UMLS:C0022116 - FACTA Search

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Query: UMLS:C0022116 (ischemia)
91,303 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

The empiric administration of 50% dextrose to all patients presenting to the ED with altered mental status is a standard of care predicated on the assumption that glucose administration is harmless to nonhypoglycemic patients. Considerable evidence now disputes this assumption. Glucose administration before complete cerebral ischemia in experimental animals worsens neurologic and histologic outcome. Administration of glucose during severe incomplete ischemia has a similar detrimental effect. The translation of these experimental findings into clinical practice has been slow, perhaps hindered by the frequent use of rodent models and large bolus doses of glucose. However, evidence is now provided by primate and human studies and by experimental designs using clinically relevant doses of glucose. These clinical and experimental findings in conjunction with the wide availability of a rapid bedside screen for hypoglycemia provide the rationale for an alteration in the standard of care. The empiric administration of glucose should be avoided in patients at risk of cerebral ischemia, such as those with acute stroke, impending cardiac arrest, or severe hypotension or receiving CPR. A bedside fingerstick blood glucose estimation should be performed immediately on all patients presenting with altered mental status. The administration of 50% dextrose should be reserved for those patients in whom hypoglycemia is demonstrated; this practice will uphold Hippocrates' most basic principle of clinical medicine, "The physician must...do no harm."
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PMID:50% dextrose: antidote or toxin? 212 May 1

Peripheral sensory nerve abnormalities were investigated in long-term streptozotocin diabetic rats using quantitative analysis. To determine whether the characteristic structural changes occur with a proximodistal gradient, three levels of the sensory peripheral nervous system were investigated: the postganglionic segment of the dorsal root, the midportion of the sciatic nerve, and the distal sural nerve. Reduction of myelinated fiber size due to reduced axonal caliber was the most characteristic change at both proximal and distal levels of the peripheral nerve. The relationship between axonal size and myelin spiral length indicated a more severe axonal atrophy in the distal portion. The axonal atrophy was related to a proportional loss of axonal neurofilaments at proximal levels, whereas in the distal sural nerve the loss of neurofilaments exceeded that which would be expected for axonal size. The universal reduction of axonal size in diabetic nerve may be accounted for by impaired supply of neurofilaments or reduced neurofilament synthesis. Such cytoskeletal defects may, in turn, lead to distal axonal degeneration or contribute to the susceptibility of diabetic nerve to various external noxi, including ischemia and hypoglycemia.
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PMID:Reduced myelinated fiber size correlates with loss of axonal neurofilaments in peripheral nerve of chronically streptozotocin diabetic rats. 214 49

Pharmacological inhibition of excitatory neurotransmission attenuates cell death in models of global and focal ischemia and hypoglycemia, and improves neurological outcome after experimental spinal cord injury. The present study examined the effects of the noncompetitive N-methyl-D-aspartate receptor blocker MK-801 on neurochemical sequelae following experimental fluid-percussion brain injury in the rat. Fifteen minutes after fluid-percussion brain injury (2.8 atmospheres), animals received either MK-801 (1 mg/kg, i.v.) or saline. MK-801 treatment significantly attenuated the development of focal brain edema at the site of injury 48 h after brain injury, significantly reduced the increase in tissue sodium, and prevented the localized decline in total tissue magnesium that was observed in injured tissue of saline-treated animals. Using phosphorus nuclear magnetic resonance spectroscopy, we also observed that MK-801 treatment improved brain metabolic status and promoted a significant recovery of intracellular free magnesium concentrations that fell precipitously after brain injury. These results suggest that excitatory amino acid neurotransmitters may be involved in the pathophysiological sequelae of traumatic brain injury and that noncompetitive N-methyl-D-aspartate receptor antagonists may effectively attenuate some of the potentially deleterious neurochemical sequelae of brain injury.
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PMID:Effect of noncompetitive blockade of N-methyl-D-aspartate receptors on the neurochemical sequelae of experimental brain injury. 216 32

