in the canine pancreas graft subjected to 60 min warm ischemia. High concentration (> 5 mM) of adenosine in Euro-Collins' solution (EC) remarkably increased ATP and total adenine nucleotide (TAN) levels during 24 hr preservation by the two-layer method using EC. Furthermore, experiments with 5 mM of [2-3H] adenosine demonstrated that adenosine was metabolized and incorporated into adenine nucleotides (ANs). However, neither 5 mM of inosine, hypoxanthine nor adenine substituted for adenosine. It was clear that adenosine was directly phosphorylated and converted into ANs. Secondly, the effect of adenosine on the viability of the ischemically damaged pancreas graft was evaluated by graft survival following autotransplantation. The ischemically damaged pancreas grafts were preserved for 24 hours by simple cold storage in EC (group 1), EC with 5 mM of adenosine (group 2), the two-layer method using EC (group 3), EC with 5 mM of adenosine (group 4). Graft survival rates were 0/5 (0%), 1/5 (20%), 0/3 (0%) and 4/5 (80%) in groups 1, 2, 3 and 4 respectively. Adenosine was clearly effective on graft survival via recovering high tissue ATP and TAN levels only in case of the preservation by the two-layer method. We conclude that exogenous adenosine works as a substrate for ANs synthesis and is directly phosphorylated to ANs during preservation by the two-layer method. This is essential to repair damaged cells and maintain cellular integrity, making it possible to preserve ischemically damaged pancreas.
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PMID:The importance of adenosine metabolism in ischemically damaged canine pancreas during preservation by the two-layer cold storage method. 818 19

The effect of nucleoside transport inhibition on the adenylate catabolism was studied in the human myocardium under normothermic ischemic conditions. Ten hearts from cardiac transplant recipients and two hearts from cardiac homograft donors were used in this study. The hearts were excised under hypothermic conditions (25 degrees C body temperature), the coronary arteries flushed with 500 ml ice-cold Ringer solution (n = 6; group I) or with ice-cold Ringer solution containing 1 mg/l of the nucleoside transport inhibitor R75231 (n = 6; group II). After transportation at 0 degree C from the operation room, the hearts were quickly rewarmed to 37 degrees C. Serial transmural biopsy specimens were taken during normothermic ischemia for determination of purine catabolites. The level of ATP before normothermic ischemia was 17.5 +/- 1.0 mumol/g dry weight in the control group (group I) and 19.3 +/- 0.4 mumol/g dry weight in the drug group. ATP, expressed as percentage of total purine content, was similar in both groups before rewarming (79.5 +/- 4.3% in group I and 79.5 +/- 2.9% in group II). There was no significant difference in the rate of ATP breakdown in both groups throughout the experiment (ATP was 3.0 +/- 1.4% of total purines in group I and 1.4 +/- 0.2% in group II at 120 min of normothermic ischemia). Adenine nucleotide content changed also similarly in both groups. Adenosine accumulation was, however, significantly higher in group II than in group I (peak values: 4.6 +/- 1.0% of total purines in group I vs 14.0 +/- 1.7% in group II; p < 0.01). The ratio between adenosine and inosine was significantly higher in group II throughout normothermic ischemia (p < 0.01). In spite of a larger accumulation of adenosine in group II, the increase in inosine was similar in both groups. We conclude that nucleoside transport inhibition significantly delays the breakdown of adenosine and the formation of hypoxanthine in the ischemic human myocardium.
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PMID:Effect of nucleoside transport inhibition on adenosine and hypoxanthine accumulation in the ischemic human myocardium. 821 16

