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Study on Nanocoated PET Bottles of Tomato Puree against Enteropat
Journal of Nutrition & Food Sciences

Journal of Nutrition & Food Sciences
Open Access

ISSN: 2155-9600

Research Article - (2015) Volume 5, Issue 5

Study on Nanocoated PET Bottles of Tomato Puree against Enteropathogenic Bacteria

M Ramya1*, M Sylvia Subapriya1 and Nalini B2
1Department of Food Science and Nutrition, Avianshilingam Institute for Home Science and Higher Education for Women, Coimbatore, Tamilnadu, India, E-mail: ramvindrheya@gmail.com
2Department of Physics, Avianshilingam Institute for Home Science and Higher Education for Women, Coimbatore, Tamilnadu, India, E-mail: ramvindrheya@gmail.com
*Corresponding Author: M Ramya, Department of Food Science and Nutrition, Avianshilingam Institute For HomeScience And Higher Education For Women, Coimbatore, Tamilnadu, India

Abstract

The global production of plastics would reach about 227 MT by 2015, with a growth rate increase of about five percent per year. PET is thermoplastic polyester widely used for production of beverage bottles. Plastic bottles made from polyethylene terephthalate (PET) are increasingly used in storage of beverages like soft drinks, mineral water, juices and beer, in comparison to other packaging plastic. PET is considered to be the most inert of polymers with good barrier properties against moisture, oxygen and carbon dioxide with a low migration tendency of its constituents. According to National Association for PET Container Resources (NAPCOR, 2011), among 5,478 million pounds of PET bottles are available for recycling. Different technologies can further enhance PET inherent barrier properties and offer great protection to natural properties of packaged products against oxygen migration and carbon dioxide. Food packed into PET containers is the main source of microorganisms causing diarrhoeal diseases (Figure 1). Hence technology to minimize microbial health hazards is the need of the hour. Therefore barrier enhanced technology such as nanoparticle coatings on PET bottles was tried out in this study.

Keywords: Nanocoated; Salmonella enterica; Shigella dysenteriae; E.coli

Introduction

The methodology adopted for the present study, ‘Antimicrobial and Shelf-life Study of Nanocoated PET Bottles of tomato puree against E.coli (MTCC 40), Salmonella enterica (MTCC 3219) and Shigella dysenteriae (PSGIMSR)’, is as follows:

Preparation of the plant powder and extract

Fresh medicinal plants Glycyrrhiza glabra were collected from Annaikatti Hills and were certified by Botanical Survey of India, Coimbatore. For the preparation of extract, 10 g of the plant powder was added to 100 mL sterile distilled water in a 250 ml Erlenmeyer flask and boiled for 5 mins (Figure 2). The boiled extract was filtered using three whatmann filter paper No.1. Further, the plant extract was subjected for synthesis of encapsulated silver nanoparticles (Figure 3) [1].

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Figure 1: Plate IA–Agar.Well diffusion (Glycyrrhiza glabra) nanoparticle solution E.coli (MTCC 40).

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Figure 2: Plate I B–Agar .Well diffusion (Glycyrrhiza glabra) nanoparticle solution. Salmonella enterica (MTCC 3219).

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Figure 3: Plate I C–Agar. Well diffusion (Glycyrrhiza glabra) nanoparticle solution. Shigella dysetneriae(PSGIMSR.).

Biosynthesis of nano-scale silver particles

The prepared medicinal plant extract of Glycyrrhiza glabra was then centrifuged through GLC (1000 rpm for 45 minutes) and then added with 1 mM AgNO3. Further, the filtrate was centrifuged through ultracentrifuge for 1 hr 10 minutes. The nanoparticle solution was used for coating PET bottles.

Preparation of tomato puree

Fresh tomatoes (Solanum lycopersicum) were boiled with ½ cup sugar and 1 tablespoon of salt. The puree was then stored in 100 ml PET containers (with and without nanocoat) (Figure 4).

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Figure 4: 0th day–Nanocoated PET bottles with tomato puree (E.coli, S.enterica & S.dysenteriae).

Testing highest antimicrobial activity of nanoparticles

The PET bottles were punched out into disc size for performing agar well diffusion method for determining the highest activity among the different concentration of nanoparticles. The antimicrobial activity of synthesized silver nanoparticles was done by the agar diffusion method. The log phase cultures were spread over the Nutrient agar medium plates using a sterile cotton swab in order to get a uniform microbial growth on test plates. Then approximately four wells of uniform sizes (0.65 cm) were made with a cork-borer, tested with nanoparticle solution at 10 μl, 20 μl, 30 μl, 40 μl and other petrid plate tested with 50 μl, 75 μl, 100 μl and 125 μl of the encapsulated silver colloids were pipetted directly into the well against the test organisms of E.coli (MTCC-40), Salmonella enterica (MTCC 3219) and Shigella dysenteriae (PSGIMS&R). The plates were incubated at 37°C for 24-48 hr (Figures 5-8).

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Figure 5: 10th day–Nanocoated PET bottles with tomato puree (E.coli, S.enterica & S.dysenteriae).

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Figure 6: 0th day–Tomato Puree (E.coli, S.enterica & S.dysenteriae).

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Figure 7: 6th day - Tomato Puree (E.coli, S.enterica & S.dysenteriae).

