6 research outputs found

    ASSESSMENT OF SUBCHRONIC TOXICITY OF FERMENTED HOUTTUYNIA CORDATA THUNB. USING RODENT MODEL SYSTEM

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    Objective: The present study was intended to evaluate the subchronic toxicity of Lactobacillus-mediated fermented Houttuynia cordata juice (FHJ) using rodent model system.Methods: FHJ was prepared and the microbial load, lactic acid content, and pH was estimated. Rats were fed with different doses of FHJ for 60 days. The body mass changes were measured during FHJ supplementation. After the treatment period, blood and organs of the experimental rats were collected. The samples were subjected to hematological and biochemical analysis by following standard hospital protocols.Results: The pH of FHJ after 30 days of fermentation was 3.63. The lactic acid content of FHJ was gradually increased and reached 19.70 mg per mL after 30 days of the fermentation process. Lactobacillus load was high in FHJ after 30 days and no Bacillus spp. and yeast were detected in FHJ at any point of fermentation. There were no significant changes in body weight of male and female experimental rats supplemented with FHJ, irrespective of dose. There were no significant treatment-related pathological changes found in any organ of the experimental rats at all tested dose levels when compared with organs in control animals. There were no significant changes observed in red blood cells (RBCs), white blood cells (WBCs), hemoglobin, hematocrits, lymphocyte, and platelets level of male rats of all groups. Whereas, significant (p<0.01) changes were observed in the RBC (1.02±0.26 106/mm3) of female rats in effective dose (ED) group compared to control. Similarly, significant (p<0.01) changes were detected in the WBC level of female rats in high dose (−7.53±0.03 103/mm3), and post-ED group (−8.86±0.75 103/mm3) compared to control. There were no alterations in tested biochemical parameters of experimental rats.Conclusion: The FHJ was rich in probiotic Lactobacillus. The supplementation of FHJ (9 mL/kg/day) for 60 days did not significantly affect the body mass, internal organs, hematological, and biochemical parameters of rats. The results suggested that FHJ is qualified for the human consumption

    ASSESSMENT OF BIOLOGICAL SAFETY OF FERMENTED PHYLLANTHUS EMBLICA FRUIT JUICE

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    Objective: The present study evaluated the subchronic toxicity of Lactobacillus mediated fermented Phyllanthus emblica fruit juice (FPJ) using a rat as a model system.Methods: FPJ was prepared, and estimated the changes in pH by pH meter, and microbial load by a plating method. Rats were fed with different dose of FPJ for 60 days. The changes in the body mass were noted. The blood and organs of the experimental rats were collected, after 60 days of intervention. Then, they were analyzed for the selected hematological and biochemical parameters by following standard hospital protocols.Results: The pH of FPJ after 30 days of fermentation was 3.16. FPJ was rich in probiotic Lactobacillus spp. (7.23 Log CFU per mL) without contamination. The supplementation of FPJ was not significantly affected the body weight of the experimental animals, except the female rats in posteffective dose (PED) group showed significant changes (20.83±8.49 g) compared to control (40±17.22 g). The internal organs of the rat were not affected by the FPJ supplementation. The changes observed in blood urea nitrogen, creatinine, cholesterol, triglyceride, aspartate aminotransferase; alanine aminotransferase, and alkaline phosphatase level of experimental rats, both male and female, were not significantly differed from the respective controls. The average of lymphocytes level was significantly increased in continuous dosing group of males and females. Interestingly, the increase in red blood cell and hemoglobin (HGB) were statistically significant for ED group and PED in both sexes, except for females with no effect on HGB content.Conclusion: The prepared FPJ was enriched with probiotic Lactobacillus spp. The supplementation of FPJ (up to 9 mL/kg/day) for 60 days was not significantly influenced the body weight, internal organs, biochemical and hematological parameters of experimental rats (both male and female). The results revealed that FHJ is suitable for the human consumption