Adenosine (ADO) has been shown to be protective to the ischemic-reperfused myocardium. This study tested the hypothesis that inhibition of myocardial adenosine deaminase during cold storage will elevate tissue ADO content, improve the cardiac function, and preserve ATP. The isolated rat hearts (6-9 hearts/group) were flushed with a cardioplegic solution containing 0-75 microM erythro-9-(2-hydroxy-3-nonyl)adenine (EHNA) and immersion-stored at 0 degree C for 9 hr. Function was assessed after 30 min working reperfusion. Function of the unstored hearts (n = 11, mean +/- SE) including heart rate (293 +/- 13 bpm), aortic flow (AF; 52.5 +/- 1.1 ml/min), coronary flow (CF; 23.5 +/- 1.3 ml/min), cardiac output (CO; 76.0 +/- 2.1 ml/min), systolic pressure (SP; 136 +/- 2 mmHg), diastolic pressure (DP; 63 +/- 1 mm Hg), work (90.5 +/- 3.4 g-m/min), and coronary vascular resistance (CVR; 2.77 +/- 0.14 mmHg-min/ml) served as controls. Heart rate in all stored hearts returned to normal after reperfusion. Recovery of other function in no-EHNA group was: AF, 52 +/- 7; CF, 55 +/- 5; CO, 53 +/- 6; SP, 79 +/- 4; DP, 93 +/- 3; work, 47 +/- 7; and CVR, 171 +/- 15% of control. EHNA improved functional recovery in a dose-dependent fashion. At the optimal concentration of 25 microM, the recovery was: AF, 83 +/- 6; CF, 68 +/- 4; CO, 78 +/- 5; SP, 90 +/- 3; DP, 105 +/- 5; work, 77 +/- 8; and CVR 151 +/- 9% of control. ADO A1 receptor antagonists, 8-phenyltheophylline (1 microM) and 1,3-dipropyl-8-cyclopentylxanthine (0.1 microM) blocked the effects of 25 microM EHNA; the recovery of CO was reduced to 65 +/- 3 and 50 +/- 2% of the control, respectively. Tissue ADO content in 25 microM EHNA hearts at the end of storage was 95 +/- 19 nmol/g dry wt, which was significantly elevated from 15 +/- 3 nmol/g dry wt in no-EHNA hearts. EHNA also caused a 45-fold increase in the release of ADO over no-EHNA group during the first 10 min of reperfusion. But EHNA treatment did not cause any change in either end-storage or end-reperfusion myocardial ATP levels. Thus EHNA in cardioplegic solution inhibited cardiac ADO catabolism during long-term hypothermic storage and improved function preservation partially via an ADO A1 receptor-mediated mechanism without invoking ATP conservation.
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PMID:Adenosine deaminase inhibitor in cardioplegia enhanced function preservation of the hypothermically stored rat heart. 829 Nov 12

Adenosine is known to cause pain when injected intravenously or intra-arterially. We have conducted a double-blind placebo-controlled study by injecting adenosine intradermally in 6 healthy subjects (5 male, 1 female; age: 27-34 years). Pain was assessed using the visual analogue scale. The intradermal injection of 2 mumol of adenosine produced pain significantly greater than normal saline after 15 sec (T0) (29 +/- 13 vs. 7 +/- 6 mm, P = 0.004), 1 min after T0 (13 +/- 9 vs. 0 +/- 0 mm, P = 0.002) and 2 min after T0 (4.5 +/- 5 vs. 0 +/- 0 mm, P < 0.05). There was evidence of hyperalgesia to mechanical and heat stimuli at the injection site (primary hyperalgesia). There was no evidence of mechanical hyperalgesia in the cutaneous area surrounding the injected site (secondary hyperalgesia). In all cases the intradermal injection of adenosine produced local hyperemia (mean surface are: 147 +/- 69 mm2) which was absent after placebo injection. The pre-injection of bamiphylline, a rather selective antagonist of A1 adenosine receptors, differently from placebo, completely suppressed the adenosine-induced pain after 15 sec (T0) (15 +/- 10 vs. 0 +/- 0 mm, P = 0.002) and 1 min after T0 (9 +/- 7 vs. 0 +/- 0 mm, P = 0.002). No anesthesia to heat, cold and mechanical stimuli was detected at the bamiphylline site. The adenosine-induced erythematous area was wider at the bamiphylline pre-injected site than at the placebo pre-injected site (173 +/- 114 vs. 119 +/- 85 mm2).(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:Analgesic effect of bamiphylline on pain induced by intradermal injection of adenosine. 833 89

