The prevention and control of hospital infection should be precise. Otherwise, a lot of medical resources will be wasted. To achieve accuracy, prevention and control should be considered from the microbial level to enhance its scientific nature. It is specifically reflected in the need of having knowledge of microorganisms, understanding the pathogens of infection and their transmission routes, therefore to carry out prevention and control work contrapuntally. Specific measures include infection surveillance at the microbial level, establishing the idea and habits of infection diagnosis from the microbial level, being familiar with microbial perspective to identify infection risks and vulnerabilities, implementing evidence-based prevention and control measures for different pathogens, encouraging researches on infection control and management at the microbial level, and developing precise prevention and control regulations, standards, or guidelines for specific pathogens.
Objective To analyze the etiology, risk factors, and prognosis of late-onset hospitalacquired pneumonia ( L-HAP) in respiratory ICU. Methods In this retrospective case control study, 30 L-HAP patients and 30 patients without HAP in respiratory ICU were enrolled to investigate the features and risk factors of L-HAP. Stratification was made according to the onset time of L-HAP. The etiology and pathogen distribution at each stage were described and analyzed. Results Univariate analysis revealed thatunconsciousness, aspiration, mechanical ventilation, hypoalbuminemia, and long-term use of proton pump inhibitor were significantly associated with L-HAP. Logistic regression analysis revealed that mechanical ventilation( OR = 8. 7) and hypoalbuminemia ( OR = 20. 4) were independent risk factors for L-HAP. The L-HAP patients had longer stay in hospital, long-termantibiotic use, and higher mortality compared with the patients without HAP. For the patients whose L-HAP onset time within 6-14 days, the dominated pathogens were Acinetobacter baumannii and Klebsiella pneumonia. For those within 15-28 days, the dominated pathogens were Pseudomonas aeruginosa, Acinetobacter baumanni, and Staphylococcus aureus. For those beyond 29 days, the dominated pathogens were Pseudomonas aeruginosa and Stenotrophomonas maltophilia. Conclusions Mechanical ventilation and hypoalbuminemia are independent risk factors for L-HAP. The pathogen features of L-HAP are quite different at different inhospital stage.
Objective To investigate the status of nurses’ cognition of skin test for β-lactam antibiotics in tertiary hospitals in China and its influencing factors. Methods The nurses in the eastern and western regions were selected by stratified sampling and convenient sampling between March and May 2023. A multi-center survey was conducted with the help of the questionnaire star platform using the “Questionnaire on the Cognitive Status of β-lactam Antibiotics Skin Test” developed by the “Guidelines for β-lactam Antibiotics Skin Test (2021 Edition)” issued by the National Health Commission of the reference country. Results A total of 89 tertiary hospitals were surveyed. Among them, there were 27 in the eastern regions and 62 in the western regions; There were 64 comprehensive hospitals and 25 specialized hospitals. A total of 4 241 nurses were included. Among them, 4 151 were females and 90 were males. The scores of nurses’ cognition of skin test of β-lactam antibiotics were (61.47±16.27). The survey results showed that the accuracy rate ranges from 15.52% to 88.98%. Only no routine skin test before cephalosporin administration, judgment of skin test results, and infusion device replacement after allergy were greater than 80%. The results of the logistic regression analysis showed that the nurses with professional titles and antimicrobial management training in the past 2 years were independent influencing factors of nurses’ cognition of skin test of β-lactam antibiotics (P<0.001). Conclusions At present, nurses in tertiary hospitals in China still have insufficient knowledge of skin test of β-lactam antibiotics. It is suggested that hospitals should form corresponding hospital skin test of β-lactam antibiotics standards in combination with guidelines and strengthen training for nurses in this regard, so as to improve nurses’ correct cognition and implementation of skin test of β-lactam antibiotics.
Objective To search for, assess, and summarize the best evidence for antimicrobial allergy assessment in hospitalized patients, so as to provide an evidence-based basis for clinical nursing practice. Methods UpToDate, BMJ Best Practice, National Guideline Clearinghouse, Guidelines International Network, Yimaitong, JBI Evidence Synthesis, Cochrane Library, CINAHL, Embase, PubMed, Web of Science, China National Knowledge Infrastructure, Wanfang Data, CQVIP, SinoMed, and related association websites were searched by computer for literature about clinical decisions, guidelines, expert consensuses, evidence summaries, systematic reviews and meta-analyses related to antimicrobial allergy assessment in hospitalized patients. The search time limit was from the establishment of the databases to September 2024. Two researchers trained in evidence-based practice screened the literature and evaluated the quality independently. Finally, the evidence-based research group extracted and integrated the evidence after discussion. Results Totally 8 articles were involved, including 6 guidelines and 2 systematic reviews. Finally, 25 pieces of best evidence were obtained across 6 aspects, including the importance of antimicrobial allergy assessment, the subjects of allergy assessment, the personnel conducting allergy assessment, the content of allergy assessment, the recording of allergy history, and assessment tips. Conclusion When applying and transforming evidence, medical staff should fully consider the actual clinical situation and explore the evaluation scheme of antimicrobial allergy history of hospitalized patients with local characteristics, to improve the accuracy of evaluation of antimicrobial allergy history of hospitalized patients, so as to strengthen the safety management of drug use and improve the level of rational drug use.
Ventilator-associated pneumonia (VAP) is a kind of pneumonia that occurs when artificial airway (tracheal intubation or tracheotomy) is established and mechanical ventilation is accepted. The occurrence of VAP will significantly prolong the ventilation time and hospitalization time of patients, increase the mortality rate and the medical burden. In order to effectively prevent and reduce the occurrence of VAP, the Society for Healthcare Epidemiology of America released the Strategies to Prevent Ventilator-Associated Pneumonia, Ventilator-Associated Events, and Nonventilator Hospital-Acquired Pneumonia in Acute-Care Hospitals: 2022 Update, which is an update of the 2014 version. In order to facilitate the reading and understanding of the medical workers, this article will interpret the infection prevention and control strategies of adult VAP and ventilator-related events.