Orally Administered CBD/CBG Hemp Extract Reduces Severity of Ulcerative Colitis and Pain in a Murine Model

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“Background: Ulcerative colitis (UC) is an autoimmune disorder characterized by inflammation of the mucosa that gives rise to a disrupted epithelial morphology. Persistent or recurrent inflammation and the debilitating nature of the associated symptoms make treatment of UC challenging. Cannabinoids derived from Cannabis sativa L. have been used for treatment of gastrointestinal disorders due to the wide-ranging therapeutic benefits of these compounds. 

Methods: We evaluated a commercial hemp extract, high in cannabigerol (CBG) and cannabidiol (CBD), as a novel treatment for UC symptoms using the dextran sodium sulfate (DSS) model in mice. Hemp extract was administered via two different routes of administration, intraperitoneal (i.p) and oral (p.o). 

Results: Specifically, we observed that cannabinoid treatment reduced damage to the colonic epithelium. We also observed that CBG/CBD rich hemp extracts help reduce pain-related responses in these animals. 

Conclusions: Together, the data suggest that cannabinoid administration has the potential to be an effective alternate therapeutic option for UC management.”

https://pubmed.ncbi.nlm.nih.gov/40943856/

“Our current findings suggest that minor cannabinoids, particularly CBD and CBG, may prove to be useful, novel therapies for treating IBD. These findings are important because patients already report using cannabis and cannabinoid-based products for managing their symptoms, despite little clinical data to support the use of high-THC products for treating IBD.

In conclusion, our data suggest that HE enriched for CBD and CBG may offer therapeutic potential as a treatment for IBD patients.”

https://www.mdpi.com/2077-0383/14/17/6095

Chemical Composition and Antioxidant Activity of the Stembark Essential Oils of Two Cannabis sativa L. Cultivars from Komga, South Africa

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“Cannabis sativa L. is an aromatic medicinal plant with various biologically active classes of compounds such as cannabinoids, polyphenols, and terpenes.

Unlike the widely investigated inflorescence and leaf, the stembark of C. sativa has been overlooked regarding its medicinal potential. This study, therefore, was aimed at determining the chemical composition and antioxidant activity of the essential oils (EOs) obtained from the fresh and dried stembark of two C. sativa cultivars, Lifter and Cherrywine, grown in Komga, South Africa, with a view to ascertaining the more promising cultivar.

The chemical profiles of the hydro-distilled EOs were analyzed by gas chromatography-mass spectrometry (GC-MS), while an in vitro antioxidant activity assessment of the EOs was performed using DPPH and H2O2 spectrophotometric methods. The identified constituents from the EOs were molecularly docked against NOX2, a protein implicated in oxidative stress. The afforded EOs were colorless with a mild skunk-like odor. A total of thirty-two constituents were identified in both fresh and dry oils from the Lifter cultivar while the Cherrywine cultivar contained a total of forty-two constituents.

The EOs of both cultivars contained twenty compounds, notably Cannabidiol (0.25-85.03%), Caryophyllene oxide (1.27-19.58%), Caryophyllene (0.64-16.61%), Humulene (0.37-8.15%), Octacosane (3.37-6.55%), Humulene-1,2-epoxide (0.45-5.78%), Nerolidol (0.32-4.99%), Palmitic acid (1.45-4.45%), Tetracosane (1.75-2.91%), Dronabinol (0.86-2.86%), Cannabinol (0.54-1.64%), 7-epi-γ-eudesmol (0.53-1.00%), Guaiol (0.37-0.66%), Linoleic acid (0.22-0.60%), γ-Selinene (0.15-0.48%), β-Eudesmol (0.34-0.50%), and Linalool (0.24-0.30%).

The dried Lifter stembark oil (DLSO) gave the best antioxidant activity among the four investigated cannabis oils, exhibiting the lowest IC50 values of 21.68 ± 1.71 and 26.20 ± 1.34 µg/mL against DPPH and H2O2 radicals, respectively. The notable antioxidant activity of the DLSO may be attributed to the higher number (30) of constituents compared to the fresh Lifter stembark oil (LSO) with 11 constituents. Additionally, the DLSO showed a unique chemical profile comprising monoterpenes, oxygenated and hydrocarbon sesquiterpenes. Further in silico studies on the putative constituents in the Lifter cultivar revealed Cannabinol, Cannabidiol, and Linalool as the promising constituents based on their higher binding energy scores of -9.7, -8.5, and -6.5 kcal/mol, respectively, compared to L-Ascorbic acid (-5.7 kcal/mol).

