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:C0011570 (depression)
172,036 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Electrical activity was monitored with specially designed plunge electrodes in 19 animals undergoing 3 h of cardioplegic arrest. Electrical activity was recorded on electromagnetic tape and intramyocardial voltage was monitored with an inline voltmeter. Haemodynamic function was assessed before bypass and following 3 h of ischaemia and 45 min of reperfusion. Intramyocardial voltage during normothermic fibrillation measured 2.4 +/- 0.4 mv. Infusion of cardioplegia initiated a complete electrical arrest in all animals and reduced intramyocardial voltage to 33 +/- 7 mu v. Small amplitude electrical activity was present in 9 of 19 animals. Intramyocardial voltage increased to 108 +/- 12 mu v with the onset of small amplitude electrical activity and spectral analysis of the wave form indicated that the fundamental frequency was in the range of 3.08 Hz. Small amplitude electrical activity during cardioplegic arrest was associated with significant post-arrest depression of left ventricular function. Our data confirms that the presence of small amplitude electrical activity impairs myocardial functional recovery and suggests that continuous intramyocardial voltage monitoring may be used to guide the administration of cardioplegia during cardioplegic arrest.
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PMID:Monitoring the voltage of the myocardium during cardioplegia arrest. 262 82

The objective of this study was to characterize the effect of prostacyclin (PGI2) on ventricular function following total global ischemia in isolated working rat hearts and to investigate the mechanism of its action. Ischemia was initiated for 10, 15, 20 or 25 min with or without treatment with PGI2. Increasing durations of ischemia resulted in a progressive decline in high energy phosphate (HEP) stores, an elevation in tissue lactate, and incomplete recovery of function with reperfusion. Prostacyclin at either 1 or 10 ng/ml had no effect on HEP levels or total adenine nucleotides, and tissue lactate was not significantly affected by PGI2 in hearts made ischemic for 10 to 20 min, but both PGI2 concentrations significantly elevated lactate levels after 25 min ischemia. Reperfusion recovery of left ventricular function was complete following 10 and 15 min ischemia, but incomplete recovery was evident following 20 min ischemia (77% of pre-ischemic function); and although PGI2 had no direct effect on the function of aerobically perfused hearts, recovery of aortic flow with 1 ng/ml PGI2 after 20 min of ischemia was reduced to approximately 20% (P less than 0.01). This depression in recovery was associated with significantly increased lactate levels during reperfusion. At a concentration of 10 ng/ml PGI2 did not depress ventricular recovery or elevate lactate content after 20 min ischemia. When hearts made ischemic for 20 min were analyzed, a significant negative correlation was found between ventricular recovery (aortic flow rate) and lactate concentration; however, no correlation existed between recovery and ATP levels. After 25 min of ischemia, five of eight (62.5%) untreated hearts demonstrated some degree of ventricular recovery, however, only two of ten hearts studied demonstrated any measurable functional recovery with either PGI2 concentration. This effect of PGI2 to reduce or prevent recovery of ventricular function following either 20 or 25 min of ischemia as well as the corresponding elevation in lactate levels was prevented by treatment with the calcium channel blocker verapamil. This study therefore shows that PGI2 at critical low concentrations can depress left ventricular recovery following total ischemia. This effect of PGI2 becomes more pronounced as ischemia duration is prolonged and is associated with elevated tissue lactate levels. The studies with verapamil suggest that PGI2 may be acting via the slow calcium channel to increase lactate levels and depress ventricular recovery following prolonged periods of ischemia.
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PMID:Inhibition of post-ischemic ventricular recovery by low concentrations of prostacyclin in isolated working rat hearts: dependency on concentration, ischemia duration, calcium and relationship to myocardial energy metabolism. 266 90

