Profile And Pattern Of Bacterial Sensitivity To The PUS Specimen At H. Adam Malik Hospital For January - December 2019 Period

Profile and Pattern of Bacterial Sensitivity to the PUS Specimen at H. Adam Malik Hospital for January - December 2019 Period

Introduction

Skin and soft tissue infections (IKJL) are a common health problem that affects millions of people worldwide. These infections are caused by pyogenic bacteria that enter the open wound, burns, or surgical procedures. The body's response to these infections is the formation of pus, a thick greenish-yellow liquid composed of leukocyte cells, tissue fluids, and debris. Pus contains various types of bacteria, making the selection of exact antibiotics crucial for treating infections. The use of inappropriate antibiotics can lead to bacterial resistance, a serious health problem that affects people globally.

Background

Bacterial resistance is a growing concern worldwide, and it is essential to understand the profile and pattern of bacterial sensitivity to develop effective treatment strategies. The use of antibiotics has become a common practice in treating infections, but the overuse and misuse of these medications have contributed to the development of resistant bacteria. This study aims to determine the profile and pattern of bacterial sensitivity in the PUS specimen taken at H. Adam Malik Hospital during the January to December 2019 period.

Methodology

This study is an observational descriptive study with a retrospective approach. The data used is secondary data from the Microbiology Laboratory Unit H. Adam Malik Hospital. The study analyzed the bacterial sensitivity of the PUS specimen collected from patients during the specified period.

Results

The results of the study showed that the majority of patients who had infections with PUS specimens were male (59.2%). The age range of the most patients was 19-60 years (72.8%). The most common jobs found in patients were housewives, farmers, and entrepreneurs (18.4%). The most common bacteria found in the Pus specimen were:

• Escherichia coli (47.6%)
• Klebsiella pneumoniae (12.9%)
• Pseudomonas aeruginosa (8.1%)
• Acinetobacter baumanii (6.5%)
• Enterobacter clocae complex (3.2%)

The study found that Escherichia coli was the most sensitive bacteria for Amikacin, Tiekycline, Meropenem, Ampicillin, and Ertapenem, but resistant to cefazolin. The study also found ESBL (Extended Spectrum Beta Lactamase) producing bacteria in Klebsiella pneumoniae and Escherichia coli. ESBL is an enzyme produced by bacteria that causes resistance to beta-lactam antibiotics such as cefalosporin.

Discussion

The results of this study provide valuable information on the profile and pattern of bacterial sensitivity to the PUS specimen at H. Adam Malik Hospital. The study found that most of the gram-negative bacteria found in the PUS Specimen in H. Adam Malik Hospital for January-December 2019 were sensitive to Amikacin and Meropenem, but resistant to Ampicillin and Cefazolin. This information is crucial for medical personnel in choosing the right antibiotics for the treatment of infection.

Conclusion

This study provides an overview of the profile and pattern of bacterial sensitivity to the PUS specimen at H. Adam Malik Hospital. The information obtained from this study is essential for medical personnel in choosing the right antibiotics for the treatment of infection. It is also important to increase education to the public about the use of appropriate antibiotics and prevent infections to reduce bacterial resistance.

Recommendations

Based on the results of this study, the following recommendations are made:

• Medical personnel should choose antibiotics based on the bacterial sensitivity profile of the PUS specimen.
• Public education programs should be implemented to raise awareness about the use of appropriate antibiotics and prevent infections.
• Further studies should be conducted to investigate the bacterial resistance patterns in different regions and hospitals.
• The use of antibiotics should be monitored and regulated to prevent the development of resistant bacteria.

Limitations

This study has several limitations, including:

• The study used secondary data from the Microbiology Laboratory Unit H. Adam Malik Hospital, which may not be representative of the entire population.
• The study only analyzed the bacterial sensitivity of the PUS specimen collected from patients during the specified period.
• The study did not investigate the bacterial resistance patterns in different regions and hospitals.

Future Directions

This study provides a foundation for further research on the profile and pattern of bacterial sensitivity to the PUS specimen. Future studies should investigate the bacterial resistance patterns in different regions and hospitals, and develop effective treatment strategies to combat bacterial resistance.
Q&A: Profile and Pattern of Bacterial Sensitivity to the PUS Specimen at H. Adam Malik Hospital for January - December 2019 Period

Frequently Asked Questions

Q: What is the purpose of this study? A: The purpose of this study is to determine the profile and pattern of bacterial sensitivity in the PUS specimen taken at H. Adam Malik Hospital during the January to December 2019 period.

Q: What is the significance of this study? A: This study provides valuable information on the profile and pattern of bacterial sensitivity to the PUS specimen at H. Adam Malik Hospital. The information obtained from this study is essential for medical personnel in choosing the right antibiotics for the treatment of infection.

Q: What are the common bacteria found in the PUS specimen? A: The most common bacteria found in the Pus specimen are:

• Escherichia coli (47.6%)
• Klebsiella pneumoniae (12.9%)
• Pseudomonas aeruginosa (8.1%)
• Acinetobacter baumanii (6.5%)
• Enterobacter clocae complex (3.2%)

Q: What is ESBL (Extended Spectrum Beta Lactamase)? A: ESBL is an enzyme produced by bacteria that causes resistance to beta-lactam antibiotics such as cefalosporin.

Q: Which bacteria are sensitive to Amikacin, Tiekycline, Meropenem, Ampicillin, and Ertapenem? A: Escherichia coli is the most sensitive bacteria for Amikacin, Tiekycline, Meropenem, Ampicillin, and Ertapenem.

Q: Which bacteria are resistant to cefazolin? A: Escherichia coli is resistant to cefazolin.

Q: What are the implications of this study? A: The results of this study have implications for the treatment of infections and the development of effective treatment strategies to combat bacterial resistance.

Q: What are the limitations of this study? A: This study has several limitations, including:

• The study used secondary data from the Microbiology Laboratory Unit H. Adam Malik Hospital, which may not be representative of the entire population.
• The study only analyzed the bacterial sensitivity of the PUS specimen collected from patients during the specified period.
• The study did not investigate the bacterial resistance patterns in different regions and hospitals.

Q: What are the recommendations of this study? A: Based on the results of this study, the following recommendations are made:

• Medical personnel should choose antibiotics based on the bacterial sensitivity profile of the PUS specimen.
• Public education programs should be implemented to raise awareness about the use of appropriate antibiotics and prevent infections.
• Further studies should be conducted to investigate the bacterial resistance patterns in different regions and hospitals.
• The use of antibiotics should be monitored and regulated to prevent the development of resistant bacteria.

Additional Questions and Answers

Q: What is the role of the Microbiology Laboratory Unit in this study? A: The Microbiology Laboratory Unit provided the secondary data used in this study.

Q: How can the results of this study be applied in clinical practice? A: The results of this study can be applied in clinical practice by choosing antibiotics based on the bacterial sensitivity profile of the PUS specimen.

Q: What are the potential consequences of bacterial resistance? A: The potential consequences of bacterial resistance include the development of more severe infections, increased morbidity and mortality, and the need for more expensive and complex treatments.

Q: How can bacterial resistance be prevented? A: Bacterial resistance can be prevented by using antibiotics judiciously, implementing public education programs, and conducting further research on the bacterial resistance patterns in different regions and hospitals.