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: EC:3.4.11.18 (MAP)
7,412 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

We measured rat brain cortex PO2 (PtO2) with gold microelectrodes (tip diameter 5--10 micron) for up to 2 hours after 16 min of transient global brain ischemia with and without thiopental 90 mg/kg infused iv over 60 min beginning at 5 min postischemia. Seventeen rats were immobilized and mechanically ventilated on 1% halothane in oxygen with continuous monitoring of PtO2, ECG, end-expiratory CO2, rectal temperature, and arterial blood pressure. Global ischemia was induced by trimethaphan hypotension to an MAP of about 50 torr and a neck tourniquet inflated to 1500 torr. Postischemia, nine control rats (11 PtO2 measurements) were untreated and eight rats (8 PtO2 measurements) received thiopental 90 mg/kg. Preischemia, PtO2 values in both groups ranged from less than 5--70 torr with values of greatest frequency between 10 and 15 torr. Postischemia, PtO2 in control rats peaked at 45 +/- 8 (SEM) torr at 20 min. In thiopental treated rats, peak PtO2 was 24 +/- 6 torr at 10 min postischemia. Relative frequency histograms of PtO2 revealed that PtO2 in thiopental treated rats was lower (p less than 0.05) between 15 and 30 min postischemia. The magnitude of the decrease in PtO2 between 105 and 120 min postischemia appeared to correlate directly with the absolute preischemic value (i.e., the higher the preischemic PtO2, the greater the decrease in PtO2 postischemia). These results suggest that thiopental administered in large doses in early postischemia does not improve brain oxygenation secondary to a reduction in brain oxygen consumption. The relevance of the correlation between the magnitude of the fall in PtO2 postischemia and the magnitude of the preischemic value is discussed.
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PMID:Postischemic brain oxygenation with barbiturate therapy in rats. 3 43

There is general concern that major blood loss during deliberate hypotension could produce severe organ ischemia, but documentation of the magnitude of this response remains obscure. To examine this response, we studied 43 male Sprague-Dawley rats that were divided into seven groups: the control animals received 1 MAC (1.4%) isoflurane only; the hypotensive animals received a 1.4% isoflurane baseline anesthetic and were then rendered hypotensive by either increasing the isoflurane concentration (dISO), or by adding sodium nitroprusside (SNP), or 2-chloroadenosine (2AD) to the baseline anesthetic, decreasing the MAP to 51 mmHg; hemorrhaged animals had hypotension produced in the same manner as for the hypotensive animals, but additionally were bled 20% of estimated blood volume during deliberate hypotension produced with either deep isoflurane (dISOH), sodium nitroprusside (SNPH), or 2-chloroadenosine (2ADH). After a 25-min period of hypotension, or hypotension plus hemorrhage, cardiac output and blood flow to brain, heart, gastrointestinal tract, kidney, and liver were measured with 141Ce-labelled 15-microns microspheres. Hypotension was associated with decreased blood flow to the kidneys in all groups and to the liver in the 2AD group and an increased blood flow to the heart in the SNP and 2AD groups. Hemorrhage decreased blood flow during deliberate hypotension to the brain and the gastrointestinal tract in the dISOH and 2ADH groups and to the liver in the dISOH group. Our results suggest that hemorrhage during deliberate hypotension with dISO or isoflurane plus 2AD may be associated with compromised organ blood flow, whereas blood flow to vital organs is maintained after 20% hemorrhage during isoflurane and superimposed SNP-induced hypotension.
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PMID:The influence of hemorrhage on organ perfusion during deliberate hypotension in rats. 834 11