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Figure 8: 10 th day–Tomato Puree (E.coli, S.enterica & S.dysenteriae).

Shelf-life study of nanocoated PET bottles with tomato puree

Further, PET bottles were made sterile under UV light, by swab method highest activity of freshly prepared nanoparticle solution were coated by swabbing and dried under the Laminar flow chamber for 40 minutes [2,3]. After drying, the PET bottles were packed with tomato puree and inoculated with the test organism (in duplicates) E.coli (MTCC-40), Salmonella enterica (MTCC3219), Shigella dysenteriae (PSGIMS&R) and control (without nanocoating), tested for storage period of 10 days. For every two days interval, the sample was tested for enumeration of microbes.

Results and Discussions

Highest antimicrobial activity of nanoparticle solutions

Graphs I A, I B and I C present microbial activity of the three microbes against different concentrations of nanocoats. IA, IB and IC by Agar well diffusion method, with nanoparticle solution at 10 μl, 20 μl, 30 μl, 40 μl, 50 μl, 75 μl, 100 μl and 125 μl of the silver colloids tested against E.coli (MTCC 40), Salmonella enterica (MTCC3219) and Shigella dysenteriae (PSGIMS&R) showed that 30 μl had a maximum zone of inhibition. Hence, 30 μl was selected for coating the PET bottles.

From the above Table 1, 30 μl nanoparticle solution showed less count of E.coli (MTCC 40) 33 counts, S.enterica (MTCC3219) 48 counts and S.dysenteriae (PSGIMSR)42 counts. Since 30 μl nanoparticle solution showed maximum inhibition of microbial counts, 30 μl nanoparticle solution was used for further shelf-life study.

Concentration μl E.coli (MTCC 40) S.enterica (MTCC 3219) S.dysenteriae (PSGIMSR)
10 36 80 55
20 28 74 50
30 23 48 42
40 37 66 49
Control 56 90 72
50 54 72 61
75 52 81 63
100 47 83 58
125 41 87 50
Control 64 93 76

Table 1: Enumeration of Bacterial Counts (Glycyrrhiza glabra) Nanoparticle solution.

Table 2 shown the Shelf-life Study of tomato puree for PET bottles is taken for a period of ten days. The enumeration of bacteria was done periodically once in every two days. It was found that 0th day to 6th day there was no difference in microbial growth of all three species. But 0th day to 10th day nanoparticle coated showed that 56.83 percentage difference against E.coli (MTCC40), 67.67 and 87.67% against S.enterica (MTCC 3219) & S.dysenteriae (PSGIMSR) respectively [4,5].

Day of Testing E.coli (MTCC 40) S.enterica (MTCC 3219) S.dysenteriae (PSGIMR)
E1 E2 Control E1 E2 Control E1 E2 Control
0 NIL NIL NIL NIL NIL NIL NIL NIL NIL
2 NIL NIL NIL NIL NIL NIL NIL NIL NIL
4 NIL NIL NIL NIL NIL NIL NIL NIL NIL
6 NIL NIL NIL NIL NIL NIL NIL NIL NIL
8 46 50 113 89 93 162 24 27 TNTC
10 128 131 TNTC 96 98 TNTC 38 36 TNTC

Table 2: Shelf-life Study of Tomato Puree–PET Bottles.

Conclusion

The maximum inhibition of antimicrobial activity of silver nanoparticle coated in PET bottles of Tomato from 0th day to 10th day nanoparticle coated showed that 56.83% against E.coli (MTCC40), 67.67 and 87.67% difference against S.enterica (MTCC 3219) & S.dysenteriae (PSGIMSR) respectively.

Feng et al. [4] stated that the microbial inhibition is due to effects of silver ions on gram-negative bacteria Escherichia coli, Salmonella & Shigella.dysenteriae it was observed that microbial cells exposed to the Ag+ ions poses stress which led to the condensation of DNA. Therefore, these plant extracts of silver nanoparticles could be used as a coating in food packages as a value addition increasing the shelf-life.

References

  1. Welle F, R. Franz(2011)Migration of antimony from PET bottles into beverages: Determination of the activation energy of diffusion and migration modeling compared to literature data. Food Additives and Contaminants 28:115-126
  2. Rabbani GH, Greenough W B (1999)3rd Food as a vehicle of transmission of cholera. J Diarrhoeal Dis Res 17:1-9
  3. Fang TJ, Wei QK, Liao CW, Hung MJ, Wang TH (2003)Microbiological quality of 18 degrees C ready-to-eat food products sold in Taiwan. Int J FoodMicrobiol 80:241-50
  4. Feng Q L, Wu J, Chen G.Q, Cui F.Z, Kim T.N et al. (2000)A mechanistic study of the antibacterial effect of silver ions on Escherichia coli and Staphylococcus aureus.Journal of Biomedical Materials Research Part A Volume 52 issue 4. pp . 662-668.
  5. National Association for PET Container Resources [NAPCOR](2011), E-Article from www.napcor.com
Citation: Ramya M, Subapriya MS, Nalini B (2015) Study on Nanocoated PET Bottles of Tomato Puree against Enteropathogenic Bacteria. J Nutr Food Sci 5:410.

Copyright: © 2015 Ramya M, et al. This is an open-access article distributed under the terms of the Creative Commons Attribution License, which permits unrestricted use, distribution, and reproduction in any medium, provided the original author and source are credited.
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