STUDIES ON BACTERIAL COMMUNITY AND ANTIBIOTIC RESISTANCE OF BACTERIA AT X HOSPITAL IN BANDUNG
Hospital is a place with a high concentration of bacteria which can cause nosocomial infections. Bacteria in the hospital can spread in the air and last for a certain time. Studies found an increase in the number of bacteria resistant to antibiotics due to high antibiotic exposure. This research...
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id-itb.:434462019-09-27T09:21:50ZSTUDIES ON BACTERIAL COMMUNITY AND ANTIBIOTIC RESISTANCE OF BACTERIA AT X HOSPITAL IN BANDUNG Sasqia Nasution, Alya Indonesia Final Project Abundance, air, bioaerosol, hospital, resistance. INSTITUT TEKNOLOGI BANDUNG https://digilib.itb.ac.id/gdl/view/43446 Hospital is a place with a high concentration of bacteria which can cause nosocomial infections. Bacteria in the hospital can spread in the air and last for a certain time. Studies found an increase in the number of bacteria resistant to antibiotics due to high antibiotic exposure. This research was conducted to determine the abundance and types of bacteria present in the air outside the hospital and the potential resistant to certain antibiotics. Bioaerosol samples were taken from three different heights (1,5 m, 24,5 m, and 93,4 m) in the morning (07.00-11.00 WIB) and night (19.00-23.00 WIB) for 4 hours using a membrane filter with 0.45 microns pore. Isolation and enumeration of bacteria were carried out by inoculating the sample in PBS solution to agar media plates which are Nutrient Agar (NA), Trypticase Soy Agar (TSA), and Luria Bertani Agar (LB) with the spread method and incubated at 37oC for 24 hours. Purification of the bacteria produced 13 selected colonies which were then identified with a molecular method using 16S rRNA markers. Antibiotic resistance test was performed on 6 selected isolates and used ampicillin, amoxicillin, ciprofloxacin, and chloramphenicol in minimum inhibitory concentration (MIC). Endotoxin concentrations were measured using PierceTM LAL Chromogenic Endotoxin Quantitation Kit. The results showed that the abundance of bacteria at 1,5 m in the morning in NA is 6,3x103 CFU/m3, LB is 1,13x104 CFU/m3, and TSA is 1,053x104 CFU/m3, 1,5 m at night in TSA is 2,25x102 CFU/m3, and 24,5 m at night in TSA is 2,415x103 CFU/m3. 52 types of colonies were found and 13 dominant colonies were identified using 16S rRNA. It is found that 12 isolates are related to genus Bacillus and one isolate is related to genus Staphylococcus. Antibiotic resistance tests showed that 5 isolates related to the genus Bacillus had potential resistance to ampicillin and amoxicillin and one isolate related to genus Staphylococcus had potential resistance to chloramphenicol and ciprofloxacin at minimum inhibitory concentrations. Endotoxin concentration at 1,5 m in the morning is 0,27 EU/m3 and at night is 0,44 EU/m3, at 24,5 m in the morning is 0,35 EU/m3 and at night is 0,56 EU/m3, and at 93,5 m in the morning is 0,4 EU/m3 and at night it is 0,95 EU/m3. The number of bacteria and endotoxin levels in the air at hospital X is far below the threshold. Genus Bacillus dominate the air environment at hospital X. However, it was found bacterial isolates are resistant to antibiotics which are often used in hospitals. These bacteria are resistant to more than one antibiotic and classified as multidrugresistant bacteria. Although the abundance of bacteria and endotoxin concentrations are within safe limits, the discovery of bacteria that are resistant to antibiotics can increase the potential risk of bioaerosol. text |
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Hospital is a place with a high concentration of bacteria which can cause
nosocomial infections. Bacteria in the hospital can spread in the air and last for a