Resuscitability and outcome after prolonged cardiac arrest were compared in dogs with standard external cardiopulmonary resuscitation (CPR) vs. closed-chest emergency cardiopulmonary bypass (CPB). Ventricular fibrillation (VF) was with no blood flow from VF 0 min to VF 10 min. Subsequent CPR basic life support (BLS) was from 10 min to VF 15 min. Then, group I (n = 13) received CPR advanced life support (ALS) from VF 15 min until restoration of spontaneous circulation to occur not later than VF 40 min. Group II (n = 14) received CPR-ALS from VF 15 min to VF 20 min without defibrillation, and then total CPB to defibrillation attempts started at VF 20 min, followed by assisted CPB to 2 h. Total ischemia time (no-flow time plus CPR time of MAP less than 50 mmHg) was unexpectedly shorter in group I (14.3 +/- 2.5 min) than in group II (18.6 +/- 2.3 min) (P less than 0.01). During CPR-BLS, coronary perfusion pressures were 25 +/- 9 mmHg in group I and 18 +/- 8 mmHg in group II (NS). Epinephrine during CPR-ALS, before countershock, raised coronary perfusion pressure to 40 +/- 10 mmHg in group I and 27 +/- 10 mmHg in group II (NS). In group II, coronary perfusion pressure increased during total CPB to 58 +/- 16 mmHg (P less than 0.01 vs. group I). Spontaneous normotension was restored in 11/13 dogs of group I and all 14 dogs of group II (NS). Ten dogs in each group followed protocol and survived to 96 h. Five of ten in group I and six of ten in group II were neurologically normal (NS). We conclude that: (1) Reperfusion with CPB yields higher coronary perfusion pressures than reperfusion with CPR-ALS; and (2) even after no blood flow for 10 min, optimized CPR can result in cardiovascular resuscitability and neurologic recovery, similar to those achieved by CPB.
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PMID:A comparison of cardiopulmonary resuscitation with cardiopulmonary bypass after prolonged cardiac arrest in dogs. Reperfusion pressures and neurologic recovery. 165 19

It was demonstrated recently that a local renin-angiotensin system (RAS) exists in the heart and coronary vessels, and the angiotensin converting enzyme inhibitors can protect the heart from ischemia. Eight patients with NYHA class II-IV subjected to valve replacement were studied in protecting the heart from global ischemia with captopril during open heart surgery. After the ascending aorta was clamped, 500-1000 ml 4 degrees C modified St. Thomas No 1 cardioplegic solution containing 0.058-0.23 mmol/L captopril was perfused into coronary arteries under pressure until the electrocardiogram showed disappearance of myocardial electroactivity. The cardioplegic perfusion was repeated every 30 minutes thereafter during cardiopulmonary bypass (CPB). All the hearts rebeat after reperfusion either spontaneously or from defibrillation without any trouble. Three patients developed an A-V dissociation which returned to sinus rhythm or atrial fibrillation after a tiny dose of dopamine or isoprenaline intravenously. All the patients weaned from the CPB easily with a stable heart rate and a reasonable MAP. None of them needed inotropic support, even those with severe heart failure before operation did not either, and all recovered uneventfully.
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PMID:Captopril as a component of cardioplegia in protecting the myocardium from global ischemia during open heart surgery. A preliminary clinical report. 187 3

Previous studies have shown that the recently injured brain has an increased sensitivity to subsequent brief episodes of severe ischemia. This investigation was designed to assess whether less severe secondary insults, which alone would be incapable of producing injury, exacerbate brain damage resulting from a primary episode of global ischemia. Rats were subjected to either 10 min of 2-vessel forebrain ischemia (primary insult alone), 20 min of hypotension (mean arterial pressure, MAP = either 40 or 25 mmHg) without vessel occlusion (secondary insult alone), or 10 min ischemia followed 1 h later by the hypotensive challenge (primary + secondary insult). Seven days later, the animals were neurologically evaluated and the brains then prepared for histologic analysis. Neither magnitude of secondary insult alone was found to produce injury. In contrast, the primary insult alone caused moderate damage in the hippocampus, caudoputamen and neocortex. With the exception of increased neuronal necrosis in the hippocampal CA1 sector in rats receiving the primary + secondary insult (MAP = 25 mmHg), no worsening of outcome could be attributed to the secondary insults. These results indicate that the recovering brain may not be as sensitive to hypoperfusion as has previously been suggested.
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PMID:Secondary hypotensive insults in a rat forebrain ischemia model. 208 46

