Abstract
Probiotic bacteria can stimulate health and can work synergistically with antibiotics to eradicate intestinal infections. However, after oral administration along their way through gastric-intestinal tract, probiotic bacteria need protection against gastric acids and the antibiotics they need to collaborate with. Accordingly, biomaterial encapsulation of probiotic bacteria against antibiotics is a rapidly emerging field. Compared with genetic engineering, which bears the risk of creating a “super-bug” resistant to all antimicrobial measures known, biomaterial encapsulation is a much safer method and offers controllable protection which can be stopped on demand. In this thesis, various passive biomaterial encapsulations are evaluated. In addition, a protective biomaterial encapsulation based on silica nanoparticles combined with bacterially-derived carbon quantum dots has been developed that assist the probiotic bacteria in performing their beneficiary function for the host. This new, active encapsulation method may constitute a first step towards the development of a non-living replacement of probiotic bacteria.
Original language | English |
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Qualification | Doctor of Philosophy |
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Award date | 4-May-2022 |
Place of Publication | [Groningen] |
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Publication status | Published - 2022 |