聚γ-谷氨酸和糖醇制备水凝胶提高低pH和冷冻干燥条件下益生菌的存活率

I. Kwiecień, A. Ekere, Monika Śmiga-Matuszowicz
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摘要

益生菌是对人体胃肠道有有益影响的微生物。不幸的是,它们的生存能力会受到制造、储存条件和胃肠道条件的负面影响。因此,有必要开发能够保护益生菌免受不利条件影响的输送系统。此前,我们报道了由聚γ-谷氨酸(γ-PGA)制成的水凝胶,并选择了具有潜在应用价值的聚乙二醇(peg)作为益生菌递送载体。在下一步的研究中,我们决定开发具有潜在应用的益生菌口服给药系统的全生物基水凝胶。选用赤四糖醇、木糖醇和山梨醇作为交联剂,合成了γ- pga基水凝胶。研究了所获得的水凝胶是否能提高捕获的益生菌菌株在酸性条件下的存活率。结果已经讨论了有关先前报道的γ-PGA-PEG水凝胶。此外,还研究了将开发的水凝胶用作冷冻保护剂的可能性,用于包裹的益生菌细胞的冷冻干燥。
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Hydrogels Made of Poly-γ-Glutamic Acid and Sugar Alcohols for Enhanced Survival of Probiotic Strains Subjected to Low pH and Freeze Drying
Probiotics are microorganisms that have a beneficial influence on the human gastrointestinal tract. Unfortunately, their viability can be negatively affected by manufacturing, storage conditions and gastrointestinal tract conditions. Therefore, there is a need to develop delivery systems, which can protect probiotics against adverse conditions. Previously, we reported on hydrogels made of poly-γ-glutamic acid (γ-PGA) and selected PEGs with the potential application as probiotic delivery vehicles. In the next step of research, we decided to develop fully biobased hydrogels with the potential application as probiotic oral-delivery systems. Selected sugar alcohols, erythritol, xylitol and sorbitol, have been used as cross-linkers in the synthesis of γ-PGA-based hydrogels. It was examined if obtained hydrogels enhanced the survival rate of entrapped probiotic strains subjected to acidic conditions. Results have been discussed in relation to the previously reported γ-PGA-PEG hydrogels. Moreover, the possibility of using developed hydrogels as a cryoprotectant was investigated during freeze drying of entrapped probiotic cells.
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