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Enhanced Storage of Anaerobic Bacteria through Polymeric Encapsulation.

Kunyu QiuAaron C Anselmo
Published in: ACS applied materials & interfaces (2021)
Live microbes such as lactobacilli have long been used as probiotic supplements and, more recently, have been explored as live biotherapeutic products with the potential to treat a range of conditions. Among these microbes is a category of anaerobes that possess therapeutic potential while exhibiting unique oxygen sensitivity and thus requiring careful considerations in the formulation and storage processes. Existing microbial formulation development has focused on facultative anaerobes with natural oxygen tolerance; a few strategies have been reported for anaerobes with demonstrated oxygen intolerance, warranting novel approaches toward addressing the challenges for these oxygen-sensitive anaerobes. Here, we develop a polymeric encapsulation system for the formulation and storage of Bifidobacterium adolescentis (B. adolescentis), a model anaerobe that loses viability in aerobic incubation at 37 °C within 1 day. We discover that this strain remains viable under aerobic conditions for 14 days at 4 °C, enabling formulation development such as solution casting and air drying in an aerobic environment. Next, through a systematic selection of polymer encapsulants and excipients, we show that encapsulation with poly(vinyl alcohol) (PVA) acts as an oxygen barrier and facilitates long-term storage of B. adolescentis, which is partially attributed to reduced generation of reactive oxygen species. Lastly, PVA-based formulations can produce oral capsule-loaded films and edible gummy bears, demonstrating its compatibility with both pharmaceutical and food dosage forms.
Keyphrases
  • drug delivery
  • cancer therapy
  • reactive oxygen species
  • microbial community
  • high intensity
  • drug release
  • risk assessment
  • human health