Saturday, March 30, 2019
Microbial Contamination on Toothbrush Storage
Microbial Contamination on Toothbrush rememberingThe study of microbial contamination on storing a soup-strainer in a bathroom with a faecesAbstractAims To examine the microbial contamination of storing a soup-strainer in the bathroom with a washbowl among the resolution Forming Unit (CFU) of microbial groups.Methods and Results The results be analyzed by the ascertain of CFU of agar platesConclusion The toothbrush storing in a bathroom with a tummy or without toilet is being contaminated and it is a swingeing place for rememberingIntroductionEscherichia coli (E.coli) is recognized as a coliform bacterium which is gram negative, anaerobically developed and shaped like a rod. It is generally institute in the intestine of warm-rakehelled animals such as humans. In addition, E.coli is fit to discharge into the environment with fecal substance under airborne circumstance especially by the flushing of toilet and the bacteria dealister develop numerously in fresh fecal s ubstances aerobically for short periods of time. The bacterial aerosols by the flushing can prevail as far as six to eight feet away from the toilet. A humid, warm heighten permit more bacteria to grow and the bristles of the toothbrush would increase the surface ara for microbial adhesion, hence, the fecal-oral transmission can be apply as a major route via which unhealthful communication channel of bacteria to bring into oral diseases. Apparently, the occurrence of fecal coliforms in weewee is non straightforwardly harmful and does not essentially express the forepart of feces (Doyle, M. P., and M. C. Erickson. 2006).Five types of plates were employ with the microbial groups in this experiment.Chocolate demarcation agar, CBA, is an unselective and a medium with enriched development used for fastidious bacterial isolation.123 It is a alternative of the blood agar plate which contains red blood cells lysed by moderate heating to 80 C.Reasoners 2A agar, R2A, is used for th e isolation of heterotrophic bacteria from treated drinkable irrigate (Sandle, T, 2004). These bacteria is likely to grow slowly and would rapidly be restrained by speedy-growing species on a rich medium.Diagnostics Pseudomonas Isolation Agar, PYO, is used for the isolation and speciality of Pseudomonas aeruginosa selectively by raising the pyocyanin production. Pyocyanin production is indicated as a bluish-green, piss-soluble pigment that gives a greenish color into the media (Bodey, G.D., et al., 1989). Malt plagiarize Agar, ME, is used for the cultivation and isolation of yeasts and molds by suitable nutrient add on (7). The pH is modified to nearly 5.5 for upgrading the fungi growth and to lightly halter bacterial growth which usually compulsive as environmental contaminants.(6) Lauryl sulphate Broth, LTA, is used for the isolation of coliforms in piss and foods. The coliform groups involves aerobic and facultative anaerobic, Gram-negative and the bacilli without spores which is able to progress the fermentation of lactose and generate acid and natural gas at 35C. Additionally the LTA44C makes faecal coliforms to be enumerated and the sodium Lauryl Sulfate demonstrates excellent inhibition of organisms except the coliforms.The technique of spreading plates is used for the isolation and enumeration of microorganisms in a mixed culture by up to now allocation. This method can measure the bacteria easier by use a sterilized spreader and applying a small quantity of bacteria rupture on the surface of plate. The plate is required to be ironical before incubation so the bacteria can be absent into the agar rapidly. The plate counting approximate the amount of cells depend on the capability to produce colonies under particular states of nutrient medium, temperature and time. The counting of CFU believes that each colonies is aggregate and observed by a single viable cell.1 More over, CFU/mL of the original suspension is figured out