certain time. Studies found an increase in the number of bacteria resistant to
antibiotics due to high antibiotic exposure. This research was conducted to
determine the abundance and types of bacteria present in the air outside the
hospital and the potential resistant to certain antibiotics. Bioaerosol samples were
taken from three different heights (1,5 m, 24,5 m, and 93,4 m) in the morning
(07.00-11.00 WIB) and night (19.00-23.00 WIB) for 4 hours using a membrane
filter with 0.45 microns pore. Isolation and enumeration of bacteria were carried
out by inoculating the sample in PBS solution to agar media plates which are
Nutrient Agar (NA), Trypticase Soy Agar (TSA), and Luria Bertani Agar (LB) with
the spread method and incubated at 37oC for 24 hours. Purification of the bacteria
produced 13 selected colonies which were then identified with a molecular method
using 16S rRNA markers. Antibiotic resistance test was performed on 6 selected
isolates and used ampicillin, amoxicillin, ciprofloxacin, and chloramphenicol in
minimum inhibitory concentration (MIC). Endotoxin concentrations were
measured using PierceTM LAL Chromogenic Endotoxin Quantitation Kit. The
results showed that the abundance of bacteria at 1,5 m in the morning in NA is
6,3x103 CFU/m3, LB is 1,13x104 CFU/m3, and TSA is 1,053x104 CFU/m3, 1,5 m at
night in TSA is 2,25x102 CFU/m3, and 24,5 m at night in TSA is 2,415x103 CFU/m3.
52 types of colonies were found and 13 dominant colonies were identified using 16S
rRNA. It is found that 12 isolates are related to genus Bacillus and one isolate is
related to genus Staphylococcus. Antibiotic resistance tests showed that 5 isolates
related to the genus Bacillus had potential resistance to ampicillin and amoxicillin
and one isolate related to genus Staphylococcus had potential resistance to
chloramphenicol and ciprofloxacin at minimum inhibitory concentrations.
Endotoxin concentration at 1,5 m in the morning is 0,27 EU/m3 and at night is 0,44
EU/m3, at 24,5 m in the morning is 0,35 EU/m3 and at night is 0,56 EU/m3, and at
93,5 m in the morning is 0,4 EU/m3 and at night it is 0,95 EU/m3. The number of
bacteria and endotoxin levels in the air at hospital X is far below the threshold.
Genus Bacillus dominate the air environment at hospital X. However, it was found
bacterial isolates are resistant to antibiotics which are often used in hospitals.
These bacteria are resistant to more than one antibiotic and classified as multidrugresistant
bacteria. Although the abundance of bacteria and endotoxin
concentrations are within safe limits, the discovery of bacteria that are resistant to
antibiotics can increase the potential risk of bioaerosol.
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| format |
Final Project |
| author |
Sasqia Nasution, Alya |
| spellingShingle |
Sasqia Nasution, Alya STUDIES ON BACTERIAL COMMUNITY AND ANTIBIOTIC RESISTANCE OF BACTERIA AT X HOSPITAL IN BANDUNG |
| author_facet |
Sasqia Nasution, Alya |
| author_sort |
Sasqia Nasution, Alya |
| title |
STUDIES ON BACTERIAL COMMUNITY AND ANTIBIOTIC RESISTANCE OF BACTERIA AT X HOSPITAL IN BANDUNG |
| title_short |
STUDIES ON BACTERIAL COMMUNITY AND ANTIBIOTIC RESISTANCE OF BACTERIA AT X HOSPITAL IN BANDUNG |
| title_full |
STUDIES ON BACTERIAL COMMUNITY AND ANTIBIOTIC RESISTANCE OF BACTERIA AT X HOSPITAL IN BANDUNG |
| title_fullStr |
STUDIES ON BACTERIAL COMMUNITY AND ANTIBIOTIC RESISTANCE OF BACTERIA AT X HOSPITAL IN BANDUNG |
| title_full_unstemmed |
STUDIES ON BACTERIAL COMMUNITY AND ANTIBIOTIC RESISTANCE OF BACTERIA AT X HOSPITAL IN BANDUNG |
| title_sort |
studies on bacterial community and antibiotic resistance of bacteria at x hospital in bandung |
| url |
https://digilib.itb.ac.id/gdl/view/43446 |
| _version_ |
1822270385778851840 |