It can be inferred from this study that the EOs from the stembark of C. sativa contain promising compounds, such as Cannabinol, Cannabidiol, and Linalool, which might be responsible for the displayed antioxidant activity of the oils. Thus, the study findings underscore the biological importance of C. sativa stembark in the management of oxidative stress-related conditions.”

https://pubmed.ncbi.nlm.nih.gov/40943472/

https://www.mdpi.com/1422-0067/26/17/8552

Impact of Medical Cannabis on the Quality of Life of Cancer Patients: A Critical Review

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“Purpose: This study aimed to review the literature on the impact of medical cannabis (MC) on the quality of life (QoL) of cancer patients. 

Materials and Methods: A critical review was conducted using PubMed, Latin American and Caribbean Health Sciences Literature, Scopus, Virtual Health Library, and Embase. The inclusion criteria were access to the full content; in English, Spanish, or Portuguese; published until January 2025, relating “Cancer,” “Quality of Life,” and “Medical Cannabis.” Of the 267 articles identified, 16 were selected for the final analysis. 

Results: The studies suggest that MC can improve mental health, sleep, appetite, and pain in cancer patients and decrease nausea, vomiting, and the use of other medications, such as opioids. Increased survival time and cognitive function improvements were also observed, with mild or moderate adverse effects. Both tetrahydrocannabinol and cannabidiol (full spectrum) were commonly used, with varied intervention durations. 

Conclusion: Despite differences and methodological limitations, including only four randomized clinical trials, which precluded systematic review or meta-analysis, findings suggest that MC may improve QoL for cancer patients by alleviating physical and psychosocial symptoms associated with cancer treatment. In contrast, some mild or moderate adverse effects may be present. Moreover, the use of MC faces challenges such as the interaction with some chemotherapy treatment. More randomized controlled trials are needed to better understand the effects of MC among oncology patients.”

https://pubmed.ncbi.nlm.nih.gov/40932699/

https://www.liebertpub.com/doi/10.1177/27683605251377417

Effectiveness of cannabinoids on subjective sleep quality in people with and without insomnia or poor sleep: A systematic review and meta-analysis of randomised studies

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“Study objectives: This systematic review and meta-analysis assessed the efficacy of cannabinoids compared to placebo for improving sleep quality.

Methods: Searches were conducted in MEDLINE, Embase, and Cochrane databases for randomised controlled trials comparing cannabinoids vs. placebo for improving sleep quality in adults with or without insomnia or poor sleep. The primary outcome was self-reported sleep quality (PROMIS, PSQI, LSEQ, Sleep Diary). Secondary outcomes included actigraphy parameters, anxiety (GAD-7, STAI-T), well-being (WHO-5 index), and insomnia severity (ISI). Additional analyses focused on sleep quality in (1) participants with insomnia or poor sleep, and (2) cannabidiol (CBD) vs. non-CBD interventions. Statistical analysis was performed using RevMan 5.4.1, with p < 0.05 considered significant.

Results: Six trials (1077 patients) were included. Cannabinoids significantly improved sleep quality compared to placebo [SMD 0.53; 95 % CI 0.03-1.02; p = 0.04; I2 = 88 %], particularly in those with insomnia or poor sleep [SMD 0.60; 95 % CI 0.09-1.11; p = 0.02; I2 = 89 %]. Non-CBD cannabinoids demonstrated greater efficacy [SMD 0.82; 95 % CI 0.24-1.40; p = 0.005], whereas CBD-only therapies showed no significant effect [SMD 0.13; 95 % CI -0.38-0.65; p = 0.61].

Conclusion: Cannabinoids, particularly non-CBD formulations, improve sleep quality, justifying further investigation as therapeutic options for insomnia or poor sleep.”

https://pubmed.ncbi.nlm.nih.gov/40929927/

https://www.sciencedirect.com/science/article/abs/pii/S1087079225001091?via%3Dihub

Analgesic and toxicological evaluation of cannabidiol-rich Moroccan Cannabis sativa L. (Khardala variety) extract: Evidence from an in vivo and in silico study

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“The legalization of cannabis for industrial and medicinal purposes has significantly expanded worldwide.

