Mark J. Rosenfeld scite author profile

The endocannabinoid system is involved in a host of homeostatic and physiologic functions, including modulation of pain and inflammation. The specific roles of currently identified endocannabinoids that act as ligands at endogenous cannabinoid receptors within the central nervous system (primarily but not exclusively CB1 receptors) and in the periphery (primarily but not exclusively CB2 receptors) are only partially elucidated, but they do exert an influence on nociception. Exogenous plant-based cannabinoids (phytocannabinoids) and chemically related compounds, like the terpenes, commonly found in many foods, have been found to exert significant analgesic effects in various chronic pain conditions. Currently, the use of Δ9-tetrahydrocannabinol is limited by its psychoactive effects and predominant delivery route (smoking), as well as regulatory or legal constraints. However, other phytocannabinoids in combination, especially cannabidiol and β-caryophyllene, delivered by the oral route appear to be promising candidates for the treatment of chronic pain due to their high safety and low adverse effects profiles. This review will provide the reader with the foundational basic and clinical science linking the endocannabinoid system and the phytocannabinoids with their potentially therapeutic role in the management of chronic pain.

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Cannabinoids for Neuropathic Pain

Fine

Rosenfeld

2014

Curr Pain Headache Rep

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Treatment options for neuropathic pain have limited efficacy and use is fraught with dose-limiting adverse effects. The endocannabinoid system has been elucidated over the last several years, demonstrating a significant interface with pain homeostasis. Exogenous cannabinoids have been demonstrated to be effective in a range of experimental neuropathic pain models, and there is mounting evidence for therapeutic use in human neuropathic pain conditions. This article reviews the history, pharmacologic development, clinical trials results, and the future potential of nonsmoked, orally bioavailable, nonpsychoactive cannabinoids in the management of neuropathic pain.

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Biochemical Genetics of the Colorado River Gila Complex (Pisces: Cyprinidae)

Rosenfeld¹,

Wilkinson²

1989

The Southwestern Naturalist

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Persistence of the SV40 early region without expression in permissive simian cells

O’Neill

Yan

et al. 1994

Virus Research

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Mark J. Rosenfeld

The Endocannabinoid System, Cannabinoids, and Pain

Cannabinoids for Neuropathic Pain

Biochemical Genetics of the Colorado River Gila Complex (Pisces: Cyprinidae)

Persistence of the SV40 early region without expression in permissive simian cells

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