Multimodal imaging distribution assessment of a liposomal antibiotic in an infectious disease model.

Liposomes are promising targeted drug delivery systems with the potential to improve the efficacy and safety profile of certain classes of drugs. Though attractive, there are unique analytical challenges associated with the development of liposomal drugs including human dose prediction given these are multi-component drug delivery systems. In this study, we developed a multimodal imaging approach to provide a comprehensive distribution assessment for an antibacterial drug, GSK2485680, delivered as a liposomal formulation (Lipo680) in a mouse thigh model of bacterial infection to support human dose prediction. Positron emission tomography (PET) imaging was used to track the in vivo biodistribution of Lipo680 over 48 h post-injection providing a clear assessment of the uptake in various tissues and, importantly, the selective accumulation at the site of infection. In addition, a pharmacokinetic model was created to evaluate the kinetics of Lipo680 in different tissues. Matrix-assisted laser desorption/ionization (MALDI) imaging mass spectrometry (IMS) was then used to quantify the distribution of GSK2485680 and to qualitatively assess the distribution of a liposomal lipid throughout sections of infected and non-infected hindlimb tissues at high spatial resolution. Through the combination of both PET and MALDI IMS, we observed excellent correlation between the Lipo680-radionuclide signal detected by PET with the GSK2485680 and lipid component signals detected by MALDI IMS. This multimodal translational method can reduce drug attrition by generating comprehensive biodistribution profiles of drug delivery systems to provide mechanistic insight and elucidate safety concerns. Liposomal formulations have potential to deliver therapeutics across a broad array of different indications, and this work serves as a template to aid in delivering future liposomal drugs to the clinic.

Imaging Mass Spectrometry (IMS) for drug discovery and development survey: Results on methods, applications and regulatory compliance.

Imaging mass spectrometry (IMS) is increasingly used for drug discovery and development to understand target enagement, tissue distribution, drug toxicity, and disease mechanisms, etc. However, this is still a relatively new technique that requires further development validation before it will be an acceptable technique to support regulated development of new drugs. Thus, best practices will need to be established to build more confidence and gain wider acceptance by the scientific community, pharmaceutical industry, and regulatory authorities. The Imaging Mass Spectrometry Society (IMSS) and the Japan Association for Imaging Mass Spectrometry (JAIMS) have conducted a thorough survey to gather information on the current state of IMS and to identify key issues. The survey was sent to researchers or managers in the position who are currently using IMS techniques in support of their drug discovery and development efforts and/or who plan to use such tools as best practices are established. The survey probes questions related to details regarding technical aspects of IMS, which includes data acquisition, data analysis and quantitation, data integrity, reporting, applications, and regulatory concerns. This international survey was conducted online through the Survey Monkey (https://www.surveymonkey.com) in both English and Japanese from September 14 through September 30, 2020.