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Query: UMLS:C0917798 (
cerebral ischemia
)
17,036
document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)
A miniature multiple thin-film recording sensor was used to measure simultaneously the electrical activity, oxygen content and temperature of brain tissue. The chamber-type potential sensor was an Ag/AgCl electrode covered by an Si3N4 (
silicon
nitride) chamber. The chamber-type oxygen sensor consisted of an Au-Ag/AgCl two-electrode electrochemical cell embedded in an electrolyte-filled Si3N4 chamber. The temperature sensor was a thin-film germanium resistor. The different sensors were spaced 300 microns apart. Anaesthetics (pentobarbital, chloral hydrate, chlornembutal, halothane) were shown to depress electrical activity and to increase local oxygen tension in the hippocampus. Halothane, but not the other anaesthetics, also increased the current output of the oxygen sensor when tested in saline bath, indicating that the apparent increase in measured oxygen levels during halothane anaesthesia was partly due to an electrochemical effect of halothane on the oxygen sensors. The decrease of tissue oxygen consumption produced by the other anaesthetics is likely to be the result of metabolic depression.
Cerebral ischemia
, evoked by cauterization of the vertebral arteries and occlusion of the carotid arteries for 30 min, resulted in the disappearance of both spontaneous and evoked electrical activity in the hippocampus and a decrease of both local temperature and oxygen tension. There was a marked overshoot of the oxygen tension to above preocclusion level following the release of the carotid arteries. As soon as electrical activity returned, the oxygen tension fell again, often below the lowest level seen during the ischemic period. This secondary decrease of oxygen level could be reversed by administration of supplementary small doses of anaesthetic. The anaesthetic-induced increase in oxygen tension was accompanied by a marked decrease in electroencephalogram amplitude and frequency. During electrically induced seizures a decrease in hippocampal oxygen content occurred and was accompanied by an increase of local temperature. Since the rectal temperature was kept constant, the changes in temperature are likely to reflect changes in blood perfusion of the recorded area. These findings are in agreement with previous observations made with conventional electrodes. In addition, the miniature size of the chamber-type microelectrode assembly allows a correlated monitoring of parallel physiological changes with high spatial and temporal resolution during anaesthesia, ischemia and epilepsy.
...
PMID:Simultaneous recording of local electrical activity, partial oxygen tension and temperature in the rat hippocampus with a chamber-type microelectrode. Effects of anaesthesia, ischemia and epilepsy. 271 Mar 29
Tissue type plasminogen activator (tPA) can be effective therapy for embolic stroke by restoring cerebral perfusion. However, a recent experimental study showed that tPA increased infarct size in a mouse model of transient focal ischemia, suggesting a possible adverse effect of tPA on ischemic tissue per se. In this report, the effects of tPA in two rat models of
cerebral ischemia
were compared. In experiment 1, rats were subjected to focal ischemia via injection of autologous clots into the middle cerebral artery territory. Two hours after clot injection, rats were treated with 10 mg/kg tPA or normal saline. Perfusion-sensitive computed tomography scanning showed that tPA restored cerebral perfusion in this thromboembolic model. Treatment with tPA significantly reduced ischemic lesion volumes measured at 24 hours by >60%. In experiment 2, three groups of rats were subjected to focal ischemia via a mechanical approach in which a
silicon
-coated filament was used intraluminally to occlude the origin of the middle cerebral artery. In two groups, the filament was withdrawn after 2 hours to allow for reperfusion, and then rats were randomly treated with 10 mg/kg tPA or normal saline. In the third group, rats were not treated and the filament was not withdrawn so that permanent focal ischemia was present. In this experiment, tPA did not significantly alter lesion volumes after 2 hours of transient focal ischemia. In contrast, permanent ischemia significantly increased lesion volumes by 55% compared with transient ischemia. These results indicate that in these rat models of focal
cerebral ischemia
, tPA did not have detectable negative effects. Other potentially negative effects of tPA may be dependent on choice of animal species and model systems.
...