To better understand and treat painful conditions, one needs to identify the cause, discover the source, and develop knowledge of peripheral and central pain transmission; headaches are no exception. The development of appropriate animal models is important. Accordingly, we have reviewed the anatomy, neurochemistry, electrophysiology, and pharmacology of the trigeminovascular system in experimental animals and emphasized whenever possible the relevance of this final common pathway to migraine, cluster, and other headache syndromes in humans. For example, based on recent anatomic dissections, the pericarotid cavernous sinus plexus was suggested as an important focus to investigate cluster headache pathophysiology. This plexus is an anatomic point of convergence for the nerves giving rise to the signs of sympathetic and parasympathetic activity and sensory symptoms that develop in cluster patients. As in other nociceptive systems, trigeminovascular axons assume at least two important roles. One concerns the transmission of nociceptive information. Electrophysiologic evidence supports the trigeminal nucleus caudalis as an important site for the convergence of visceral (vessel) and somatic (forehead) inputs to mediate the referral of vascular pain to superficial tissues. A second important role concerns the initiation of local increases in blood flow and enhanced protein permeability (sterile inflammation) via the axonal release of vasoactive neuropeptides. Plasma extravasation develops within the dura mater following trigeminal stimulation. Extravasation can be blocked by the administration of ergot alkaloids or sumatriptan, a new serotonin-like agonist, and a prejunctional (neuronal) mechanism of action for these drugs (such as blockade of release) was suggested based on experimental evidence. Whether vasoconstriction also relates to the therapeutic efficacy remains to be determined. As in other organ systems, real or threatened tissue injury provides an important stimulus for depolarizing sensory fibers. The stimulus may come from external conditions such as reduced blood flow or hypoglycemia. The brain may also possess intrinsic neuronal mechanisms by which nociceptors may be synthesized (e.g., glutamate-induced neurotoxicity, seizures). Molecules of relevance include bradykinin, prostaglandins, leukotrienes, and potassium. Experimental evidence was presented demonstrating that the trigeminal nerve mediates hyperemia within cortical gray matter by axon-reflex like mechanisms. An important role for this nerve was established during the hyperemic period of recirculation after ischemia or during severe hypertension above the limits of autoregulation.(ABSTRACT TRUNCATED AT 400 WORDS)
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PMID:Basic mechanisms in vascular headache. 217 82

L-Glutamate and related excitatory amino acids (EAA) are firmly established as major excitatory synaptic transmitter substances in the vertebrate central nervous system. Questions which have been addressed include: How many receptors are there for the EAAs?; What ion channels and/or 'second-messenger' systems are regulated by these receptors?; What are the roles of EAAs in higher neural functions?; Are they involved in neurological disorders? EAA receptors appear not only to mediate normal synaptic transmission along excitatory pathways but also to participate in the modification of synaptic connections during development. However, overaction of receptors can also mediate neuronal degeneration and even cell death. NMDA receptor antagonists markedly attenuate neuronal necrosis. Therefore, it appears that ischemia- and hypoglycemia-associated brain damage results not from a lack of energy substrates but rather via the mediation of NMDA receptors and 'excitotoxic' mechanisms. The action of ketamine anesthesia is closely associated with a block of the NMDA receptor. Ketamine binds to a site within the lumen of the NMDA-activated channel and can become trapped there when the channel closes. Current evidence indicated that NMDA receptor antagonists will be of value for the treatment of delayed neuronal death. NMDA receptor will lead to understanding the mechanisms underlying learning and memory, the control of neuronal excitability and neuronal death.
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PMID:[Synaptic mechanisms of excitatory amino acids and NMDA receptor mediated brain excitability]. 217 10

The empiric administration of 50% dextrose to all patients presenting to the ED with altered mental status is a standard of care predicated on the assumption that glucose administration is harmless to non-hypoglycemic patients. Considerable evidence now disputes this assumption. Glucose administration before complete cerebral ischemia in experimental animals worsens neurologic and histologic outcome. Administration of glucose during severe incomplete ischemia has a similar detrimental effect. The translation of these experimental findings into clinical practice has been slow, perhaps hindered by the frequent use of rodent models and large bolus doses of glucose. However, evidence is now provided by primate and human studies and by experimental designs using clinically relevant doses of glucose. These clinical and experimental findings in conjunction with the wide availability of a rapid bedside screen for hypoglycemia provide the rationale for an alteration in the standard of care. The empiric administration of glucose should be avoided in patients at risk for cerebral ischemia, such as those with acute stroke, impending cardiac arrest, or severe hypotension or receiving CPR. A bedside fingerstick blood glucose estimation should be performed immediately on all patients presenting with altered mental status. The administration of 50% dextrose should be reserved for those patients in whom hypoglycemia is demonstrated; this practice will uphold Hippocrates' most basic principle of clinical medicine, "The physician must ... do no harm."
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PMID:50% dextrose: antidote or toxin? 218 38

