ObjectiveTo analyze the status quo, problems and weak points of cleaning compliance in the Intensive Care Unit (ICU), and assess the intervention effects by evaluating the object surface cleaning quality in the ICU. MethodsBetween September 1st and December 1st, 2014, fluorescence marker was used to mark the surfaces of medical instruments and objects in the ward which were supposed to be cleaned by the nursing and cleaning staff. The assessment of cleaning compliance was performed through observing the residual fluorescence. Then, targeted intervention was carried out for situations with a low cleaning compliance. ResultsBefore the intervention, the thorough cleaning rates of medical instruments in the Comprehensive ICU, Neurological ICU (NICU), and Chest ICU were respectively 43.3%, 31.4%, and 23.8%, and the thorough surface cleaning rates for those units in order were 67.1%, 60.5%, and 48.4%, respectively. After the first intervention, the cleaning rate of medical instruments in the Comprehensive ICU was 47.1%, which had no significant change (P=0.345), but the rate in the NICU and Chest ICU reached respectively 65.3% and 35.1%, which was significantly improved (P<0.05). The object surface cleaning rates were 73.3% and 58.1% in the Comprehensive ICU and Chest ICU after the first intervention, and there was no significant difference compared with those before the intervention (P>0.05), but the object surface cleaning rate in the NICU was significantly improved to 85.5% (P<0.05). After the second intervention, the medical equipment cleaning rates were 66.9%, 83.3%, and 57.4%, respectively for those three units, and compared with those before intervention, all the three were significantly improved (P<0.05). The object surface cleaning rates for NICU and Chest ICU were significantly raised to 85.6% and 84.2% (P<0.05), while it was 65.7% in the Comprehensive ICU and was not significantly improved (P=0.767). ConclusionObservation and supervision through a feedback system can raise the cleaning compliance, which is helpful in controlling and preventing nosocomial infection.
ObjectiveTo explore the supervision and inspection mechanism of hospital-acquired infection management at hospital-level in order to promote continuous quality improvement of hospital-acquired infection control. MethodsInstead of inspecting hospital departments only by hospital infection control professionals, the clinical hospital infection control nurses were also involved in the two cross-inspections carried out respectively in September and December, 2013, which shared the same contents, methods, and the inspectors. According to standard procedures, on-site view and inquiry methods were adopted to check the implementation of the system and measures and the infection control knowledge among medical staff. Inspection results were written down to feed back to each department with a unified form. The problems found during the two inspections were classified to be analyzed and solved. The results of the two inspections were compared to understand whether the effect of continuous quality improvement can be achieved through cross-inspections and subsequent work. ResultsThe excellent rate of department and overall accuracy rate of the second inspection increased with statistical significance compared to that of the first inspection (χ2=619.902, P=0.000; χ2=40.347, P=0.000). Meanwhile, the correct rate of each module and infection control knowledge among all kinds of medical staff also increased compared with the first inspection with statistically significant differences (P<0.05). ConclusionLong-term mechanism of cross-inspection involving hospital infection control nurses should be established to facilitate the continuous quality improvement of hospital-acquired infection management.
ObjectiveTo investigate and analyze the antibiotic use in Sichuan Province. MethodsAntibiotic use of inpatients was investigated in 23 hospitals on the day of June 25, 2011. ResultsThe percentage of antibiotic use was 42.4% in the total 27 144 inpatients, the range of which was between 24.3% and 63.3% for each hospital. And 63.8% of the antibiotic use was for therapeutic purpose, and 72.2% used only one antibiotic drug. A total of 36.9% of the patients receiving antibiotic treatment for therapeutic use sent samples for pathogenic detection. With the increase of the size of the hospital (judged by the number of beds), antimicrobial drug utilization decreased with statistical significance (χ2=411.834, P=0.000). With the improvement of regional economic level (judged by per-capita GDP of each region), the hospital antimicrobial usage decreased with statistical significance (χ2=500.093, P=0.000). The three types of antimicrobial drug most frequently used were other β-lactam antibiotics, penicillin and third generation cephalosporin. ConclusionAntibiotic use is reasonable in Sichuan Province as a whole. However, it is necessary to reduce irrational use of antimicrobial agents continuously, and to strengthen the management of clinical antibiotic usage among inpatients.
As an important tool for nucleic acid detection of variant strains of severe acute respiratory syndrome coronavirus 2 (SARS CoV-2), the mobile air capsule construction laboratory is a key medical resource in the prevention and control of COVID-19. Medical staff, security guards, cleaners, maintenance workers and volunteers in the mobile air capsule construction laboratory have high contact frequency with the samples, so they have a high risk of infection with COVID-19. In order to reduce this risk, this article discusses the infection management measures in the aspects of wearing and taking off personal protective equipment, environmental health management, post use goods management, medical waste management, staff training management and disposal process after occupational exposure, and analyzed the common problems in operation, based on the operation process of Nanchong mobile air capsule construction laboratory. The purpose is to provide a reference for the construction and management of other mobile air capsule construction laboratory.