This study delves into the analgesic potential toxicity study of chloroformic extract from the Moroccan Cannabis sativa L. (C. sativa) cultivar, Khardala (KH extract). Our findings reveal that the lethal dose of KH extract is ≥5,000 mg/kg, with mice given 2,000 mg/kg exhibiting neurotoxic symptoms, including piloerection, aggressiveness, and fear, along with marked hepato-renal toxicity indicated by elevated levels of alanine aminotransferase, aspartate aminotransferase, total bilirubin, and creatinine in both male and female subjects.

Importantly, no toxicity was observed at 250 mg/kg and 500 mg/kg doses. Remarkably, at a dose of 500 mg/kg, the KH extract demonstrated a potent analgesic effect superior to cannabidiol (CBD), suggesting a synergistic interaction among the extract’s bioactive compounds, such as CBD, cannabidivarin (CBDV), Delta 9 tetrahydrocannabinol (THC), cannabigerol (CBG), Delta 9 tetrahydrocannabivarin (THCV), and β-caryophyllene. 

In silico analysis supports these findings, showing the strong binding potential of THC, THCV, CBG, and CBDV to delta opioid receptors, with G-scores >-5.0 kcal/mol, highlighting the promising analgesic efficacy of this cannabis cultivar extract.

This study underscores the therapeutic potential of the KH cultivar, positioning it as a promising candidate for pain management therapies.”

https://pubmed.ncbi.nlm.nih.gov/40917785/

“In summary, this study contributes to the growing body of research on C. sativa, highlighting the potential therapeutic applications of KH extract in pain management.”

https://www.degruyterbrill.com/document/doi/10.1515/biol-2025-1141/html

Oromucosal as an Alternative Method for Administration of Cannabis Products in Rodents

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“Oral administration of drugs in laboratory rodents such as rats is conventionally performed using the gavage technique. Despite effectiveness, gavage can induce distress associated with restraint, especially following repeated animal handling.

To mitigate these adverse effects and reduce morbidity associated with traditional methods, we explored oromucosal/buccal administration of cannabidiol (CBD)-enriched Cannabis extract.

In this method, male rats were treated daily for 15 days with medium-chain triglycerides (TCM) derived from coconut oil or CBD-enriched Cannabis extract. Each treatment was administered individually while animals were gently immobilized using an affectionate touch technique. The administration involved the use of a micropipette to apply the oily formulation directly into the oral mucosa. The dosage was calculated based on the CBD concentration in the Cannabis extract, standardized at 3 mg/kg/day. To ensure accuracy, animals were weighed daily, allowing for dose adjustments in accordance with weight changes over the treatment period. This method offers non-invasive and stress-reducing treatment, potentially improving animal welfare in experimental settings.

The treatment with CBD-enriched Cannabis extract was safe, and the analysis of the hippocampus of these animals’ showed alterations in the expression levels of GluA1 and GFAP proteins, which are directly associated with glutamatergic receptor functionality and neuroinflammation, respectively. This suggests that Cannabis extract could be applied in pathological conditions where glutamatergic excitotoxicity and astrogliosis are observed.”

https://pubmed.ncbi.nlm.nih.gov/40920655/

https://app.jove.com/t/68104/oromucosal-as-an-alternative-method-for-administration-cannabis

Chitosan nanoparticles-encapsulated cannabis extracts and their antimicrobial potential against skin pathogens

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“Cannabis compounds are well-known for their therapeutic applications in the treatment of various health issues.

These substances, mainly cannabinoids, are known for their antimicrobial properties and ability to interact with various cells through endocannabinoid receptors. However, the limitations of cannabis extract, particularly its viscosity, stickiness, and low bioavailability when applied topically, limit its use in dermatology.

To enhance topical applications for treating bacterial infections and dermatophytosis, cannabis extracts were encapsulated in chitosan nanoparticles, an easily accessible and cost-effective. Cannabis extracts were prepared from three cannabis strains differing in content of major cannabinoids, namely Chocolope (THCA-A), Jonas 1 (CBDA), and Hemp G (CBGA), and subsequently were encapsulated in chitosan nanoparticles. The resulting particles were characterized, and antimicrobial and cytotoxic activity was evaluated. The mean size of particles ranged from 89.1 ± 24.8 nm for empty nanoparticles to 355.6 ± 101.6 nm for particles containing Hemp G extract. Considering the extract:chitosan ratio (1:10 w/w, 1:20 w/w respectively) and the encapsulation efficiency (EE) range from 44.65 ± 4.39% to 94.44 ± 0.93%, total amount of extracts encapsulated in chitosan nanoparticles ranged from 2.96 ± 0.05 to 5.61 ± 0.19% in 1 g of chitosan nanopowder.

