Major breakthrough in probiotic production: The two-in-one use of sweet whey affords yet unknown probiotic viability and stability - Institut Agro Rennes-Angers Accéder directement au contenu
Poster De Conférence Année : 2016

Major breakthrough in probiotic production: The two-in-one use of sweet whey affords yet unknown probiotic viability and stability

Résumé

Introduction Probiotic efficacy relies on administration of live and active probiotic strains in adequate dose. Growth yield and stress tolerance during probiotic production and delivery thus constitute a key bottleneck. Probiotics are widely produced, stored and used under a dried form, mainly by freeze-drying. Drying process generally comprises culture, harvesting, washing and drying steps in which preservation of viability remains a quest for the Holy Grail. Methods The aqueous phase of fermented dairy products was shown to enhance stress tolerance in both lactic and propionic acid bacteria. We used sweet whey, a dairy industry byproduct, as a two-in-one medium to sustain both growth of probiotics, and then directly spray-drying without harvesting and washing steps. Moreover, hyperconcentrated sweet whey was developed to achieve one-step drying with higher level of dry matter. Results Both lactic and propionic acid bacteria were adapted to growth within sweet whey and resulting cultures were directly spray-dried with various survival rates, depending on dairy components concentration. Interestingly, growth of probiotics in hyperconcentrated sweet whey led to enhanced stress tolerance, overexpression of key stress proteins, accumulation of intracellular storage molecules and compatible solutes, consequently resulting in yet unknown survival upon heat, acid and bile challenges, as well as spray-drying and storage. Discussion Spray- being far more cost-effective than freeze-drying, this innovation opens new avenues for sustainable development of probiotic products with enhanced delivery efficiency. This patent-protected new process indeed uses a dairy industry byproduct, requires limited amounts of energy, affords high bacterial viability and protects probiotics from injury undergone within the digestive tract.
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Dates et versions

hal-01286495 , version 1 (10-03-2016)

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  • HAL Id : hal-01286495 , version 1
  • PRODINRA : 349516

Citer

Song Huang, Pierre Schuck, Romain Jeantet, Gwénaël Jan, Xiao Dong Chen. Major breakthrough in probiotic production: The two-in-one use of sweet whey affords yet unknown probiotic viability and stability. International Scientific Conference on Probiotics and Prebiotics - IPC2016, Jun 2016, Budapest, Hungary. , 2016. ⟨hal-01286495⟩
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