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Significant Neuroprotection (significant + neuroprotection)

Distribution by Scientific Domains
Medical Sciences75%

Selected Abstracts

Hyperbaric Oxygen Does Not Prevent Neurologic Sequelae after Carbon Monoxide Poisoning

ACADEMIC EMERGENCY MEDICINE, Issue 1 2002
Benjamin Gilmer MS
Abstract Delayed neurologic sequelae occur in up to 40% of severe carbon monoxide (CO) poisonings. Conflicting clinical data support the efficacy of hyperbaric oxygen (HBO) therapy in the acute treatment of CO poisoning. Objective: To determine whether oxygen therapy reduces neurologic sequelae after CO poisoning in mice. Methods: Male Swiss-Webster mice were exposed to CO at 1,000 ppm for 40 minutes and then 50,000 ppm until loss of consciousness (LOC) (4-9 additional minutes). Total time of both phases of CO exposure was 40-49 minutes. Treatment included HBO with 3 atmospheres (ATA) 100% oxygen, normobaric oxygen (NBO) with 1 ATA 100% oxygen, or ambient air 15 minutes after LOC. All animals underwent passive avoidance training and memory was assessed by measuring step-down latency (SDL) and step-up latency (SUL) seven days following CO exposure. Results: Carbon monoxide poisoning induced significant memory deficits (SDLCO= 156 sec; SULCO= 75%) compared with nonpoisoned (NP) animals (SDLNP= 272 sec; SULNP= 100%). Both HBO and NBO did not prevent these neurologic sequelae. Furthermore, no significant neurobehavioral differences were found between HBO and NBO. Histologic examination of the CA1 layer of the hippocampus for pyknotic cells showed significant damage from CO in the air-treated animals (9.6%) but not in the nonpoisoned animals (3.8%). No significant neuroprotection was seen histologically with NBO and HBO compared with ambient air. Conclusions: These results suggest that HBO is not effective in preventing neurologic sequelae in mice and that there is no benefit of HBO over NBO following severe CO neurotoxicity. [source]

Preconditioning with thrombin can be protective or worsen damage after endothelin-1-induced focal ischemia in rats

JOURNAL OF NEUROSCIENCE RESEARCH, Issue 3 2006
Petra Henrich-Noack
Abstract The serine protease thrombin has shown direct neuroprotective and neurotoxic effects on brain tissue in cerebral ischemia. Previous data suggested that thrombin-induced protection in vivo can be achieved by preconditioning rather than by acute treatment. In the current work, we used a model of mild ischemia to investigate the effects of preischemic intracerebral thrombin injection on neural damage. By intracerebral injection of endothelin-1 in freely moving animals, we achieved middle cerebral artery occlusion (MCAO), and 7 days postischemia we performed histological quantification of the infarct areas. Thrombin was injected as a preconditioning stimulus intracerebrally 7 days or 2 and 3 days before ischemia. For acute treatment, thrombin was injected 20 min before MCAO. Thrombin induced significant neuroprotection when given 7 days before endothelin-1-induced MCAO but was deleterious when given 2 and 3 days before the insult. The deleterious effect was not seen when thrombin was given acutely before ischemia. Our data demonstrate that preconditioning with thrombin can protect against damage or worsen ischemic damage. Its effect depended on the time interval between thrombin injection and insult. A low dose of thrombin did not induce a major deleterious effect in the acute phase of the infarct development after mild transient ischemia. © 2006 Wiley-Liss, Inc. [source]

Does cigarette smoking provide clinically significant neuroprotection among patients diagnosed with Parkinson's disease?

MOVEMENT DISORDERS, Issue 5 2005
Spiridon Papapetropoulos MD
[source]

Delta2 -Specific Opioid Receptor Agonist and Hibernating Woodchuck Plasma Fraction Provide Ischemic Neuroprotection

ACADEMIC EMERGENCY MEDICINE, Issue 3 2008
Meera Govindaswami PhD
Abstract Objectives:, The authors present evidence that the , opioid receptor agonist Deltorphin-Dvariant (Delt-Dvar) and hibernating woodchuck plasma (HWP), but not summer-active woodchuck plasma (SAWP), can provide significant neuroprotection from focal ischemia in mice by a mechanism that relies in part on reducing nitric oxide (NO) release in ischemic tissue. Methods:, Cerebral ischemia was produced in wild-type and NO synthase,deficient (NOS,/,) mice by transient, 1-hour middle cerebral artery occlusion (MCAO). Behavioral deficits were determined at 22 hours and infarct volume was assessed at 24 hours after MCAO. Mice were treated with saline or Delt-Dvar at 2.0 and 4.0 mg/kg, or 200 ,L of HWP or SAWP. NOS,/, mice were treated with either saline or Delt-Dvar at 4.0 mg/kg. NO release was determined using an N9 microglial cell line pretreated with ,- or ,-specific opioids and HWP or SAWP prior to activation with lipopolysaccharide and interferon-,. Nitrate in the medium was measured as an indicator of NO production. Results:, Infusion of Delt-Dvar or HWP (but not SAWP) decreased infarct volume and improved behavioral deficits following 1 hour of MCAO and 24 hours of reperfusion. In NOS,/, mice, endothelial NOS+/+ is required to provide Delt-Dvar,induced neuroprotection. Delt-Dvar and HWP dose-dependently decreased NO release in cell culture, while SAWP and other ,- and ,-specific opioids did not. Conclusions:, Delt-Dvar and HWP, but not SAWP, are effective neuroprotectant agents in a mouse model of transient MCAO. In cell culture, the mechanism of this ischemic neuroprotection may rely in part on their ability to block NO release. [source]