Previous studies from this institution using human cell cultures have suggested that University of Wisconsin solution is preferred for prolonged hypothermic storage for cardiac transplantation. The primary objective of this study was to evaluate the effectiveness of extended cardiac preservation with University of Wisconsin solution by assessing the time-related changes of purine metabolites using two different models of cold storage. Isolated rat hearts (n = 6/group) or human ventricular myocyte cultures (n = 7 dishes/group) were assessed after 0, 6, 12, and 24 hours in University of Wisconsin solution at 0 degrees C using high-performance liquid chromatography. Adenosine triphosphate content decreased from 18.1 +/- 5.4 to 9.6 +/- 2.7 mumol/g dried weight by 12 hours and to 1.0 +/- 0.6 mumol/g by 24 hours (p < 0.0001 by analysis of variance) in the rat model. Adenosine triphosphate content decreased from 0.64 +/- 0.42 to 0.14 +/- 0.11 nmol/micrograms DNA at 6 hours and to 0.04 +/- 0.03 nmol/micrograms DNA by 24 hours (p < 0.00001) in the cardiomyocytes. Inosine monophosphate content increased from 0.1 +/- 0.2 to 10.8 +/- 1.0 by 24 hours (p < 0.0001) in the rat studies. Inosine monophosphate values tended to increase up to 12 hours (p = 0.06) in the cell cultures and then declined. Adenosine concentration increased from 0.3 +/- 0.3 to 2.3 +/- 0.9 mumol/g at 6 hours and declined thereafter (p < 0.0005) in the rodent hearts. Adenosine concentration increased from 0.03 +/- 0.02 to 1.53 +/- 0.72 nmol/micrograms DNA at 6 hours (p < 0.0001) in the cardiomyocytes.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:Comparison of two experimental models for assessment of cardiac preservation. 841 63

Striated muscle becomes stunned during reperfusion after sublethal ischemia. Resistance vessel tone and reactivity are altered in stunned muscle tissues. The hypothesis that adenosine-regulated mast cell degranulation occurs during reperfusion and leads to constriction of resistance arterioles was tested. The hamster cremaster muscle was subjected to 1 h of ischemia followed by reperfusion. Resistance arterioles constricted during reperfusion (74% of maximal diameter at baseline vs. 42% of maximal diameter after 30 min of reperfusion; P < 0.01). Mast cells degranulated in reperfusion concomitant with arteriolar constriction. Stimulation of mast cell degranulation in control animals with compound 48/80 or cold superfusate (21 degrees C) caused vasoconstriction that mimicked that seen in reperfusion. The mast cell stabilizer cromolyn blocked degranulation and constriction. If mast cell granules were depleted by applying compound 48/80 before inducing ischemia, then arterioles failed to constrict during reperfusion. Adenosine A3-antagonist BW-A1433 abolished constriction. These findings suggest that arterioles constrict in reperfusion due to adenosine-regulated mast cell degranulation. Vasodilation in response to sodium nitroprusside and acetylcholine was normal in stunned, constricted arterioles. However, the dose-response curves to adenosine were shifted to the left in arterioles constricted by either stunning, compound 48/80, exposure to cold superfusate, or cromolyn compared with control vessels. Depletion of granular components via stunning, compound 48/80, cold superfusate, or inhibition of secretion with cromolyn results in unopposed A1- or A2-mediated vasodilation in response to adenosine, whereas the dilatory effects of adenosine are blunted by simultaneous release of vasoconstrictors from mast cells in control animals. In summary, it was found that mast cell degranulation occurs during reperfusion and leads to constriction of resistance arterioles and altered vascular reactivity to adenosine. Adenosine is released in ischemia and stimulates mast cell degranulation via the A3 receptor located on mast cells during reperfusion.
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PMID:Arteriolar constriction in skeletal muscle during vascular stunning: role of mast cells. 917 81


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