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  1. Yap, Wei Boon, Rina Anak Sujang
    MyJurnal
    There has been a significant increase in research on probiotics-associated health benefits in the last 20 years. Many studies carried out in vitro and clinically show that consumption of probiotics inhibits the growth of pathogenic microorganisms. Furthermore, the consumption of probiotics also enhances the host immune response and decreases the levels of carcinogenesis-inducing enzymes. These positive outcomes have led to the use of probiotics in prevention and treatment of infectious diseases like bacterial or antibiotic associated diarrhea, chronic inflammatory bowel diseases and colon cancer. This review summarises literature pertaining to mechanistic actions of probiotics in improving the well-being of hosts.
  2. Yap, Wei Boon, Rina Anak Sujang, Tan, Seng Toong
    MyJurnal
    Many studies have shown that probiotic strains added to a number of probiotic products are not compatible to that of
    claimed. It is thus of note to validate probiotic strains added to probiotic products. In this study, three probiotic drinks,
    A, B and C, were cultured on MRS agar and the number of bacterial colonies was enumerated. The bacterial counts
    recovered from A (9.3 ± 6.9 log CFU/ml) and C (9.0 ± 6.9 log CFU/ml) were signifi cantly higher than B (5.2 ± 3.5 log
    CFU/ml) and achieved the minimal amount recommended for probiotic bacteria. All of the isolates appeared as gram
    positive rods microscopically and were proven to be catalase negative. However, there were only A1, A2, B4 and C1 that
    were highly tolerant to the gastrointestinal pH 3 to 6. The four isolates produced and secreted antimicrobial substances
    which inhibited the growth of Escherichia coli (E. coli) and Staphylococcus aureus (S. aureus). C1 showed the greatest
    growth inhibition by forming 17.50-mm and 17.85-mm inhibition zones against E. coli and S. aureus, respectively. The
    16s rDNA sequencing and phylogenetic analysis were performed to further identify the twelve isolates. The twelve isolates
    were found to be Lactobacillus (L.), particularly L. casei and L. paracasei. However, the bacteria isolated from drink B
    were incompatible to the labelled ones. In conclusion, probiotic drinks are possible to contain different bacterial counts
    and probiotic strains from the labelled ones. These differences might affect health benefi ts rendered by probiotic strains
    to consumers.
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