During cerebral aneurysms surgery, brain tissue may suffer for global or local ischemia due to deliberate hypotension and surgical manoeuvres. Somatosensory evoked potentials (SEPs) can detect functional derangements consequent to hypoxia, before a permanent brain damage is produced. Forty two patients, undergoing cerebral aneurysms surgery for treatment of SAH, were evaluated intraoperatively with SEP recordings. It has been stressed that no permanent neurological damage is to be expected if the absolute value of Central Conduction Time (CCT) does not exceed 9.5 ms for 10 min at least and the cortical waves are visible throughout the whole procedure. SEP changes are strictly related with MAP decrease and surgical handlings.
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PMID:Intra-operative monitoring by means of somatosensory evoked potentials during cerebral aneurysms surgery. 228 8

Co-storage of enkephalins and catecholamines in coronary artery, mesenteric artery and vein, middle cerebral artery, vas deferens and adrenal medulla was studied in domestic pig (Sus scrofa). Responses to acute CNS ischemia were correlated with time to peak plasma levels of central venous and adrenal vein outflow samples in controls, during reserpine treatment and after drug withdrawal. Endogenous enkephalins are co-stored in chromaffin granules of adrenal epinephrine-type cells and large dense cored vesicles of noradrenergic terminals. After a lag period, reserpine at near 'therapeutic' doses caused an apparent induction of opioid peptide precursor synthesis accompanied by processing to enkephalins in adrenal medulla up to 8-fold by 30 days and in mesenteric vein up to 4.5-fold by 14 days. Upon 14 days recovery from reserpine, elevated adrenal enkephalins were maintained and depleted catecholamines were largely replenished. Acute CNS ischemia produced rises in MAP (approx. 80 mmHg), marked net depletions of noradrenergic enkephalin stores, and net increases in adrenal vein outflow and central venous levels of enkephalins and catecholamines. Noradrenergic terminals contributed significantly to circulating enkephalins as well as norepinephrine. Reserpine for 7 days nearly abolished all tested responses to acute CNS ischemia, but immediate net 200-400% elevations of endogenous enkephalin stores occurred in coronary artery and mesenteric artery and vein (apparent processing of reserpine-induced neuronal precursor stores). Thus, induction of new synthesis of precursor opioid peptides by reserpine, with or without parallel processing to enkephalins, occurs in noradrenergic terminals in many tissues. All effects of reserpine on endogenous enkephalins implicate a central mechanism to inhibit sympathoadrenal outflow to the periphery. At 14 days recovery from reserpine, when near normal cardiovascular responses to acute CNS ischemia were regained, there was increased net release of the elevated adrenal enkephalins, exaggerated peak plasma enkephalin concentrations, but only minimal depletions of enkephalins from noradrenergic terminals.
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PMID:Neuronal and adrenal enkephalins and catecholamines in response to acute CNS ischemia and reserpine in pig. 234 53

CPP reflects perfusion problems related to increased ICP or inadequate MAP. CPP is a most helpful and practical management tool. The relationship of CBF and CPP depends on cerebral vascular resistance (flow equals pressure divided by resistance). At present, we do not have a practical method to measure vascular resistance or CBV. A close relationship between an increase in CBV and increase in ICP exists. However, the relationship between CBF and ICP is more complex. Whereas CBV is strongly dependent on vasodilation and venous return, CBF is influenced by CPP, vascular resistance, viscosity changes, and focally or diffusely increased ICP. For instance, in hypotensive shock one finds a low CBF with an elevated CBV (and ICP) from vasodilation related to hypercapnia, anoxia, or acidosis. Nevertheless, about two thirds of patients with increased ICP after head injury have increased CBF (hyperemia) and increased CBV. This frequent hyperemia is one rationale for the wide usage of hyperventilation to treat increased ICP. It must be recognized that a group of patients may have ischemia caused by excessive hyperventilation therapy for increased ICP. The PaCO2 must not be allowed to decrease to 20 mmHg or lower, but in some patients a PaCO2 level of 21 to 25 may be predisposing to ischemia. Strong consideration is thus given to monitoring CBF and cerebral oxygen metabolism (arteriovenous oxygen content difference [AVDO2], CMRO2) in states of coma and increased ICP. In such patients, continuous infusion of mannitol may result in improved CBF, and hyperventilation therapy can be less aggressive.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:Nonsurgical management of increased intracranial pressure. 270 May 10