Most significant antimicrobial effect was observed against the fungi Nannizzia fulva CCF 6025, where the MIC80 of the pure extract from Jonas 1 variety was 256 μg/mL while the encapsulated extract in chitosan nanoparticles (1:10 w/w extract:chitosan ratio) inhibited growth at a concentration of 256 μg/mL of nanoparticles (corresponding to 13.05 ± 0.13 μg/mL of extract).

Overall, encapsulation reduced the amount of extract required to inhibit the growth of pathogenic microorganisms by up to several times, notably in case of dermatophytes, compared to non-encapsulated extracts. Encapsulation also reduced the cytotoxic effects of the extracts on human keratinocytes. Furthermore, pure high-THCA-A extract and encapsulated extract in chitosan nanoparticles slightly increased cell viability after 72 h exposure in low concentrations compared to control.

These results may suggest the chitosan nanoparticles-encapsulated formulations as a suitable topical delivery form of cannabis extracts, offering a possible adjunctive treatment of dermatophytosis and wound healing.”

https://pubmed.ncbi.nlm.nih.gov/40917837/

https://www.frontiersin.org/journals/medicine/articles/10.3389/fmed.2025.1644502/full

Appraising the “entourage effect”: Antitumor action of a pure cannabinoid versus a botanical drug preparation in preclinical models of breast cancer

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Biochemical Pharmacology

“Breast cancer is the second leading cause of death among women. Although early diagnosis and development of new treatments have improved their prognosis, many patients present innate or acquired resistance to current therapies. New therapeutic approaches are therefore warranted for the management of this disease.

Extensive preclinical research has demonstrated that cannabinoids, the active ingredients of Cannabis sativa, trigger antitumor responses in different models of cancer.

Most of these studies have been conducted with pure compounds, mainly Δ9-tetrahydrocannabinol (THC). The cannabis plant, however, produces hundreds of other compounds with their own therapeutic potential and the capability to induce synergic responses when combined, the so-called “entourage effect”.

Here, we compared the antitumor efficacy of pure THC with that of a botanical drug preparation (BDP).

The BDP was more potent than pure THC in producing antitumor responses in cell culture and animal models of ER+/PR+, HER2+ and triple-negative breast cancer. This increased potency was not due to the presence of the 5 most abundant terpenes in the preparation. While pure THC acted by activating cannabinoid CB2 receptors and generating reactive oxygen species, the BDP modulated different targets and mechanisms of action. The combination of cannabinoids with estrogen receptor- or HER2-targeted therapies (tamoxifen and lapatinib, respectively) or with cisplatin, produced additive antiproliferative responses in cell cultures. Combinations of these treatments in vivo showed no interactions, either positive or negative.

Together, our results suggest that standardized cannabis drug preparations, rather than pure cannabinoids, could be considered as part of the therapeutic armamentarium to manage breast cancer.”

“It is well documented that cannabinoids, the active ingredients of the hemp plant Cannabis sativa, produce antitumor responses in preclinical models of cancer, by tackling different stages of cancer progression such as uncontrolled cancer cell proliferation and survival, angiogenesis and metastasis. The vast majority of these studies has been performed with pure compounds, mainly Δ9-tetrahydrocannabinol (THC). The cannabis plant, however, produces hundreds of additional compounds (other cannabinoids, terpenoids, flavonoids, polyphenols, etc.) that have been much less studied but show promising therapeutic properties (anti-proliferative, anti-inflammatory, immune-stimulant, etc.), and/or the potential capability of enhancing some THC actions, the so-called “entourage effect”.

https://www.sciencedirect.com/science/article/abs/pii/S0006295218302387

UHPLC-Q-TOF-MS profiling and multifaceted antioxidant, antihyperglycemic and anticancer potential of Cannabis sativa sugar leaves: An unexplored source of cannabidiol, terpenes and polyphenols

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Pharmacological Research - Natural Products

“Cannabis sativa is one of the most extensively researched plant species that holds promising therapeutic and ethnomedicinal significance.

Various parts of the species including fan leaves, flowers and trichomes are well documented for their richness in cannabidiol (CBD) and tetrahydrocannabidiol (THC) contents. However, an overlooked part of C. sativa, the sugar leaves, which are wasted during harvesting has plethora of CBD and THC and yet to investigated.