Quantitative Evaluation of Relationship between Cardiac Energy Metabolism and Post-ischemic Recovery of Contractile Function. Mechanisms of ischemic damage were studied by defining the relationships between post-ischemic work recovery and tissue ATP levels in isolated rat hearts as well as mitochondrial respiration rates in skinned myofibrils. Pre-ischemic levels of ATP were reduced by 2-deoxyglucose treatment and assessed using 31P-NMR. A 70% fall of ATP was not associated with decreased functional recovery. Mitochondrial respiration was assessed without mitochondrial isolation in skinned cardiac fibers in physiological salt solution using a novel method developed by Veksler et al. Maximal rates of mitochondrial respiration were not changed after 35 min of normothermic ischemia using St. Thomas's Hospital cardioplegic solution followed by 30 min of aerobic reperfusion. Only a reversible increase in the rate of basal respiration and a decrease in creatine-stimulated oxygen uptake were observed. Thus, mitochondrial oxidative phosphorylation, as assessed in skinned myofibrils, was tolerant to an ischemic period which induced permanent depression of contractile function along with alterations in metabolite distribution. As a result, tissue level of ATP and rates of mitochondrial respiration provided an estimate of ischemic damage only in cases where damage reached a very severe extent.
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PMID:Quantitative evaluation of relationship between cardiac energy metabolism and post-ischemic recovery of contractile function. 273 31

Sustained left ventricular pressure development during each infusion of a cold calcium-containing hyperkalemic cardioplegic solution has been observed in rat hearts. The present study was undertaken to relate such contraction (i.e., increase in resting pressure) to myocardial preservation and to the calcium and magnesium contents of a crystalloid hyperkalemic cardioplegic solution. Isolated perfused rat hearts with a left ventricular isovolumic balloon were arrested at 8 degrees C by the fully oxygenated cardioplegic solution infused every 15 minutes for 2 hours. Cardioplegic solutions containing ionized calcium in concentrations of 0, 0.1, or 1.2 mmol/L were each studied with (groups 2, 4, and 6) and without (groups 1, 3, and 5) the addition of magnesium (16 mmol/L). Hearts arrested by the cardioplegic solution with no calcium or magnesium (group 1) developed a pressure (averaged over the second to eighth infusion and expressed as percent prearrest left ventricular pressure) of 6.0% +/- 0.4% during cardioplegic infusions. This solution maintained end-arrest myocardial adenosine triphosphate (13.1 +/- 1.0 nmol/mg dry weight) and phosphocreatine (21.7 +/- 2.8 nmol/mg dry weight) contents near the prearrest contents and preserved left ventricular function at 95% +/- 3% of prearrest developed left ventricular pressure at 15 minutes of reperfusion at 37 degrees C. Calcium (groups 3 and 5) increased pressure development during cardioplegic infusions (10.4% +/- 0.5% and 15.1% +/- 0.9%), depleted adenosine triphosphate (7.2 +/- 1.0 and 7.4 +/- 0.9) and phosphocreatine (13.3 +/- 1.8 and 10.7 +/- 1.5), and depressed left ventricular functional recovery (71% +/- 1% and 73% +/- 3%). Magnesium alone (group 2) decreased pressure development during cardioplegic infusions (3.0% +/- 0.3%), maintained adenosine triphosphate (15.6 +/- 0.9), augmented phosphocreatine (38.3 +/- 1.2), and preserved left ventricular function (99% +/- 4%). Magnesium added to calcium (groups 4 and 6) prevented the calcium-induced increased pressure development during cardioplegic infusions (4.0% +/- 0.5% and 6.7% +/- 0.6%), maintained adenosine triphosphate (13.6 +/- 1.4 and 14.9 +/- 0.7), augmented phosphocreatine (31.3 +/- 1.6 and 32.2 +/- 2.4), and ameliorated the depression of functional recovery (82% +/- 2% and 86% +/- 2%). These data suggest that left ventricular pressure development during arrest contributed to calcium-induced energy depletion and impairment of functional recovery and that these deleterious effects were inhibited by magnesium. The inhibitory effects of magnesium on left ventricular pressure development were rapidly reversed on reperfusion. The data support the addition
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PMID:The effects of calcium and magnesium in hyperkalemic cardioplegic solutions on myocardial preservation. 275 59

To investigate the temporal changes of global left ventricular function following nonpenetrating cardiac impact, studies were performed in ten purpose-bred dogs. Under full anesthesia and after hemodynamic and angiographic measurement, a midline thoracotomy was performed and a 12 m/sec blunt impact was delivered to the anterior surface of the heart in eight dogs with an air-pressurized impactor. Two dogs were sham operated and did not undergo trauma. After closing the chest, the hemodynamic measurements were repeated at 3 hours, 3 days, 2 weeks, and 5 weeks after impact. Hemodynamic measurements included left ventricular end-diastolic pressure and peak left ventricular positive and negative rates of change of pressure. Left ventricular ejection fraction was calculated from ventriculograms obtained with the dog positioned on its right side. All indices of left ventricular performance in dogs that underwent trauma were depressed at 3 hours after impact and recovered gradually to near normal levels at 2 to 5 weeks after trauma. Recovery of left ventricular function occurred in spite of residual patchy scarring of the left ventricular myocardium in the region of impact. No variability of left ventricular function indices was observed over the course of the study in the two sham-operated dogs. The results indicate that blunt cardiac impact can cause depression of left ventricular performance in the immediate post-impact period, but near complete recovery of function occurs within 2 to 5 weeks after the injury, in spite of residual scarring.
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PMID:Longitudinal evaluation of left ventricular performance in dogs following nonpenetrating cardiac trauma. 291 57