mathematically and then factored in the quantity plated and the dilution factor. This study aims to examine the microbiological contamination of toothbrush to prove whether a bathroom with a toilet is a good place to cut in a toothbrush or not.Material and methodsSample collections and suspensions preparation of hears assort 1, Stored normally at the throw off in a bathroom which contained a toilet situated 0.5 2 m away from the sink. assort 2, not stored near a toilet. Brush either stored in bedroom or in bathroom devoid of toilet.The stresss of plaque, toothbrush, sink and woo piddle were amass by respective sterile method. The plaque sample was vomit into a 2.5ml Ringers solution and sonicated for 10 minutes. Then the slant of plaque sample is contumacious by weighing the bijou bottle and the toothpick is removed by aseptic techniques. The toothbrush sample is cat into the 10ml Ringers solution into a Universal bottle and the toothbrush head is cut and removed aseptically. The s wab originated from 2 x 2 cm square of the sink sample is put into 2.5 Ringers solution of the bijou bottle and is vortexed for approximately 3 minutes. Then the swab is taken out by sterile techniques and the suspension is ensured to squeeze out of the swab. The sample of ten-strike water is put into the 15ml of sterile tube.10-fold dilutions and plates spreadingEach of the samples were processed with orders of plaque, toothbrush, sink and tap water. Different dilutions of samples are nimble by the 10-fold dilutions expect the tap water samples. 0.5ml of undiluted original suspension (100) is removed and inoculated into 4.5 ml of an separate Ringers solution aseptically and mixed well to be a 10-1 dilution. All the samples are prepared down to 10-5dilution.Four plates of CBA, R2A, ME and two plates of PYO, LTA37 and LTA44 of each samples were collected and labelled. For the plaque sample, 2 PYO, 2 LTA37 and 2 LTA44 plates with 100, 2ME plates with 10-1, 2ME plates with 10-2, 2 CB A and 2 R2A plates with 10-4, 2 CBA and 2 R2A plates with 10-5 were inoculated. For the toothbrush sample, 2 PYO, 2 ME, 2 LTA37 and 2 LTA44 with 100, 2 ME plates with 10-1, 2 R2A with 10-2, 2 CBA and 2 R2A plates with 10-3, 2 CBA plates with 10-4 were inoculated. For the sink sample, 2 PYO, 2 LTA37 and 2 LTA44 plates with 100, 2 ME plates with 10-1, 2 ME and 2 R2A plates with 10-2, 2 CBA and 2 R2A plates with 10-3, 2 CBA plates with 10-4 were inoculated. For the tap water sample, all 18 plates were inoculated with 100 undilutedsuspension. 0.2ml of relative dilutions were spread across the surface of the agar plates with aseptic methods. All the plates were allowed to dry before inoculation. 2 LTA44 plates were put in the incubator with 44, 2 PYO plates, 2 LTA37 and 4 CBA plates were put in the incubator with 37, 4 R2A and 4 ME plates were put in the incubator with 25 (United States Pharmacopeia, 2015).Data collectionThe inoculated plates were collected and colonies were counted to d etermine the Colony Forming Units (CFU) by multiplying the average number of colonies by 5 to convert from 0.2ml to 1ml and is compute by the dilution factor. The best number of colonies (30-60 colonies) were counted for the plates which have two dilutions plated onto them. The CFU was calculated as the CFU ml-1 100 suspension and needed subsequent conversions except for the tap water sample. For the plaque, CFU ml-1 100 suspension was multiplied by 2.5 and divided by the weight of plaque to determine the CFU g-1 in 2.5ml bijou bottle. For the toothbrush, CFU ml-1 100 suspension was multiplied by 10 to determine the CFU head-1 in the 10ml Universal bottle. For the sink surface, CFU ml-1 100 suspension was multiplied by 2.5 and divided by 4 to determine the CFU cm-2 in the 2.5ml bijou bottle from a 4cm2 square.ResultsMean CFUs per unit of measurement with SD a measure that is used to quantify the amount of variation or dispersion of a make out of data values.1 A low standard devi ation indicates that the