In this study we investigated the ethanol extract of sugar leaves of C. sativa (CSLE) for chemical composition through UHPLC-Q-TOF-MS analysis and pharmacological potential by using various in vitro antioxidant, antidiabeticnitric oxide inhibition and anticancer studies. Furthermore, in silicomolecular docking analysis was performed for 10 selected compounds against α-glucosidase and α-amylase.

The UHPLC-Q-TOF-MS profiling of CSLE revealed the tentative identification of 37 compounds including CBD, THC, terpenes and flavonoids. The cytotoxicity studies presented highest activity against breast cancer cell lines (MDA-MB-231, IC50= 18.12 ± 1.13 µg/mL) followed by lung, liver and colorectal cancer cell lines.

Similarly, CSLE showed significant antidiabetic activity by inhibiting α-glucosidase (IC50= 3.13 ± 2.78 µg/mL) and α-amylase. The in vitro antioxidant assays gave highest activity in ABTS followed by DPPH method as well as potentially inhibited nitric oxide (NO) formation. The computational analysis revealed good docking interaction of CBD, THC, selected terpene and flavonoids against α-glucosidase and α-amylase.

Overall, the findings present the sugar leaves of C. sativa as the undisputed rich source of CBD, THC, terpenes and flavonoids with multifaceted therapeutic potential in diabetes, inflammation and different types of cancers. However, there is need of further investigations on toxicity profile and in-depth pharmacological evaluation through in vivo disease bearing animal models.”

https://www.sciencedirect.com/science/article/abs/pii/S2950199725001429

“The research titled “UHPLC-Q-TOF-MS profiling and multifaceted antioxidant, antihyperglycemic and anticancer potential of Cannabis sativa sugar leaves: An unexplored source of cannabidiol, terpenes and polyphenols” identifies sugar leaves of Cannabis sativa as a potential source for multiple therapeutic compounds, including cannabidiol, terpenes, and polyphenols. Through UHPLC-Q-TOF-MS analysis, the study found that these sugar leaf extracts exhibit antioxidant, antihyperglycemic (anti-diabetic), and anticancer activities against various cancer cell lines. The specific compounds present in the sugar leaves, when combined with other plant compounds like terpenes and flavonoids, demonstrate a phenomenon known as the entourage effect, which could enhance their therapeutic potential.”

Neuroavailable peptides from hempseed protein hydrolysates reduce hippocampal inflammation and glial activation in a scopolamine-induced Alzheimer’s disease

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“Alzheimer’s disease (AD) is a progressive neurodegenerative disorder characterized by cognitive impairment, synaptic dysfunction, and neuronal loss. Neuroinflammation, driven by the activation of microglia and astrocytes, is a key contributor to AD pathology, amplifying oxidative stress and amyloid-β toxicity. Modulation of neuroinflammatory pathways thus represents a promising therapeutic strategy.

In this study, we evaluated the effects of a food-grade hempseed protein hydrolysate (HPH20A) on hippocampal inflammation and glial activation in a scopolamine-induced mouse model of AD.

Mice were orally supplemented with HPH20A (10 mg/kg/day) for 12 weeks. Hippocampal tissue was analyzed by RT-qPCR and immunohistochemistry to assess the expression of glial and inflammatory markers. To identify peptides capable of reaching the brain, we employed a double transwell in vitro system simulating intestinal and blood-brain barrier (BBB) transport, followed by LC-TIMS-MS/MS peptidomics, in silico bioactivity prediction, and molecular docking. HPH20A supplementation significantly attenuated the expression of pro-inflammatory markers, including GFAP, IBA1, TREM2, CD68, iNOS, COX2, and IL-6, and increased the anti-inflammatory cytokine IL-10. Peptidomic analysis identified two peptides, NVDTELAHKL and DSETVKRL, consistently present across intestinal, systemic, and brain compartments. These peptides were predicted to exhibit anti-inflammatory activity and demonstrated high-affinity binding to AD-related targets (APP, TREM2, and AChE) in docking simulations.

Taken together, these findings suggest that HPH20A exerts neuroprotective effects by modulating hippocampal inflammation inflammation, potentially through specific bioactive peptides capable of crossing the BBB.

Our results support the potential of hempseed-derived peptides as dietary modulators of neuroinflammation in early stages of neurodegenerative disease.”

https://pubmed.ncbi.nlm.nih.gov/40916308/

https://www.sciencedirect.com/science/article/pii/S0753332225006328?via%3Dihub