    EVALUATION OF SUBCHRONIC TOXICITY OF LACTOBACILLUS PARACASEI HII03 FERMENTED MORINDA CITRIFOLIA (NONI) FRUIT JUICE

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    Objective: The present study evaluated the subchronic toxicity of Lactobacillus paracasei mediated fermented Morinda citrifolia (Noni) juice (FMJ) using Sprague Dawley rat as a model system.Methods: FMJ was prepared. The microbial load and pH of FMJ during fermentation were measured by a plating method and using pH meter, respectively. The healthy rats were supplemented with different doses of FMJ for 60 days. The changes in body weight of the animals were measured during FMJ intervention period. The blood and organs of the experimental rats were collected and were subjected to hematological and biochemical analysis by following standard hospital protocols, after the treatment period.Results: After 30 days of fermentation, the pH of FMJ was reduced to 4.10 from 4.31. Lactobacillus load was increased gradually during fermentation while Bacillus spp. load decreased progressively, finally after 30 days of fermentation, no Bacillus spp., and yeast was found in FMJ. FMJ supplementation did not affect the body mass of experimental animals. The alternations in the organ weight were not associated with FMJ intervention. FMJ supplementation did not significantly affect the normal range of the selected hematological and biochemical parameters, which suggested that FMJ was not harmful to experimental rats.Conclusion: FMJ was enriched with lactic acid bacteria, and free from pathogenic microbes. FMJ was found as safe for rodent consumption without any adverse effects. Further, studies are needed to explain the beneficial effect of L. paracasei mediated FMJ

    Characterization of the antiyeast compound and probiotic properties of a starter Lactobacillus plantarum DW3 for possible use in fermented plant beverages

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    Lactobacillus plantarum DW3 produced antifungal compounds that inhibited the growth of Rhodotorula mucilaginosa DKA, contaminating yeast in fermented plant beverages (FPBs) and various potential human pathogens. Phenyllactic acid (PLA) identified by gas chromatography- mass spectrometry (GC-MS) was produced at 31 mg/L PLA in MRS medium and 5 mg/ml inhibited growth of the target yeast in vitro by 90%. Other inhibitors were also present but not specifically identified. Results of in vitro tests showed that DW3 also had probiotic properties as it survived various human biological barriers resistance to pH 3, bile salts, growth without vitamin B12 and the presence and absence of oxygen. Its inhibitory effect against food borne pathogenic bacteria and spoilage organisms was higher than that found for a commercial strain Lactobacillus casei R. An acute oral toxicity test on ICR mice at a high single dose of either 109 and 1012 cells per mouse for 14 days showed that DW3 had no adverse effect on the general health status and there was no evidence of bacteremia. Mice fed DW3 had a reduced weight gain compared to the control. No significant difference (p > 0.05) was found for the spleen weight index (SWI) among the treatment and control groups whereas there was a significant difference (p < 0.05) for the liver weight ratio (LWR) in a group fed with 1012 cells per mouse when compared with the control group

    Characterization of the antiyeast compound and probiotic properties of a starter Lactobacillus plantarum DW3 for possible use in fermented plant beverages

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    Lactobacillus plantarum DW3 produced antifungal compounds that inhibited the growth of Rhodotorula mucilaginosa DKA, contaminating yeast in fermented plant beverages (FPBs) and various potential human pathogens. Phenyllactic acid (PLA) identified by gas chromatography- mass spectrometry (GC-MS) was produced at 31 mg/L PLA in MRS medium and 5 mg/ml inhibited growth of the target yeast in vitro by 90%. Other inhibitors were also present but not specifically identified. Results of in vitro tests showed that DW3 also had probiotic properties as it survived various human biological barriers resistance to pH 3, bile salts, growth without vitamin B12 and the presence and absence of oxygen. Its inhibitory effect against food borne pathogenic bacteria and spoilage organisms was higher than that found for a commercial strain Lactobacillus casei R. An acute oral toxicity test on ICR mice at a high single dose of either 109 and 1012 cells per mouse for 14 days showed that DW3 had no adverse effect on the general health status and there was no evidence of bacteremia. Mice fed DW3 had a reduced weight gain compared to the control. No significant difference (p > 0.05) was found for the spleen weight index (SWI) among the treatment and control groups whereas there was a significant difference (p < 0.05) for the liver weight ratio (LWR) in a group fed with 1012 cells per mouse when compared with the control group
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