“Context: As a naturally occurring terpenoid found in Cannabis sativa L. (Cannabaceae), cannabidiol (CBD) has gained public and industry interest for the purposes of personal well-being as a foodstuff and pharmaceutical. Despite a number of publications on CBD toxicology, many have significant limitations, especially those relating to genotoxicity. These include poor characterization of the CBD extract and/or lack rigor in conforming to accepted regulatory guidelines and best practice. A number of regulatory agencies have highlighted these issues and requested additional genotoxicity data to help ensure the safe use of CBD.

Objective: To provide insights into the genotoxicity of a CBD isolate and its lipid carrier.

Materials and methods: We have conducted an in vitro mammalian cell micronucleus (OECD 487) and a bacterial reverse mutagenicity assay (Ames test) (OECD 471) in a CBD isolate (97% > CBD) with its carrier.

Results: The samples tested were non-mutagenic, as determined in the Ames test. The in vitro micronucleus assay conducted was negative for genotoxicity, with no statistically significant increases in the incidences of micronucleated cells observed at any dose compared to negative controls.

Conclusions: These studies confirm that this CBD rich isolate in combination with its carrier, are unlikely to post any genotoxic hazard at exposure levels expected in foods.”

https://pubmed.ncbi.nlm.nih.gov/40326262/

“In summary, the potential genotoxicity of the CBD test substance was assessed using a mammalian cell micronucleus test and Ames test. These tests respectively assess chromosomal damage and base changes, or frameshift mutations in the genome. Application of these assays to the CBD test substance did not produce any evidence of genotoxic effects, findings that are consistent with other studies.”

https://www.tandfonline.com/doi/full/10.1080/13880209.2025.2499075

“Cannabidiol (CBD) and tetrahydrocurcumin (THC) have demonstrated anti-inflammatory activity as well as generating new lymph vessels. We present the formulations and evaluations of CBD and THC loaded in hydrogels for the treatment of lymphedema to promote angiogenesis of lymph vessels and an anti-inflammatory response.

Six CBD-THC hydrogel formulations were prepared and evaluated. The hydrodynamic particle sizes were 302.0-545.1 nm and the zeta potentials were from -58.80 to -33.63 mV. The hydrogel pHs were 6.43-6.54.

The hydrogel formulations were non-toxic for both CBD (<25 µg/mL) and THC (<12.5 µg/mL). It was observed that high-molecular-weight hyaluronic acid in hydrogel affected collagen production. Hydrogel formulations at 2 µg/mL of CBD and 1 µg/mL of THC induced human dermal lymphatic endothelial cell tube formation.

CBD-THC hydrogel formulations showed a notable ability to induce angiogenesis, which suggested its potential effectiveness in promoting new lymphatic vessel formation. Moreover, CBD-THC hydrogels showed anti-inflammatory properties. Further research is needed to ensure these treatments effectively enhance lymphatic repair.”

https://pubmed.ncbi.nlm.nih.gov/40244338/

“In conclusion, CBD-THC hydrogels offer a multifunctional therapeutic strategy for lymphedema by combining angiogenesis promotion, anti-inflammatory effects, and injectable gelation behavior.”

https://www.mdpi.com/1422-0067/26/7/3428

“Hemp is a multiuse crop used for fiber, food, and medicinal purposes. The seed of hemp has attracted great attention as a good plant protein resource with remarkable nutritional and biological properties. However, the application of hemp seed protein (HSP) is limited due to its unsatisfactory functional properties. Physical, chemical, and biological technologies have been explored to modify the structure of HSP and improve its functionality. The investigation of the biological activity of HSP and its derived peptide to deal with intestinal, metabolic, and muscle concerns has broadened its utilization in healthy products. Therefore, the current review is performed to summarize the recent research progress on the novel extraction and modification of HSP, as well as the purification and identification of active peptide. The multi-functional multi-bioactive properties and adverse effects of HSP and peptide are also depicted to facilitate their potential applications in the food industry.”

https://pubmed.ncbi.nlm.nih.gov/40238243/

“This review highlights the potential of hemp seed protein and peptides as emerging valuable bioactive ingredients to improve food quality and develop functional products. Furthermore, the extraction and modification methods of HSP, as well as the preparation and identification of active peptides, are summarized. Despite hemp seed protein being characterized as a good source of essential amino acids with multiple health benefits, the use of the cannabis plant has been stigmatized in most countries in the world due to its psychoactive effects. Accordingly, increasing science popularization and raising public acceptance about hemp is necessary to facilitate the promotion of related products. And more research is highly recommended to confirm the potential allergens in hempseed protein. Moreover, although in silico analysis can predict hemp seed active peptides properties and sequence as time- and cost-effective alternative tools, more in vitro analyses, animal tests, and human intervention trials are still required to better support their application in daily diets and as a functional food. In conclusion, this plant-based health protein offers an excellent opportunity to meet the demands of the food industry and benefit human wellness.”

https://www.mdpi.com/2304-8158/14/7/1149