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Archaeosomes facilitate storage and oral delivery of cannabidiol

Viktor Laurin Sedlmayr, Christina Horn, David Johannes Wurm, Oliver Spadiut, Julian Quehenberger

2023International Journal of Pharmaceutics17 citationsDOIOpen Access PDF

Abstract

Cannabidiol (CBD) has received great scientific interest due to its numerous therapeutic applications. Degradation in the gastrointestinal (GI) tract, first-pass metabolism, and low water solubility restrain bioavailability of CBD to only 6% in current oral administration. Lipid-based nanocarriers are delivery systems that may enhance accessibility and solubility of hydrophobic payloads, such as CBD. Conventional lecithin-derived liposomes, however, have limitations regarding stability in the GI tract and long-term storage. Ether lipid-based archaeosomes may have the potential to overcome these problems due to chemical and structural uniqueness. In this study, we compared lecithin-derived liposomes with archaeosomes in their applicability as an oral delivery system of CBD. We evaluated drug load, storage stability, stability in a simulated GI tract, and in vitro particle uptake in Caco-2 cells. Loading capacity was 6-fold higher in archaeosomes than conventional liposomes while providing a stable formulation over six months after lyophilization. In a simulated GI tract, CBD recovery in archaeosomes was 57 ± 3% compared to only 34 ± 1% in conventional liposomes and particle uptake in Caco-2 cells was enhanced up to 6-fold. Our results demonstrate that archaeosomes present an interesting solution to tackle current issues of oral CBD formulations due to improved stability and endocytosis.

Topics & Concepts

LiposomeLecithinBioavailabilityCannabidiolChemistryPharmacologyNanocarriersDrug deliveryBiochemistryMedicineOrganic chemistryPsychiatryCannabisCannabis and Cannabinoid ResearchPancreatic function and diabetesDiet, Metabolism, and Disease
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