“Despite expanding acceptance of cannabis for medicinal use, empirical literature remains sparse regarding the long-term mental and neurobiological outcomes of continuous cannabis exposure over several decades. This self-case study examines the psychobiological trajectory of a biomolecular psychologist who has used cannabis intermittently since the 1970s and therapeutically since 2010 to manage polypharmacy withdrawal, opioid dependence, and psychiatric symptoms. The analysis integrates self-observational data, neurocognitive assessments, pharmacological history, and psychosocial context to evaluate outcomes on affect regulation, cognitive performance, neuroplasticity, and motivation. The case challenges persistent assumptions of irreversible cannabis-induced cognitive decline and supports the hypothesis that sustained cannabinoid modulation may promote neural resilience when employed within a biomolecularly informed framework. Findings are illustrative and intended to generate testable hypotheses rather than establish causality.”

“For more than half a century, the United States has maintained one of the most comprehensive prohibitions on biological cannabinoid research in modern science. The enactment of the Controlled Substances Act in 1970 effectively silenced
the empirical study of the plant Cannabis sativa and its naturally occurring cannabinoids, leaving a void in scientific understanding that has persisted for decades. The policy was founded less on biomedical evidence than on sociopolitical ideology—a moral model of addiction that conflated psychoactivity with deviance. By classifying naturally occurring
cannabinoids as Schedule I substances, federal policy positioned them alongside heroin and LSD, asserting “no accepted medical use and a high potential for abuse”. Consequently, generations of scientists were restricted from exploring naturally occurring cannabinoids’ molecular, neurobiological, and psychopharmacological functions.”

“While modern prohibition sought to erase the plant’s legitimacy, cannabis itself represents a biological constant—molecules with 12,500 years of medicinal use, abruptly vilified in the modern era. Archaeological and historical records confirm its continuous application in treating pain, inflammation, convulsions, and psychological distress throughout diverse civilizations. Across that immense timeline, humans relied on the plant’s phytochemical complexity—its cannabinoids, terpenes, and flavonoids—to modulate physiological systems long before those systems were scientifically named.”

“The endocannabinoid system (ECS), now recognized as one of the body’s principal homeostatic regulators, mediates neural, immune, and endocrine balance. Yet its formal discovery in the 1990s came paradoxically after half a century of federally enforced ignorance.”

“From a biomolecular perspective, cannabinoids act not as foreign intruders but as complementary ligands within a preexisting molecular conversation between the human body and its endogenous signaling systems. Their therapeutic potential lies not in chemical novelty but in biological familiarity—a fact consistently reaffirmed by modern neurobiological research despite legal obstruction.”

“This five-decade longitudinal case study provides a rare and informative window into the long-term psychobiological effects of sustained botanic cannabinoid use within a cognitively demanding professional context. Contrary to prohibition-era narratives that associate chronic cannabis exposure with cognitive decline, emotional dysregulation and motivational impairment, the findings of this investigation demonstrate a trajectory of preserved neurocognitive integrity, stabilized affective functioning, and enhanced adaptive resilience. These outcomes are consistent with contemporary psychoneuroimmunological models in which the endocannabinoid system operates as a central regulator of homeostatic equilibrium across neural, immune, and endocrine domains.”

https://zealjournals.com/wjbpr/content/clinical-endocannabinoid-deficiency-and-cognitive-continuity-longitudinal-case-study

“Background: Evidence suggests that the endocannabinoid system (ECS) is crucial for regulating inflammation, cell proliferation and pain. The ECS is composed of cannabinoid receptors such as type 1 (CBR1), type 2 (CBR2) and GPR55, endocannabinoids and enzymes. Proteins of ECS have previously been localized in the epidermal cells of the horse hooves. Given the physio-pathological role and cellular distribution of the ECS across species, the authors hypothesized that cannabinoid receptors are expressed within the inflammatory cells, fibroblasts and endothelial cells of the equine hoof laminae, going beyond the epidermal cells.

Objectives: To preliminary analyze the gene expression of Cn1r, Cn2r and GPR55 in the hoof laminae and test the specificity of the antibody against GPR55. To characterize the distribution and expression of CBRs in the inflammatory cells and fibroblasts of the laminar junction of equine healthy hooves and with laminitis.

Animals: Animals were divided into 3 groups: healthy, acute laminitis and chronic laminitis. A total of 18 samples were collected and processed from the front limb of animals slaughtered for consumption or euthanized (6 control animals, 4 acute laminitis, 8 chronic laminitis).

Methods: Analysis of CBR1, CBR2 and GPR55 protein expression was made by fluorescence microscopy with co-localization with antibodies against the macrophages marker IBA1, the T cell marker CD3, the neutrophils marker calprotectin (MAC387), the fibroblasts marker vimentin (Clove V9) and the nerve fibers marker Substance P. Preliminary analysis was performed to evaluate gene expression (Cnr1, Cnr2, and Gpr55) using real-time PCR and to verify the specificity of the primary antibody (Gpr55) with Western Blotting (WB).

Results: The resident pool of inflammatory cells in the normal laminae and the inflammatory infiltrate cells of the affected equine laminae showed protein expression of CB2R and GPR55; no CB1R staining was seen at the inflammatory cells. Equine dermal fibroblast and endothelial cells exhibited protein expressions of CB1R, CBR2 and GPR55. Substance P positive nerve fibers were positive for CB1R.

Conclusions and clinical importance: Cannabinoid receptors are expressed in different immune cell types of the hoof laminae, pointing to the role of the ECS in modulating inflammatory outburst, tissue degeneration and pain. Our results serve as a foundation for the development of new veterinary pharmacotherapies that target the ECS during laminitis.”

https://pubmed.ncbi.nlm.nih.gov/41394912

“The present findings highlight the presence of cannabinoid receptors CB1, CB2, and GPR55 in the inflammatory cells, fibroblasts and endothelial cells of healthy and pathological hoof lamellar epithelial tissue. The modulation of CB1R, CB2R, and GPR55 signaling pathways could offer novel therapeutic approaches for managing hoof diseases.”

https://www.frontiersin.org/journals/veterinary-science/articles/10.3389/fvets.2025.1723160/full

“The endocannabinoid system (ECS) is typically associated with using cannabis or cannabinoids. However, the ECS is a complex regulatory network within the human body that plays a vital role in maintaining physiological homeostasis. The ECS can become dysregulated through various mechanisms.

This article describes the physiology of the ECS using a biblical worldview. Nurses who understand the causes of ECS dysfunction can help lead patients toward lifestyle habits that reflect God’s design for balance, resilience, and wholeness.”

https://pubmed.ncbi.nlm.nih.gov/41359460

“The endocannabinoid system (ECS) is a crucial regulatory network in the human body, often linked to cannabis use but primarily responsible for maintaining physiological balance. This article explores the ECS from a biblical perspective, emphasizing its role in health and homeostasis.

Dysregulation of the ECS can occur through various mechanisms, and nurses who grasp these causes can guide patients towards lifestyle choices that align with a holistic approach to health, reflecting a divine design for balance and resilience.

Understanding the ECS can empower healthcare professionals to support patients in achieving overall well-being.”

https://journals.lww.com/journalofchristiannursing/abstract/2026/01000/the_endocannabinoid_system__scientific_insight_and.11.aspx

“Natural and synthetic cannabinoids finely regulate the endogenous cannabinoid system.”

https://www.sciencedirect.com/science/article/pii/S1043661825004475