trans-sodium-crocetinate and Brain-Edema

trans-sodium-crocetinate has been researched along with Brain-Edema* in 2 studies

Other Studies

2 other study(ies) available for trans-sodium-crocetinate and Brain-Edema

Article	Year
Trans-sodium crocetinate improves outcomes in rodent models of occlusive and hemorrhagic stroke. Brain research, 2014, Oct-02, Volume: 1583 Trans-sodium crocetinate (TSC) is a novel carotenoid compound capable of enhancing the diffusion of small molecules in aqueous solutions. TSC improves the diffusion of oxygen and glucose, and increases oxygenation in ischemic brain tissue. TSC also dampens the intensity of an ischemic challenge during an ongoing ischemic event. The current study examined the impact of TSC in rat models of ischemic and hemorrhagic stroke. Rat three vessel occlusion (3VO), and combined 3VO and one vessel occlusion (3VO/1VO) models of ischemic stroke were evaluated for structural and behavioral outcomes. The effects of TSC were also tested in a rat model of intracerebral hemorrhage (ICH). Delayed treatment with TSC reduced infarct volume in a rodent model of transient focal ischemia involving either 2 or 6h of ischemia. Neurological outcomes, based on a multi-scale assessment and automated gait analysis, also were improved by TSC treatment. Additionally, TSC reduced edema and hemorrhagic volume in a rat model of ICH. An optimal therapeutic candidate for early intervention in ischemic stroke should be effective when administered on a delayed basis and should not aggravate outcomes associated with hemorrhagic stroke. The current findings demonstrate that delayed TSC treatment improves outcomes in experimental models of both ischemic and hemorrhagic stroke. Together, these findings suggest that TSC may be a safe and beneficial therapeutic modality for early stroke intervention, irrespective of the type of stroke involved. Topics: Animals; Biomechanical Phenomena; Brain; Brain Edema; Brain Ischemia; Carotenoids; Cerebral Hemorrhage; Disease Models, Animal; Gait; Male; Neuroprotective Agents; Pattern Recognition, Automated; Random Allocation; Rats, Sprague-Dawley; Severity of Illness Index; Stroke; Treatment Outcome; Vitamin A	2014
Effect of increasing the plasma oxygen diffusivity on experimental cryogenic edema. Journal of neurosurgery, 1976, Volume: 45, Issue:5 Mongrel cats with experimental cryogenic brain lesions were treated with the carotenoid compound crocetin. It has been shown that crocetin increases the diffusion speed of oxygen through plasma, and should provide a net increase in available oxygen to the capillary endothelial cell. The treated group of animals showed a significant reduction in edema as compared to a comparable control group. It is suggested that oxygen availability is an important factor in vasogenic edema. Topics: Animals; Brain Edema; Carotenoids; Cats; Dexamethasone; Female; Male; Oxygen; Vitamin A	1976

Article

Year

Trans-sodium crocetinate improves outcomes in rodent models of occlusive and hemorrhagic stroke.

Brain research, 2014, Oct-02, Volume: 1583

Trans-sodium crocetinate (TSC) is a novel carotenoid compound capable of enhancing the diffusion of small molecules in aqueous solutions. TSC improves the diffusion of oxygen and glucose, and increases oxygenation in ischemic brain tissue. TSC also dampens the intensity of an ischemic challenge during an ongoing ischemic event. The current study examined the impact of TSC in rat models of ischemic and hemorrhagic stroke. Rat three vessel occlusion (3VO), and combined 3VO and one vessel occlusion (3VO/1VO) models of ischemic stroke were evaluated for structural and behavioral outcomes. The effects of TSC were also tested in a rat model of intracerebral hemorrhage (ICH). Delayed treatment with TSC reduced infarct volume in a rodent model of transient focal ischemia involving either 2 or 6h of ischemia. Neurological outcomes, based on a multi-scale assessment and automated gait analysis, also were improved by TSC treatment. Additionally, TSC reduced edema and hemorrhagic volume in a rat model of ICH. An optimal therapeutic candidate for early intervention in ischemic stroke should be effective when administered on a delayed basis and should not aggravate outcomes associated with hemorrhagic stroke. The current findings demonstrate that delayed TSC treatment improves outcomes in experimental models of both ischemic and hemorrhagic stroke. Together, these findings suggest that TSC may be a safe and beneficial therapeutic modality for early stroke intervention, irrespective of the type of stroke involved.

Topics: Animals; Biomechanical Phenomena; Brain; Brain Edema; Brain Ischemia; Carotenoids; Cerebral Hemorrhage; Disease Models, Animal; Gait; Male; Neuroprotective Agents; Pattern Recognition, Automated; Random Allocation; Rats, Sprague-Dawley; Severity of Illness Index; Stroke; Treatment Outcome; Vitamin A

2014

Effect of increasing the plasma oxygen diffusivity on experimental cryogenic edema.

Journal of neurosurgery, 1976, Volume: 45, Issue:5

Mongrel cats with experimental cryogenic brain lesions were treated with the carotenoid compound crocetin. It has been shown that crocetin increases the diffusion speed of oxygen through plasma, and should provide a net increase in available oxygen to the capillary endothelial cell. The treated group of animals showed a significant reduction in edema as compared to a comparable control group. It is suggested that oxygen availability is an important factor in vasogenic edema.

Topics: Animals; Brain Edema; Carotenoids; Cats; Dexamethasone; Female; Male; Oxygen; Vitamin A

1976