Efficacy of microencapsulated lactic acid bacteria in Helicobater pylori eradication therapy

A Khalil Maha, M El-Sheekh Mostafa, I El-Adawi Hala, M El-Deeb Nehal, Z Hussein Mohamed

Abstract


Background: Probiotic delivery systems are widely used nutraceutical products for the supplementation of natural intestinal fl ora. These delivery systems vary greatly in the eff ectiveness to exert health benefi ts for a patient. This study focuses on providing probiotic living cells with a physical barrier against adverse environmental conditions. Materials and Methods: Microencapsulation of the selected lactic acid bacteria (LAB) using chitosan and alginate was performed. Physical examination of the formulated LAB
microcapsules was observed using phase contrast inverted microscope and scanning electron microscope (SEM). Finally, the survival of  icroencapsulated and noncapsulated bacteria was cheeked in the simulated human gastric tract (GT). The potential antimicrobial activity of the most potent microencapsulated LAB strain was in vivo evaluated in rabbit models. Results: Microencapsulated L. plantarum, L. acidophilus, and L. bulgaricus DSMZ 20080 were loaded with 1.03 × 1010 CFU viable  bacteria/g, 1.9 × 1010 CFU viable bacteria/g, and 5.5 × 109 CFU viable bacteria/g, respectively. The survival of microencapsulated cells was significantly higher than that of the free cells after exposure to simulated gastric juice (SGJ) at pH 2. Additionally, in simulated small intestine juice (SSJ),larger amounts of the selected LAB cells were found, whereas in simulated colon juice (SCJ), the released LAB reached the maximum
counts. In vivo results pointed out that an 8-week supplementation with a triple therapy of a microencapsulated L. plantarum,L. acidophilus, and L. bulgaricus DSMZ 20080 might be able to reduce H. pylori. Conclusion: Microencapsulated probiotics could possibly compete with and downregulate H. pylori infection in humans.


Key words: Helicobacter pylori (H. pylori), microcapsule, probiotics


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