Background:
Surgical site infections are one of the major clinical problems in surgical departments
that cost hundreds of millions of dollars to healthcare systems around the world.
background:
Nosocomial infections, including surgical site infections (SSIs) and other soft tissue infections, are a significant global health issue, particularly among hospitalized patients. SSIs are a major concern in surgical departments, placing a considerable financial burden on healthcare systems worldwide.
Aim:
The study aimed to address the pressing issue of surgical site infections, which pose significant clinical
and financial burdens on healthcare systems globally. Recognizing the substantial costs incurred due to these
infections, the research has focused on understanding the role of lipase and protease production by multi-drug
resistant bacteria isolated from surgical wounds in the development of post-surgical wound infections.
objective:
Therefore, this current study is essential for comprehending the significance of lipase and protease in wound development as well as exploring the potential relationship between drug resistance and lipase and protease production.
Methods:
For these purposes, 153 pus specimens were collected from patients with severe post-surgical
wound infections having prolonged hospital stays. The specimens were inoculated on appropriate culture media.
Gram staining and biochemical tests were used for the identification of bacterial growth on suitable culture
media after 24 hours of incubation. The isolated pathogens were then applied for lipase and protease, key
enzymes that could contribute to wound development, on tributyrin and skimmed milk agar, respectively. Following
the CSLI guidelines, the Kirby-Bauer disc diffusion method was used to assess antibiotic susceptibility
patterns. The results revealed that a significant proportion of the samples (127 out of 153) showed bacterial
growth of Gram-negative (n = 66) and Gram-positive (n = 61) bacteria. In total, isolated 37 subjects were declared
MDR due to their resistance to three or more than three antimicrobial agents. The most prevalent bacteria
were Staphylococcus aureus (29.13%), followed by S. epidermidis (18.89%), Klebsiella pneumoniae
(18.89%), Escherichia coli (14.96%), Pseudomonas aeruginosa (10.23%), and Proteus mirabilis (7.87%).
Moreover, a considerable number of these bacteria exhibited lipase and protease activity with 70 bacterial
strains as lipase positive on tributyrin agar, whereas 74 bacteria showed protease activity on skimmed milk
agar with P. aeruginosa as the highest lipase (69.23%) and protease (76.92%) producer, followed by S. aureus
(lipase 62.16% and protease 70.27%).
Results:
The antimicrobial resistance was evaluated among enzyme producers and non-producers and it was
found that the lipase and protease-producing bacteria revealed higher resistance to selected antibiotics than
non-producers. Notably, fosfomycin and carbapenem were identified as effective antibiotics against the isolated
bacterial strains. However, gram-positive bacteria displayed high resistance to lincomycin and clindamycin,
while gram-negative bacteria were more resistant to cefuroxime and gentamicin.
result:
Antimicrobial sensitivity was determined using the Kirby-Bauer disc diffusion method. A total of 127 out of 153 samples showed the growth of gram-negative (n=66) and gram-positive (n=61) bacteria. The most prevalent bacteria were Staphylococcus aureus (29.13%), S. epidermidis (18.89%), Klebsiella pneumoniae (18.89%), Escherichia coli (14.96%), Pseudomonas aeruginosa (10.23%), and Proteus mirabilis (7.87%). Among the positive samples, 70 bacterial strains were lipase-positive on tributyrin agar, while 74 were protease-positive on skimmed milk agar. P. aeruginosa spp. showed the highest lipase (69.23%) and protease (76.92%) production, followed by S. aureus (lipase 62.16%, protease 70.27%). Fosfomycin and carbapenem demonstrated notable potency against the tested bacterial strains. Gram-positive bacteria showed high resistance to lincomycin and clindamycin, while Gram-negative bacteria exhibited higher resistance to Cefuroxime and Gentamicin.
Conclusion:
In conclusion, the findings suggest that lipases and proteases produced by bacteria could contribute
to drug resistance and act as virulence factors in the development of surgical site infections. Understanding
the role of these enzymes may inform strategies for preventing and managing post-surgical wound infections
more effectively.
conclusion:
Based on these findings, lipases and proteases produced by MDR strains of bacteria may serve as virulence factors in wound development.
