Gb Sciences' Nanoparticle Encapsulation Technology Improves the Efficacy of Terpenes for Use in Our Chronic Pain Formulations as Demonstrated in New Research Article

Rhea-AI Summary

Gb Sciences has co-published a study in the International Journal of Pharmaceutics on March 25, demonstrating that their proprietary nanoparticle technology enhances the efficacy of cannabis-based terpenes for pain management. This research indicates that encapsulated terpenes show significantly higher activation of TRPV1 pain receptors compared to free terpenes, suggesting potential for effective chronic pain treatment. Gb Sciences is advancing multiple preclinical programs, including a promising treatment for Parkinson's disease.

Positive

• Proprietary nanoparticle technology enhances efficacy of terpenes for pain management.
• Study shows significantly higher activation of TRPV1 pain receptors with encapsulated terpenes.
• Research opens new opportunities for chronic pain pharmaceuticals.

Negative

• None.

On March 25, the University of Seville, Chaminade University, and Gb Sciences co-published the results from Gb Sciences-sponsored study in the International Journal of Pharmaceutics. Gb Sciences' proprietary, time-released, oral nanoparticle technology improved the efficacy of cannabis-based terpenes in modulating a known pain receptor in this study.

LAS VEGAS, March 29, 2022 (GLOBE NEWSWIRE) -- Gb Sciences, Inc. (OTCQB:GBLX), a leading cannabis- and plant-inspired, biopharmaceutical research and development company, announces that their sponsored study investigating the effect of nanoparticle encapsulation of three cannabis-based terpenes on their potential efficacy in pain management was published in the International Journal of Pharmaceutics on March 25. For the Gb Sciences-sponsored study, researchers at the University of Seville in Spain have developed time-released, oral nanoparticles to deliver Gb Sciences' patent-protected chronic pain formulations, which are based on synergistic mixtures of terpenes. Terpenes are normally highly volatile, highly lipophilic molecules that are difficult to formulate into stable drug products, so Gb Sciences and their colleagues believe that nanocarriers can improve their stability, solubility, and bioavailability.

"This research represents an important advance in the creation of novel terpene-containing pharmaceutical products for chronic pain, which have the potential to deliver relief over time in a safer and more efficient manner through our time-released delivery technology," said Dr. Andrea Small-Howard, President and Chief Science Officer of Gb Sciences, who co-authored the paper with researchers from the University of Seville in Spain and Chaminade University in Hawai'i. "There was a considerable technological challenge to developing a suitable drug delivery system for terpenes. This study demonstrates how nanomedicines offer an elegant solution for administering these efficacious molecules and opens up new opportunities for their use in chronic pain medicines."

In the U.S. alone, chronic pain represents an estimated health burden of between $560 and $650 billion dollars, and an estimated 20.4% of U.S. adults suffer from chronic pain that significantly decreases their quality of life. Despite the widespread rates of addiction and death, opioids remain the standard of care treatment for most people with chronic pain. Concerns over those issues have made novel chronic pain treatments such as Gb Sciences' therapies an important and promising field of research and development.

The Gb Sciences-sponsored study tested the effect of poly(lactide-co-glycolide) nanoparticles containing the three terpenes versus the effect of free terpenes in a cell model with TRPV1 receptors, which are known pain receptors. The study found that the encapsulated terpene nanoparticles produced significantly higher calcium responses alone or in combinations versus the free terpenes alone or in combinations. The elevated calcium responses through the TRPV1 channels indicate greater activation of these pain receptors, which can have an analgesic effect via desensitization of these important pain receptors.

In addition to its potential therapy for chronic pain, Gb Sciences has four other advanced preclinical-stage programs, including a Parkinson's disease treatment being prepared to enter a first-in-human clinical trial. 

To learn more about Gb Sciences, visit www.gbsciences.com.

About Gb Sciences and GbS Global Biopharma

Gb Sciences, Inc. is a plant-inspired, biopharmaceutical research and development company creating patented, disease-targeted formulations of cannabis- and other plant-inspired therapeutic mixtures for the prescription drug market through its Canadian subsidiary, GbS Global Biopharma, Inc. The "plant-inspired" active ingredients in its therapeutic mixtures are synthetic homologues identical to the original plant compounds but produced under current Good Manufacturing Practices. Gb Sciences' intellectual property portfolio contains six issued U.S. and three issued foreign patents, as well as 18 U.S. and 49 foreign patent-pending applications. In its drug development pipeline, Gb Sciences has five preclinical phase product development programs. Gb Sciences' lead program for Parkinson's disease is being prepared for a first-in-human clinical trial. Gb Sciences' formulations for chronic pain, anxiety, and depression are currently in preclinical animal studies with researchers at the National Research Council Canada. The company also recently received positive preclinical proof-of-concept data supporting its complex mixtures for the treatment of Cytokine Release Syndrome related to COVID-19, and its lead candidates will be optimized based on late-stage preclinical studies at Michigan State University. Gb Sciences' productive research and development network includes distinguished universities, hospitals, and Contract Research Organizations. To learn more, visit www.gbsciences.com. 

Forward-Looking Statements

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Media Contact

Mike Albanese
mike.albanese@newswire.com

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FAQ

What were the findings of the Gb Sciences study published on March 25, 2022?

The study found that Gb Sciences' nanoparticle technology significantly enhances the efficacy of cannabis-based terpenes in activating TRPV1 pain receptors compared to free terpenes.

What is the significance of the TRPV1 receptors in chronic pain management for GBLX?

TRPV1 receptors are known pain receptors, and their activation can lead to analgesic effects, indicating potential for Gb Sciences' therapies in effectively managing chronic pain.

What other programs is Gb Sciences currently developing?

Gb Sciences is advancing four other preclinical programs, including a treatment for Parkinson's disease that is set to enter human clinical trials.

When was the study involving Gb Sciences' terpenes published?

The study was published on March 25, 2022, in the International Journal of Pharmaceutics.

How does Gb Sciences' technology improve cannabis-based treatments?

The technology allows for time-released delivery of terpenes, improving their stability, solubility, and bioavailability, which can enhance therapeutic effects.