The Stroke Data Bank (SDB) is a systematic prospective study of the diagnosis, clinical course, and outcome of a large series of stroke cases. The SDB uses an interdisciplinary approach, with neurologists, nurse clinicians, epidemiologists, statisticians, and computer scientists collaborating to study stroke research issues, including diagnosis of stroke subtypes, characterization of the course and outcome of each stroke type, and identification of nonclinical factors that influence outcome. Research questions germaine to nursing management of stroke patients include: the identification of acute stroke patients likely to develop life-threatening or recovery-impeding complications; assessment of the impact of stroke on ability to perform activities of daily living; determination of how depression affects functional recovery; and identification of quantifiable measures of stroke outcome.
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PMID:The Stroke Data Bank project: implications for nursing research. 294 98

Contact hypersensitivity (CH) responsiveness to 2-4-dinitro-1-fluorobenzene (DNFB) is depressed in mice that are sensitized through skin sites exposed to ultraviolet radiation (UVR). This is partially due to a reduction in antigen-presenting cell (APC) activity within UVR-exposed skin, a condition marked by a decrease in the density of ATPase/Ia-positive epidermal cells. The purpose of this study was to correlate the histological and functional recovery of APC activity in the skin of C3H mice exposed to low-dose (4 X 450 J/m2) or high-dose (1 X 15 kJ/m2) UVR with the normalization of CH responsiveness. Skin biopsy specimens taken at various intervals after UVR exposure revealed a rapid recovery in the density of ATPase/Ia positive cells: about 70% of normal by 3 days, and normal after 5 days. Functional analyses showed that lymph node cells obtained from donors that were sensitized with DNFB 3 days after UVR treatment transferred normal ear-swelling responsiveness to non-primed recipients, thus indicating that APC activity in UVR-exposed skin paralleled the recovery of ATPase/Ia-positive epidermal cells. This suggested that an alternative mechanism causes the persistent depression of CH in mice exposed to UVR. Mice pretreated with indomethacin prior to UVR exposure demonstrated a capacity to elicit CH responses to DNFB, which paralleled the histological and functional recovery of APC in the skin (i.e., normal CH responses were elicited 3 days after exposure to UVR). We conclude from this study that APC activity in the skin recovers rapidly after exposure to UVR, and that a PG-dependent mechanism is responsible for many of the persistent and systemic effects that cause a depression in the CH responsiveness of mice treated with UVR.
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PMID:Parallel recovery of epidermal antigen-presenting cell activity and contact hypersensitivity responses in mice exposed to ultraviolet irradiation: the role of a prostaglandin-dependent mechanism. 296 91

The effects of methylprednisolone sodium succinate (20 mg/kg, intravenously administered) on the time course of functional recovery of myocardium following a 15-minute coronary artery occlusion period and subsequent 5 hour reperfusion period were studied in chronically instrumented, conscious dogs. In comparison to a control group, animals receiving methylprednisolone 90 minutes prior to coronary occlusion demonstrated less depression of regional segment shortening following 15 minutes of reperfusion (52 +/- 13% vs control levels of 23 +/- 7% of preocclusion values) and improved recovery at 5 hours postreperfusion (106 +/- 6% vs control levels of 54 +/- 4% of preocclusion values). In animals receiving methylprednisolone immediately prior to reperfusion, there was also similar recovery of segment shortening at 5 hours (97 +/- 3%). In contrast, dogs receiving methylprednisolone 15 minutes after the onset of reperfusion or sodium succinate (5.5 mg/kg, intravenously administered) 90 minutes prior to occlusion demonstrated no improvement in recovery of function. Experiments in dogs not subjected to coronary occlusion documented that methylprednisolone sodium succinate lacked inotropic and vasodilator properties. The results suggest that methylprednisolone administered prior to or during coronary artery occlusion but not after reperfusion enhances the functional recovery of hypokinetic, postischemic, reperfused myocardium. These effects are unrelated to any direct hemodynamic action of steroids or to the sodium succinate salt.
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PMID:Steroid-induced enhancement of functional recovery of postischemic, reperfused myocardium in conscious dogs. 305 86