data points break away to be close to the mean (also called the expected value) of the set, while a gritty standard deviation indicates that the data points are spread out over a wider range of values.Average with SD (Plaque CFUs per gram)radical 1 (with toilet)Group 2 (without toilet)CBA4.16+ 12 x 1084.71 + 16 x 108R2A1.2 + 3.41 x 1081.96 + 3.55 x 108PYO8.34+ 23.5 x 1027.41 + 38.5 x 107LTA374.7 + 23.4 x 1028.49 + 4.33 x 103LTA4402.55 + 13.2 x 102ME(yeasts)3.35 + 8.78 x 1049.51 + 49.2 x one hundred fiveME (fil fungi)1.72 + 6.2 x 1042.95 + 5.71 x 103Average with SD (toothbrush CFUs per head)Group 1 (with toilet)Group 2 (without toilet)CBA1.92 +3.52 x 1061.51 +5.76 x 107R2A2.35 +5.71 x 1061.12 +4.60 x 107PYO1.27 +4.07 x1042.78 +14.4 x 108LTA371.84 +5.94 x1042.54 +12.9 x 106LTA441.18 +5.88 x 1044.85 +24 x 104ME(yeasts)2.10 +9.78 x 1043 +13.6 x 105ME (fil fungi)2.59 +11.8 x 1041.34 +2.26 x 102Average with SD (sink per square cm)Group 1 (with toilet)Group 2 (w ithout toilet)CBA8.91 +22.7 x 1046.33 +24.7 x105R2A2.56 +11.5 x 1057.82 +36.7 x105PYO1.22 +2.98 x 1024.65 +16 x103LTA374.55 +12.4 x1025.73 +16.9 x103LTA444.24 +14.5 x101.54 +6.19 x102ME(yeasts)4.84 +1.57 x 1023.13 +7.55 x103ME (fil fungi)1.40 +1.76 x 1024.71 +18.5 x102Average with SD (tap water CFU per mL)Group 1 (with toilet)Group 2 (without toilet)CBA1.53 +2.14 x 101.5 +7.69 x104R2A9.04 +21.6 103.49 +14.4 x104PYO8.46 +30.7 10-11.85 +9.62 x10-1LTA3703.7 +19.2 x10-2LTA441.15 +5.88 10-10ME(yeasts)7.12 +19.59.7 +22.1ME (fil fungi)5.85 +19.54.44 +7.85p-value. Two-tailed independent samples t-test (Group 1 vs Group 2) 95% = Pplaquetoothbrushsink water tap waterCBA0.8910.2510.2690.325R2A0.4370.3360.4880.234PYO0.3410.3310.1550.291LTA370.3340.3240.1180.331LTA440.3410.4530.3750.313ME(yeasts)0.3560.3000.0860.654ME (fil fungi)0.2410.2830.3700.731From the table, the CFU in the plaque sample collected from storing the toothbrush with and without toilet are observed. For the CBA and R2A, the CF U in group 1(with toilet) is counted as 4.16+ 12 x 108 CFU g-1 and 1.2 + 3.41 x 108 respectively, and the CFU in group2 (without toilet) is marginally greater than group1 which resulted as 4.71 + 16 x 108 and 1.96 + 3.55 x 108 respectively. For the PYO, LTA37, LTA44 and ME (yeasts), The CFU of group 2 are slightly more than the group 1 except the fewer CFU (2.95 + 5.71 x 103) without toilet than in which with toilet (1.72 + 6.2 x 104) observed in ME (fil fungi). It is found that the fewest CFU is on LTA44 or even observed as 0 CFU per unit since 44is over the optimal temperature and the bacteria can be inactive. Besides, for the other microbial groups, toothbrush, sink and the tap water samples, they showed the similar results as the plaque sample that the average CFUs per unit of the without toilet sets were slightly more than the sets with toilet on the CBA, R2A, PYP, LTA37, LTA44 and ME (yeasts) and the CFUs per unit of the without toilet sets were slightly less than the toilets sets. However, the samples in the tap water evaluated some differences from the other groups was that the small quantity of average CFUs per ml within each samples were indicated since the figurehead of fecal coliforms in water might not be at present harmful and did not necessarily indicate the presence of feces.Overall, the CFU of the plaque sample collected without toilet is slightly greater than which with toilet but plausibly there is no obvious difference surrounded by two groups by the examination of p value.P value is used to compare the deduction of the tests. Significant difference between two groups can be determined if the p value is smaller than 0.05 and the null hypothesis is not be supported. From the table of two-tailed independent sample t-test, it indicated that all p values among the unalike agar plates of the 4 microbial groups are greater than 0.05 which showed that the difference between 2 groups for any(prenominal) sample type (with toilets and without toilets) or medium types are not significant. Although