1. Rats which survived hypoglycemia by insulin, hypoxia by 10% O2, or ischemia by carotid ligation and hypotension to 40 mm Hg, evidenced no changes in cerebrospinal fluid (CSF) uridine. Animals which died soon after the above interventions or as a result of KCl-induced cardiac arrest had elevated CSF uridine concentrations. 2. Injection of whole blood or the soluble contents of lysed blood cells into the lateral ventricle of rats reduced CSF uridine to less than one-half normal at 24 hrs but values returned to normal 3 days later. Changes in hypoxanthine resembled those of uridine, but were less dramatic, whereas xanthine concentrations were largely unaltered. Intraventricular injection of plasma or saline did not alter CSF uridine. 3. It seems most likely that low CSF uridine concentrations previously reported in head injury patients may be secondary to the effects of blood cell contents in the cerebrospinal fluid, rather than responses to altered metabolism in neurons or glia cells.
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PMID:Opposite alterations in cerebrospinal fluid uridine after severe cerebral ischemia or intrathecal blood injection. 225 61

The effects of various metabolic inhibitors on the time course of changes in membrane potential was studied using intracellular recordings from CA1 hippocampal neurons in vitro. Concurrent application of cyanide and iodoacetic acid, agents which block oxidative phosphorylation and glycolysis respectively, result in more rapid loss of membrane function than blockade of either pathway alone. This pharmacological regimen mimics the anoxia and the hypoglycemia encountered during ischemia in vivo, both in terms of the metabolic derangement as well as the time course of changes in membrane function. Thus, this treatment appears to represent a well-controlled pharmacological model of ischemia in vitro.
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PMID:A pharmacological model of ischemia in the hippocampal slice. 228 Aug 93

Sulfonylurea-sensitive adenosine triphosphate (ATP)-regulated potassium (KATP) channels are present in brain cells and play a role in neurosecretion at nerve terminals. KATP channels in substantia nigra, a brain region that shows high sulfonylurea binding, are inactivated by high glucose concentrations and by antidiabetic sulfonylureas and are activated by ATP depletion and anoxia. KATP channel inhibition leads to activation of gamma-aminobutyric acid (GABA) release, whereas KATP channel activation leads to inhibition of GABA release. These channels may be involved in the response of the brain to hyper- and hypoglycemia (in diabetes) and ischemia or anoxia.
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PMID:Glucose, sulfonylureas, and neurotransmitter release: role of ATP-sensitive K+ channels. 230 57

A transient brain ischemia of 30-min duration was induced by the four-vessel occlusion technique in normally fed and in 48-hr-fasted rats. Evaluation of brain damage 72 hr after ischemia showed that fasting reduced neuronal necrosis in the striatum, the neocortex, and the lateral part of the CA1 sector of hippocampus. Signs of status spongiosis in the pars reticulata of the substantia nigra were seen in 75% of fed rats and in only 19% of fasted rats. The protective effect was associated with reduction in mortality and in postischemic seizure incidence. The metabolic changes induced by fasting were evaluated before and during ischemia. After 30 min of four-vessel occlusion, fasted rats showed a marked decrease in brain lactate level (14.7 vs 22.5 mumol/g in fed rats; P less than 0.001). The decrease in brain lactate concentration might explain the beneficial effect of fasting by minimizing the neuropathological consequences of lactic acidosis. Several factors may account for lower lactate production during ischemia in fasted rats: hypoglycemia, reduction in preischemic stores of glucose and glycogen, or increased utilization of ketone bodies aiming at reducing the glycolytic rate.
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PMID:Fasting prior to transient cerebral ischemia reduces delayed neuronal necrosis. 238 15

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