The objective of the present study was to analyze the anatomical basis of the A5 depressor response and to test if the putative neurotransmitter noradrenaline is involved in the response. Two approaches were used; one was neuroanatomical and the other was pharmacological. First, the retrograde transport method in which two fluorescent markers (Fast blue and rhodamine microspheres) was used in combination with the indirect immunofluorescence technique to establish that A5 catecholamine neurons project to both the spinal cord and the region of the nucleus tractus solitarii (NTS). Second, we analyzed the effects of 6-hydroxydopamine (6-OHDA) lesions of the spinal cord and/or NTS area on the A5 depressor response. This response was elicited by a 80-nl microinjection of L-glutamate (500 mM) into the A5 region in pentobarbital anesthetized rats; it was characterized by a decrease in blood pressure and heart rate. After destruction of various noradrenergic terminal fields we have found that intraspinal injections of 6-OHDA caused a 30% reduction in the blood pressure component of the A5 depressor response and a transient depression of the bradycardic response. This result suggests that only a small portion of the A5 depressor response depends on the descending A5 spinal pathway. Injections of 6-OHDA into the NTS region caused a transient depression of the A5 depressor response, and by 7-14 days postinjection, the response returned to normal. After combined 6-OHDA injections into the spinal cord and NTS area, the blood pressure and heart rate components of the A5 depressor response were reduced to 80% of the control level at 3 days postinjection. By 14 days, even with severe depletion of noradrenaline in the spinal cord (96%) and a moderate depletion of noradrenaline in the NTS (50%), the A5 response was restored to about 80% of its original magnitude, suggesting some type of functional recovery occurs in this system. Third, the blood pressure decrease elicited by L-glutamate stimulation of the A5 cell group was unaffected by pharmacological blockade of the heart. In addition, this response appeared to be normal in rats that had both their autonomic supply to the heart blocked pharmacologically and their spinal cord noradrenaline levels depleted (14 days after intraspinal 6-OHDA injections). These data suggest that the major A5 depressor response operates mainly by inhibition of the sympathetic outflow involved in control of total peripheral resistance and that this system is controlled by a descending spinal pathway which probably does not use noradrenaline as a neurotransmitter.
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PMID:Descending noradrenergic pathways involved in the A5 depressor response. 309 95

Fatty acids are known to increase the severity of injury during acute myocardial ischemia. In this study, we determined the effects of a carnitine palmitoyltransferase I inhibitor, ethyl 2-[6-(4-chlorophenoxy)hexyl]oxirane-2-carboxylate (Etomoxir) on reperfusion recovery of fatty acid perfused hearts. Following a 25-minute period of global ischemia, isolated working hearts reperfused with 1.2 mM palmitate, 11 mM glucose exhibited depressed function compared to hearts perfused with 11 mM glucose alone. A low dose of Etomoxir (10(-9) M) decreased long chain acylcarnitine and long chain acyl-coenzyme A (CoA) levels but did not prevent depressed function. In contrast, a high dose of Etomoxir (10(-6) M) prevented the palmitate-induced depression of function but did not decrease myocardial long chain acylcarnitine or long chain acyl-CoA levels. At this high dose of Etomoxir, oxygen consumption per unit work was decreased during reperfusion recovery, and ATP and creatine-phosphate levels were significantly higher after reperfusion. In aerobic hearts not subjected to ischemia, Etomoxir (10(-6) M) increased glucose oxidation both in the presence and absence of palmitate, while 10(-9) M Etomoxir had no effect. In these aerobic hearts, only the low dose of Etomoxir decreased long chain acylcarnitine and long chain acyl-CoA levels. These data demonstrate that Etomoxir (10(-6) M) increases functional recovery of fatty acid perfused ischemic hearts. This protection is unrelated to changes in levels of long chain acylcarnitines but may be due to increased glucose use by the reperfused heart, resulting in decreased oxygen consumption per unit work.
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PMID:Etomoxir, a carnitine palmitoyltransferase I inhibitor, protects hearts from fatty acid-induced ischemic injury independent of changes in long chain acylcarnitine. 319 71


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