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Query: UMLS:C0022116 (
ischemia
)
91,303
document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)
Recent studies have suggested that alpha(2)-adrenergic agonists prevent neuronal cell death in a number of animal models, although the mechanism of alpha(2)-neuroprotection remains unclear. In a retinal
ischemia
model, the alpha(2)-specific agonist brimonidine (1 mg/kg i.p.) preserves approximately 80% of the electroretinogram (ERG) b-wave. The protective effect of brimonidine is completely blocked by coadministration of the alpha(2)- antagonist rauwolscine.
Brimonidine
treatment preserves the ERG b-wave if animals are treated 1 or 3 h before
ischemia
, but has no effect if it is injected during
ischemia
. The 3-h pretreatment effect is blocked by i.v. injection of rauwolscine 2 h later (1 h before
ischemia
). A comparison of vitreous humor glutamate levels between untreated and brimonidine-treated eyes shows that 1) after
ischemia
, glutamate levels rise 2- to 3-fold in the untreated animals, and 2) glutamate levels in the brimonidine-treated animals are comparable to the nonischemic controls. Hence, the mechanism for brimonidine-mediated protection in the retinal
ischemia
model requires activation of the alpha(2)-adrenergic receptors immediately before and during
ischemia
. These data suggest that activation of the alpha(2)-adrenergic receptor may reduce ischemic retinal injury by preventing the accumulation of extracellular glutamate and aspartate.
...
PMID:alpha(2)-Adrenoceptor agonists inhibit vitreal glutamate and aspartate accumulation and preserve retinal function after transient ischemia. 1112 83
Four criteria are used to evaluate the potential usefulness of an agent for neuroprotection in glaucoma: 1) the agent must have a target in the retina; 2) it must be neuroprotective in animal models; 3) it must reach neuroprotective concentrations in the posterior segment after clinical dosing; and finally, 4) it must be shown to be neuroprotective in clinical trials. The alpha-2 adrenergic agonist brimonidine has met the first three criteria and clinical trials to establish the fulfillment of the fourth criterion are ongoing. The effects of brimonidine are mediated by its interaction with alpha-2 adrenergic receptors that are present in the retina. Activation of alpha-2 receptors by brimonidine has been shown to effectively promote the survival and function of retinal ganglion cells in a variety of animal models of optic injury relevant to glaucoma such as the chronic ocular hypertensive rat and rat optic nerve crush.
Brimonidine
has also been shown to be neuroprotective in the rat
ischemia
reperfusion model that evaluates general hypoxic damage to the whole retina. Clinical dosing of the topical formulation of brimonidine results in brimonidine concentrations in the posterior segment that are sufficient for both pharmacological activity at alpha-2 adrenergic receptors and neuroprotection. Finally, clinical trials are in progress to investigate the ability of brimonidine to protect human retinal ganglion cells and the visual field in glaucoma-related disease.
...
PMID:Role of alpha-2 agonists in neuroprotection. 1285 34
Ischemic optic neuropathy (ION) is a common disorder caused by disruption of the arterial blood supply to the optic nerve. It can result in significant loss of visual acuity and/or visual field. An ischemic optic nerve injury was produced in rats by intravenous injection of Rose Bengal dye followed by argon green laser application to the retinal arteries overlying the optic nerve, causing a coagulopathy within the blood vessels and disruption of optic nerve and retinal perfusion. The effect of brimonidine tartrate eye drops on survival of retinal ganglion cell axons in this experimental paradigm was studied. One eye was treated and the contralateral eye served as a control. Four groups of animals were used for this study. Group 1 received 7 days of treatment with 0.15% brimonidine tartrate eye drops twice a day prior to the ischemic injury. Group 2 animals received 0.15% brimonidine tartrate eye drops twice a day for 14 days after photocoagulation injury. Animal groups 3 and 4 received eye drops of 0.9% NaCl twice a day either daily for 7 days before injury or daily for 14 days, respectively. All rats were sacrificed 5 months after the injury to ascertain long-term optic axon survival. Coagulopathy-induced optic nerve
ischemia
resulted in a 71% loss of optic axons. Treatment with brimonidine daily for the 7 days prior to the injury resulted in a greater survival of optic axons, with only a 56.1% loss compared to control.
Brimonidine
treatment every day for 14 days after the ischemic injury did not result in a significant rescue of optic axons compared to injury alone. In summary, the application of brimonidine eye drops for one week prior to an ischemic injury resulted in a statistically significant increase in survival of optic axons within the injured optic nerves.
Brimonidine
treatment of the eye after the ischemic injury did not result in axon rescue, and axon loss was similar to the injured optic nerves treated with saline only. These results suggest that brimonidine may have potential use for prevention of ION in at-risk patients.
...
PMID:Neuroprotective effects of brimonidine treatment in a rodent model of ischemic optic neuropathy. 1711 77
The alpha-2-adrenergic receptor agonist brimonidine has been shown to increase survival of retinal ganglion cells following ischemic injury to the rat retina. Increased expression of growth factors has been suggested to be involved in this action. We investigated expressional changes of growth factors and their receptors following transient retinal
ischemia
induced by selective ligature of ophthalmic vessels in rats pre-treated with vehicle or 0.5% brimonidine. In addition, analysis of expression in retinal samples following unilateral administration of brimonidine to normal tissue was performed. Tissue samples of retina and superior colliculus were collected at time points between 6h and 14 days of retinal reperfusion. Analysis of mRNA levels of the ligands BDNF, NT3, CNTF, FGF1, FGF2, FGF9 and HGF; as well as the receptors TrkB, TrkC, p75(NTR), CNTFRalpha, FGFR1, FGFR3, FGFR4 and HGFR were performed using qRT-PCR. The cell specific markers Thy1 and GFAP were analysed. We report transiently increased retinal levels of BDNF, NT3, p75(NTR), FGFR1 and HGFR and decreased levels of FGF9, HGF, TrkB, TrkC, FGFR4 and Thy1 following
ischemia
. The decreases were counteracted by brimonidine.
Brimonidine
treatment gave an increase in BDNF, NT3 and CNTF levels compared to the vehicle treated group. In superior colliculus increased levels of growth factor mRNA were found. In conclusion, transient
ischemia
has a profound effect on gene expression in rat retina. Alterations can also be seen in the superior colliculus but are smaller.
Brimonidine
pre-treatment attenuates an acute injury-induced response by decreasing the expression of several genes, among them p75(NTR).
Brimonidine
also causes a prolonged increase of several growth factors as well as receptors in retina and superior colliculus compared to the ischemic situation. The increased expression of several growth factors represents a coordinated growth factor system response that differs from the
ischemia
-induced changes and is likely part of the neuroprotective activity that is elicited by BMD pre-treatment.
...
PMID:The growth factor response in ischemic rat retina and superior colliculus after brimonidine pre-treatment. 1711 48
