Kwong Pancy Tsz Hei, Arnold Jonathon Carl, Chan Hak-Kim, Kwok Philip Chi Lip
Advanced Drug Delivery Group, Sydney Pharmacy School, Faculty of Medicine and Health, The University of Sydney, NSW 2006, Australia.
Lambert Initiative for Cannabinoid Therapeutics, Brain and Mind Centre, The University of Sydney, NSW 2050, Australia; Discipline of Pharmacology, Sydney Pharmacy School, Faculty of Medicine and Health, The University of Sydney, NSW 2006, Australia.
Int J Pharm. 2025 Oct 15;683:126063. doi: 10.1016/j.ijpharm.2025.126063. Epub 2025 Aug 10.
Methicillin-resistant Staphylococcus aureus (MRSA) can cause life-threatening respiratory infections. Conventional oral and parenteral antibiotic treatments are often inefficient in targeting the lower respiratory tract and could cause systemic adverse effects. In this study, the 24-hour time-kill assay revealed that the co-delivery of cannabidiol (CBD) and vancomycin synergistically eradicated three clinical strains of MRSA. The combinations had rapid and sustained bactericidal activity over 24 h at the ½ x minimum inhibitory concentration (MIC). Four synergistic mass ratios of CBD and vancomycin (1:1, 2:1, 1:3, and 1:6, respectively) were co-spray dried with trehalose dihydrate and leucine to form inhalable powders. The powders were evaluated for their physicochemical and antimicrobial properties, including particle size distribution and morphology, solid-state characteristics, water sorption behaviour, aerosol performance, and 24-hour time-kill assay. Scanning electron microscopy images showed that the particles of all formulations were hollow and wrinkled. X-ray diffraction analysis confirmed that all formulations were amorphous. Moreover, moisture-induced recrystallisation occurred between 70 % and 80 % relative humidity as determined by dynamic vapour sorption. The spray-dried combinations were inhalable, achieving a fine particle fraction < 5 µm of at least 30 % upon dispersion. The formulation with the highest vancomycin content had the highest fine particle fraction, reaching approximately 53 % for both drugs. The fine particle dose < 5 µm achieved drug concentrations above the MICs when dissolved in the lung fluid after inhalation. The antimicrobial activity of the combinations was preserved after spray drying. In conclusion, CBD and vancomycin formulations were stable, inhalable, and effective in vitro against MRSA clinical strains.
耐甲氧西林金黄色葡萄球菌(MRSA)可引发危及生命的呼吸道感染。传统的口服和注射用抗生素治疗往往难以有效针对下呼吸道感染,还可能引发全身不良反应。在本研究中,24小时时间杀菌试验表明,大麻二酚(CBD)与万古霉素联合给药可协同根除三株MRSA临床菌株。在最低抑菌浓度(MIC)的½ x浓度下,该组合在24小时内具有快速且持续的杀菌活性。将CBD与万古霉素的四个协同质量比(分别为1:1、2:1、1:3和1:6)与海藻糖二水合物和亮氨酸共同喷雾干燥,制成可吸入粉末。对这些粉末的物理化学和抗菌性能进行了评估,包括粒度分布和形态、固态特性、水吸附行为、气溶胶性能以及24小时时间杀菌试验。扫描电子显微镜图像显示,所有制剂的颗粒均为中空且有褶皱。X射线衍射分析证实,所有制剂均为无定形。此外,通过动态蒸汽吸附测定,在相对湿度70%至80%之间发生了水分诱导的重结晶。喷雾干燥的组合是可吸入的,分散后可实现至少30%的<5 µm细颗粒分数。万古霉素含量最高的制剂具有最高的细颗粒分数,两种药物均达到约53%。吸入后,<5 µm的细颗粒剂量在溶解于肺液中时达到高于MICs的药物浓度。喷雾干燥后,该组合的抗菌活性得以保留。总之,CBD和万古霉素制剂稳定、可吸入,且在体外对MRSA临床菌株有效。
