Port-site infection due to nontuberculous mycobacteria following laparoscopic surgery.

Nontuberculous mycobacteria (NTM) are commonly found in soil and water and can cause nosocomial infections by contaminating equipment and disinfectants solution used in hospitals. NTM port-site infection after laparoscopic surgery is increasingly observed, but its clinical features, management, and prevention have not been reviewed adequately. We performed a comprehensive literature review of reports that described the clinical manifestation and management of NTM port-site infections following laparoscopic surgery. The perceived increase in NTM port-site infections is likely multifactorial, influenced by greater awareness, better diagnostics, changes in medical practice, increased prevalence of immunosuppression, and potential pathogen spread. Widespread resistance to common disinfectants is a major concern. Patients with NTM port-site infections typically present 1-3 months after the laparoscopic intervention with chronic local and minimal systemic symptoms. Surgical excision plays an important role in localized or refractory cases. Medical treatment should be guided by species identification and in vitro drug-susceptibility testing (DST) of the infecting NTM strain, with a combination of second-line antituberculosis agents, given for a prolonged duration. NTM port site infection is best prevented by meticulous skin preparation and infection control, using only sterilized supplies for laparoscopic surgery.

Rapid direct identification of positive paediatric blood cultures by MALDI-TOF MS technology and its clinical impact in the paediatric hospital setting.

OBJECTIVE: Rapid diagnostic tools are imperative for timely clinical decision making, particularly in bacteraemic patients. This study evaluated the performance of a fast, inexpensive novel in house method for processing positive blood cultures for immediate identification of microorganisms by matrix-assisted laser desorption ionization-time of flight mass spectrometry (Vitek MS bioMérieux). We prospectively analyzed the clinical impact of such method on the management of pediatric patients. RESULT: In total, 360 positive blood cultures were included. Among 318 mono-microbial cultures, in-house method achieved correct identification in 270 (85%) cultures to the species level, whilst 43 (13.5%) gave no identification, and 7 (2.2%) gave discordant identifications. Identification of Gram-negative organisms was accurate to both species and genus level in 99% of isolates, and for Gram positives accuracy was 84% to genus and 81% to species level overall, with accuracy of 100% for Staphylococcus aureus and Enterococcus to the species level. Assessment of the potential impact of direct identification in sixty sequential cases revealed a clear clinical benefit in 35.5% of cases. Benefits included timely antibiotic rationalization, change of medical intervention, and early confirmation of contamination. This study demonstrates a highly accurate in-house method with considerable potential clinical benefits for paediatric care.