the tables showed cosmic unevenness within a given sample, this is coarse for environmental samples and hence the null hypothesis is supported.DiscussionThe toothbrush, the plaque and the sink samples collected with or without the toilet sets, except the tap-water, were observed to contain heavy(a) quantity of coliforms and it proved the presence of pathogenic bacteria, E.coli. The toothbrushes contamination acts as a crucial role in the expansion of various diseases such as respiratory infection and oral diseases (M. B. Dayoub, D. Rusilko, and A. Gross, 1977). Toothbrushes are often stored in the toilets and divulge to contamination as it is a microbial atmosphere with the occurrence of pathogenic bacteria which is spread by aerosols and the flushing of toilets (Taji SS, Rogers AH, 1998). Moreover, the presence of the E.coli is correlated with the uncleaned bristles or the storage of brushes with high humidity (the sink) and warm environment which are near to the bristles and this can effectively enhance the spread and growth of bacteria than those stored in air out conditions by 70%. (R. T. Glass, 1992).However, the experimental results showed the colony forming units in the bathroom without toilets sets were greater than the sets with toilets which is apparently difference from the hypothesis. P-values of Two-tailed independent samples t-test can evaluate the situation. Although the large variability within a given sample was observed, this is common for environmental samples. Because of the large variability, there is no significant difference between the two groups for any sample type or medium type. The p values is greater than 0.05 which showed 95% level of confidence that the two parameters are not the selfsame(prenominal) and there is no enough difference within the samples to conclude a difference so the null hypothesis is accepted. It is conclude that toothbrush would take up contaminat ed regardless of storing near or far from the toilet.There are some limitations existed in this experiment. Firstly, there is manageable amount of data for the compendium which can affect the precision of the results. In this experiment, only 26 samples and 27 samples for each groups were examined which were not excessive enough to evaluate the hypothesis. More sample sizes are suggested and hence sufficient statistical power to the final results can be determined. Another error would be the dilution error since the pipetting for 10- fold dilutions could dealer to a considerable departure from the expected identity and inaccurate results. It is suggested that the on the nose pipetting from 10-1 down to 10-5 and proper vortex with vibration of suspension within each dilutions is required. Additionally, more time allowed for the first lab practical and appropriate aseptic techniques could be suggested to ensure the accuracy of results.ReferencesM. B. Dayoub, D. Rusilko, and A. Gros s, Microbial contamination of toothbrushes, Journal of dental Research, vol. 56, no. 6, article 706, 1977. public opinion at Google ScholarR. T. Glass, Toothbrush types and storage of microorganisms how to choose a biologically sound toothbrush, Journal-Oklahoma toolal Association, vol. 82, no. 3, pp. 26-28, 1992. View at Google ScholarTaji SS, Rogers AH. The microbial contamination of toothbrushes. A pilot study. Aust Dent J. 1998 Apr43(2)128-30USP 61 Microbial Enumeration Tests (PDF). United States Pharmacopeia. Retrieved 24 March 2015.Sandle, T. (July 2004). An go on for the reporting of microbiological results from water systems. PDA J Pharm Sci Technol. 58 (4) 231-7.Doyle, M. P., and M. C. Erickson. 2006. Closing the doorsill on the fecal coliform assay. Microbe 1162-163.Sammons RL, Kaur D, Neal P. Bacterial survival and biofilm constitution on conventional and antibacterial toothbrushes. Biofilms. 20041 123-30.Bodey, G.D., et al. 1989. Infections caused by P. aeruginosa . Rev. Infect. Dis. 5279-313.
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