Isolation of Antibiotic-Resistant Bacteria from Touch Screen Mobile Phones

Nowadays, people are inevitable indispensably to mobile phones including touch screen mobile phones. Although touch screen mobile phones offer a lot of advantages such as rapid communication, they are also a reservoir for bacteria transmission. This study has identify the counts and types of bacteri...

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Main Author: Shee, Hui Ping
Format: Thesis
Language:English
Published: 2016
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Online Access:http://eprints.intimal.edu.my/885/1/109.pdf
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spelling my-inti-eprints.8852017-08-24T07:08:05Z http://eprints.intimal.edu.my/885/ Isolation of Antibiotic-Resistant Bacteria from Touch Screen Mobile Phones Shee, Hui Ping TP Chemical technology Nowadays, people are inevitable indispensably to mobile phones including touch screen mobile phones. Although touch screen mobile phones offer a lot of advantages such as rapid communication, they are also a reservoir for bacteria transmission. This study has identify the counts and types of bacteria contaminating touch screen mobile phones used by students of INTI International University. Forty-three touch screen mobile phone samples were collected. Along with the questionnaire, an area of 3cm on the surface of the touch screen mobile phones had been aseptically rubbed over using the sterilized cotton swabs. Samples were cultured to obtain pure isolates. The percentage of the purpose of bacterial on touch screen mobile phones was 100% and 79 isolates were found. The pure isolates were identified through some biochemical test including gram staining, catalase test, oxidase test and IMViC test. Sixty-nine isolates (87.34%) were gram positive whereas 10 isolates (12.66%) were gram negative. Besides, the pure isolates were streaked on MSA and MacConkey Agar in order to differentiate different type of bacteria such as S. epidermidis that produced pink colonies on MSA and S. aureus that produced yellow colonies on MSA. The identification of isolates were done by using Bergey’s Manual (Bergey & Holt, 1994). The most common isolate in this study was S. epidermidis and followed by S. aureus. Therefore, the pure cultures were subjected to antibiotic susceptibility test to investigate their antibiotic susceptibility profiles. Forty-one isolates showed antibiotic resistance, 32 of them were gram positive and 9 of them were gram negative. Among the 32 gram positive antibiotic-resistant isolates, 15 of them were oxacillin-resistant while 17 of them were clindamycin-resistant. Among 20 (28.99%) possible S. aureus, four (5.8%) of them showed oxacillin resistance and eight (11.60%) of them showed clindamycin resistance. The four possible S. aureus that showed oxacillin resistance were grown on Brilliance MRSA 2 Agar, but only one grew as blue colonies, indicating only one of them was MRSA. Among 21 (30.43%) possible S. epidermidis, 11 of them were oxacillin-resistant and 9 of them were clindamycin-resistant. The oxacillin-resistant S. epidermidis might be the possible MRSE. For the gram negative isolates, one (10%) possible Neisseria species was chloramphenicol-resistant. Three (30%) possible Salmonella species were amikacin-resistant and four (40%) of them were chloramphenicol-resistant. 2016 Thesis NonPeerReviewed text en http://eprints.intimal.edu.my/885/1/109.pdf Shee, Hui Ping (2016) Isolation of Antibiotic-Resistant Bacteria from Touch Screen Mobile Phones. Other thesis, INTI International University.
institution INTI International University
building INTI Library
collection Institutional Repository
continent Asia
country Malaysia
content_provider INTI International University
content_source INTI Institutional Repository
url_provider http://eprints.intimal.edu.my
language English
topic TP Chemical technology
spellingShingle TP Chemical technology
Shee, Hui Ping
Isolation of Antibiotic-Resistant Bacteria from Touch Screen Mobile Phones
description Nowadays, people are inevitable indispensably to mobile phones including touch screen mobile phones. Although touch screen mobile phones offer a lot of advantages such as rapid communication, they are also a reservoir for bacteria transmission. This study has identify the counts and types of bacteria contaminating touch screen mobile phones used by students of INTI International University. Forty-three touch screen mobile phone samples were collected. Along with the questionnaire, an area of 3cm on the surface of the touch screen mobile phones had been aseptically rubbed over using the sterilized cotton swabs. Samples were cultured to obtain pure isolates. The percentage of the purpose of bacterial on touch screen mobile phones was 100% and 79 isolates were found. The pure isolates were identified through some biochemical test including gram staining, catalase test, oxidase test and IMViC test. Sixty-nine isolates (87.34%) were gram positive whereas 10 isolates (12.66%) were gram negative. Besides, the pure isolates were streaked on MSA and MacConkey Agar in order to differentiate different type of bacteria such as S. epidermidis that produced pink colonies on MSA and S. aureus that produced yellow colonies on MSA. The identification of isolates were done by using Bergey’s Manual (Bergey & Holt, 1994). The most common isolate in this study was S. epidermidis and followed by S. aureus. Therefore, the pure cultures were subjected to antibiotic susceptibility test to investigate their antibiotic susceptibility profiles. Forty-one isolates showed antibiotic resistance, 32 of them were gram positive and 9 of them were gram negative. Among the 32 gram positive antibiotic-resistant isolates, 15 of them were oxacillin-resistant while 17 of them were clindamycin-resistant. Among 20 (28.99%) possible S. aureus, four (5.8%) of them showed oxacillin resistance and eight (11.60%) of them showed clindamycin resistance. The four possible S. aureus that showed oxacillin resistance were grown on Brilliance MRSA 2 Agar, but only one grew as blue colonies, indicating only one of them was MRSA. Among 21 (30.43%) possible S. epidermidis, 11 of them were oxacillin-resistant and 9 of them were clindamycin-resistant. The oxacillin-resistant S. epidermidis might be the possible MRSE. For the gram negative isolates, one (10%) possible Neisseria species was chloramphenicol-resistant. Three (30%) possible Salmonella species were amikacin-resistant and four (40%) of them were chloramphenicol-resistant.
format Thesis
author Shee, Hui Ping
author_facet Shee, Hui Ping
author_sort Shee, Hui Ping
title Isolation of Antibiotic-Resistant Bacteria from Touch Screen Mobile Phones
title_short Isolation of Antibiotic-Resistant Bacteria from Touch Screen Mobile Phones
title_full Isolation of Antibiotic-Resistant Bacteria from Touch Screen Mobile Phones
title_fullStr Isolation of Antibiotic-Resistant Bacteria from Touch Screen Mobile Phones
title_full_unstemmed Isolation of Antibiotic-Resistant Bacteria from Touch Screen Mobile Phones
title_sort isolation of antibiotic-resistant bacteria from touch screen mobile phones
publishDate 2016
url http://eprints.intimal.edu.my/885/1/109.pdf
http://eprints.intimal.edu.my/885/
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