PMID:Effects of tissue type plasminogen activator in embolic versus mechanical models of focal cerebral ischemia in rats. 1059 35
Stroke is among the most frequent causes of death and adult disability, especially in highly developed countries. However, treatment options to date are very limited. To meet the need for novel therapeutic approaches, experimental stroke research frequently employs rodent models of focal
cerebral ischaemia
. Most researchers use permanent or transient occlusion of the middle cerebral artery (MCA) in mice or rats. Proximal occlusion of the middle cerebral artery (MCA) via the intraluminal suture technique (so called filament or suture model) is probably the most frequently used model in experimental stroke research. The intraluminal MCAO model offers the advantage of inducing reproducible transient or permanent ischaemia of the MCA territory in a relatively non-invasive manner. Intraluminal approaches interrupt the blood flow of the entire territory of this artery. Filament occlusion thus arrests flow proximal to the lenticulo-striate arteries, which supply the basal ganglia. Filament occlusion of the MCA results in reproducible lesions in the cortex and striatum and can be either permanent or transient. In contrast, models inducing distal (to the branching of the lenticulo-striate arteries) MCA occlusion typically spare the striatum and primarily involve the neocortex. In addition these models do require craniectomy. In the model demonstrated in this article, a
silicon
coated filament is introduced into the common carotid artery and advanced along the internal carotid artery into the Circle of Willis, where it blocks the origin of the middle cerebral artery. In patients, occlusions of the middle cerebral artery are among the most common causes of ischaemic stroke. Since varying ischemic intervals can be chosen freely in this model depending on the time point of reperfusion, ischaemic lesions with varying degrees of severity can be produced. Reperfusion by removal of the occluding filament at least partially models the restoration of blood flow after spontaneous or therapeutic (tPA) lysis of a thromboembolic clot in humans. In this video we will present the basic technique as well as the major pitfalls and confounders which may limit the predictive value of this model.
...
PMID:Modeling stroke in mice - middle cerebral artery occlusion with the filament model. 2124 98
Stroke is the third cause of mortality and the leading cause of disability in the World. Ischemic stroke accounts for approximately 80% of all strokes. However, the thrombolytic tissue plasminogen activator (tPA) is the only treatment of acute ischemic stroke that exists. This led researchers to develop several ischemic stroke models in a variety of species. Two major types of rodent models have been developed: models of global
cerebral ischemia
or focal
cerebral ischemia
. To mimic ischemic stroke in patients, in whom approximately 80% thrombotic or embolic strokes occur in the territory of the middle cerebral artery (MCA), the intraluminal middle cerebral artery occlusion (MCAO) model is quite relevant for stroke studies. This model was first developed in rats by Koizumi et al. in 1986 (1). Because of the ease of genetic manipulation in mice, these models have also been developed in this species (2-3). Herein, we present the transient MCA occlusion procedure in C57/Bl6 mice. Previous studies have reported that physical properties of the occluder such as tip diameter, length, shape, and flexibility are critical for the reproducibility of the infarct volume (4). Herein, a commercial
silicon
coated monofilaments (Doccol Corporation) have been used. Another great advantage is that this monofilament reduces the risk to induce subarachnoid hemorrhages. Using the Zeiss stereo-microscope Stemi 2000, the
silicon
coated monofilament was introduced into the internal carotid artery (ICA) via a cut in the external carotid artery (ECA) until the monofilament occludes the base of the MCA. Blood flow was restored 1 hour later by removal of the monofilament to mimic the restoration of blood flow after lysis of a thromboembolic clot in humans. The extent of cerebral infarct may be evaluated first by a neurologic score and by the measurement of the infarct volume. Ischemic mice were thus analyzed for their neurologic score at different post-reperfusion times. To evaluate the infarct volume, staining with 2,3,5-triphenyltetrazolium chloride (TTC) was usually performed. Herein, we used cresyl violet staining since it offers the opportunity to test many critical markers by immunohistochemistry. In this video, we report the MCAO procedure; neurological scores and the evaluation of the infarct volume by cresyl violet staining.
...
PMID:Mouse model of intraluminal MCAO: cerebral infarct evaluation by cresyl violet staining. 2316 77
