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Cannabidiol and brain function: current knowledge and future perspectives

Cannabidiol (CBD) is a naturally occurring non-psychoactive cannabinoid found in Cannabis sativa, commonly known as cannabis or hemp. Although currently available CBD products do not meet the safety standards of most food safety authorities to be approved as a dietary supplement or food additive, CBD has been gaining widespread attention in recent years due to its various potential health benefits. While primarily known for its therapeutic effects in managing epileptic seizures, psychosis, anxiety, (neuropathic) pain, and inflammation, CBD’s influence on brain function has also piqued the interest of researchers and individuals seeking to enhance cognitive performance. The primary objective of this review is to gather, synthesize, and consolidate scientifically proven evidence on the impact of CBD on brain function and its therapeutic significance in treating neurological and mental disorders. First, basic background information on CBD, including its biomolecular properties and mechanisms of action is presented. Next, evidence for CBD effects in the human brain is provided followed by a discussion on the potential implications of CBD as a neurotherapeutic agent.

Cannabis constituents for chronic neuropathic pain; reconciling the clinical and animal evidence

Chronic neuropathic pain is a debilitating pain syndrome caused by damage to the nervous system that is poorly served by current medications. Given these problems, clinical studies have pursued extracts of the plant Cannabis sativa as alternative treatments for this condition. The vast majority of these studies have examined can- nabinoids which contain the psychoactive constituent delta-9-tetrahydrocannabinol (THC). While there have been some positive findings, meta-analyses of this clinical work indicates that this effectiveness is limited and hampered by side-effects. This review focuses on how recent preclinical studies have predicted the clinical limita- tions of THC-containing cannabis extracts, and importantly, point to how they might be improved. This work highlights the importance of targeting channels and recep- tors other than cannabinoid CB1 receptors which mediate many of the side-effects of cannabis.

Cannabidiol upregulates melanogenesis through CB1 dependent pathway by activating p38 MAPK and p42/44 MAPK

Authors: Young Sun Hwang, Youn-Jung Kim, Mi Ok Kim, Mingyeong Kang, Sae Woong Oh, Youn Hwa Nho, See-Hyoung Park, Jongsung Lee Published in Science Direct August 2017 Abstract Melanogenesis plays…

Δ9‐Tetrahydrocannabinolic acid alleviates collagen‐induced arthritis: Role of PPARγ and CB1 receptors

Authors: Belén Palomares, Martín Garrido‐Rodriguez, Claudia Gonzalo‐Consuegra, María Gómez‐Cañas, Suwipa Saen‐oon, Robert Soliva, Juan A. Collado, Javier Fernández‐Ruiz, Gaetano Morello, Marco A. Calzado, Giovanni Appendino, Eduardo Muñoz Published in British Journal…

The synthetic cannabinoid WIN55212‐2 decreases the intraocular pressure in human glaucoma resistant to conventional therapies

Author: Anna Porcella Chiara Maxia Gian Luigi Gessa Luca Pani Published in European Journal of Neuroscience March 1980 Abstract The search for new ocular hypotensive agents represents a frontier of current…

Finding of endocannabinoids in human eye tissues: Implications for glaucoma

Author: June Chen, Isabel Matias, Tim Dinh, Ta Lu, Sonia Venezia, Amelia Nieves, David F. Woodward, Vincenzo Di Marzo Published in Science Direct May 2005 Abstract Cannabinoid CB1 receptors are involved…

Δ9‐Tetrahydrocannabinolic acid alleviates collagen‐induced arthritis: Role of PPARγ and CB1 receptors

Author: Belén Palomares Martín Garrido‐Rodriguez Claudia Gonzalo‐Consuegra María Gómez‐Cañas Suwipa Saen‐oon Robert Soliva Juan A. Collado Javier Fernández‐Ruiz Gaetano Morello Marco A. Calzado Giovanni Appendino Eduardo Muñoz Published in British Pharmacological Society …