Violeta
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Neuroprotective Effect of β-Caryophyllene on Cerebral Ischemia-Reperfusion Injury via Regulation of Necroptotic Neuronal Death and Inflammation: In Vivo and in Vitro
https://www.frontiersin.org/journals/neuroscience/articles/10.3389/fnins.2017.00583/full
I started looking into the effect of Beta-caryophyllene having an effect on the cerebral cortex mainly because I was wondering if it has any effect on the visual cortex.
Eye issues seem to be very common among those with ME/CFS. Eye issues can have many various causes and be related to not only the eye itself, but also the visual cortex.
I found one study so far that discusses CB1 and CB2 receptors with respect to vision. More is known about CB1r and the retina. Not much info on CB2 and the visual cortex, but I did see one inference. I'll get it and put it here.
But I do see positive reference to B-caryophyllene and the cerebral cortex, which is what the first study listed is about.
"Thus, BCP alleviates ischemic brain damage potentially by inhibiting necroptotic neuronal death and inflammatory response. This study suggests a novel application for BCP as a neuroprotective agent."
I am wondering if besides being a neuroprotective agent, if it also helps repair neurons.
https://www.frontiersin.org/journals/neuroscience/articles/10.3389/fnins.2017.00583/full
I started looking into the effect of Beta-caryophyllene having an effect on the cerebral cortex mainly because I was wondering if it has any effect on the visual cortex.
Eye issues seem to be very common among those with ME/CFS. Eye issues can have many various causes and be related to not only the eye itself, but also the visual cortex.
I found one study so far that discusses CB1 and CB2 receptors with respect to vision. More is known about CB1r and the retina. Not much info on CB2 and the visual cortex, but I did see one inference. I'll get it and put it here.
But I do see positive reference to B-caryophyllene and the cerebral cortex, which is what the first study listed is about.
"Thus, BCP alleviates ischemic brain damage potentially by inhibiting necroptotic neuronal death and inflammatory response. This study suggests a novel application for BCP as a neuroprotective agent."
I am wondering if besides being a neuroprotective agent, if it also helps repair neurons.
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