Manufacturing Stable Bacteriophage Powders by Including Buffer System in Formulations and Using Thin Film Freeze-drying Technology

Autor: Melissa Soto, Robert O. Williams, Yajie Zhang, Debadyuti Ghosh
Rok vydání: 2021
Předmět:
Zdroj: Pharmaceutical Research. 38:1793-1804
ISSN: 1573-904X
0724-8741
DOI: 10.1007/s11095-021-03111-y
Popis: Bacteriophage (phage) therapy has re-gained attention lately given the ever-increasing prevalence of multi-drug resistance ‘super-bugs’. To develop therapeutic phage into clinically usable drug products, the strategy of solidifying phage formulations has been implemented to diversify the dosage forms and to overcome the storage condition limitations for liquid phage formulations. In our work, we hypothesize and tested that an advanced technology, thin film freeze-drying (TFFD), can be used to produce phage containing dry powders without significantly losing phage viability. Here we selected T7 phage as our model phage in a preliminary screening study. We found that a binary excipient matrix of sucrose and leucine at ratios of 90:10 or 75:25 by weight, protected phage from the stresses encountered during the TFFD process. In addition, we confirmed that incorporating a buffer system in the formulation significantly improved the survival of phage during the initial freezing step and subsequent sublimation step in the solidifying processes. The titer loss of phage in SM buffer (Tris/NaCl/MgSO4) containing formulation was as low as 0.19 log plaque forming units, which indicated that phage function was well preserved after the TFFD process. The presence of buffers markedly reduced the geometric particle sizes as determined by a dry dispersion method using laser diffraction, which indicated that the TFFD phage powder formulations were easily sheared into smaller powder aggregates, an ideal property for facilitating a variety of topical drug delivery routes including pulmonary delivery through dry powder inhalers, nebulization after reconstitution, and intranasal or wound therapy, etc. From these findings, we show that introducing buffer system can stabilize phage during dehydration processes, and TFFD, as a novel particle engineering method, can successfully produce phage containing powders that possess the desired properties for bioactivity and potentially for inhalation therapy.
Databáze: OpenAIRE