In rats with incomplete cerebral ischemia the effects of 70% N2O alone, isoflurane alone (0.5 and 1 MAC), and the combination of N2O + isoflurane on neurologic outcome, neurohistopathology, and EEG were compared. Moderate and severe ischemia were produced by right carotid artery occlusion combined with hemorrhagic hypotension (moderate ischemia, MAP = 30 mmHg, FIO2 = 0.30; severe ischemia, MAP = 25 mmHg, FIO2 = 0.20). Neurologic outcome was evaluated using a graded deficit score from 0 to 5 (0 = normal, 5 = death associated with stroke), and neurohistopathology was evaluated using a 40-point scale from 0 = normal to 40 = total hemisphere infarct at the level of the caudate nucleus in coronal section. Compared with N2O alone, isoflurane (0.5 and 1 MAC) improved neurologic outcome following moderate ischemia (P less than 0.05). Isoflurane also decreased histopathologic damage following moderate ischemia (N2O control = 33 +/- 1 vs. 0.5 MAC isoflurane = 11 +/- 4 and 1 MAC isoflurane = 12 +/- 3, P less than 0.05), whereas only 0.5 MAC isoflurane decreased histopathologic damage following severe ischemia (N2O control = 38 +/- 1 vs. 0.5 MAC isoflurane = 25 +/- 5; P less than 0.05) Adding N2O to 0.5 MAC isoflurane attenuated the neurologic protective effect of isoflurane alone and increased histopathologic damage following both moderate and severe ischemia (moderate = 23 +/- 5, severe = 37 +/- 2; both P greater than 0.05 compared with N2O controls). The effect of adding 70% N2O to isoflurane on cerebral blood flow (CBF) and cerebral oxygen consumption(CMRO2) was also evaluated.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:The interaction of nitrous oxide and isoflurane with incomplete cerebral ischemia in the rat. 271 9

The utility of evoked potentials in monitoring spinal cord and cerebral function in various neurosurgical and orthopedic operations has now been established. To study the effects of graded hypotension upon spinal and cortical somatosensory evoked potentials (SMEPs), and spinal motor evoked potentials (SMEPs), 12 anesthetized cats were subjected to graded hypotension ranging from a mean arterial blood pressure of 100 mmHg to 30 mmHg or less. Hypotension causes a progressive increase in onset latency and a decrease in amplitude and conduction velocity of SEPs and SMEPs. Cortical SEPs and SMEPs were sensitive to profound hypotension (MAP less than 30 mmHg). Spinal SEPs showed more resistance and disappeared at lower levels of hypotension. Immediate blood transfusion caused resumption of cortical SEPs and SMEPs within 30 minutes after infusion; however, the latency and amplitude of responses did not reach the baseline values within 1 hour after transfusion. The sequential recovery of evoked responses was dependent upon the length of hypotension. When 15 minutes elapsed between loss of responses and transfusion, cortical SEPs and SMEPs did not resume within 1 hour after infusion. No return of signals occurred if 30 minutes elapsed between the loss of evoked responses and blood reperfusion. These findings suggest that ischemia associated with profound systemic hypotension can alter or obliterate evoked responses.
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PMID:Effects of hypovolemic hypotensive shock on somatosensory and motor evoked potentials. 291 75


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