ObjectiveTo investigate the prevalence of nosocomial infection in a hospital and to provide a basis for hospital infection control. MethodsUsing bedside investigation and medical records analysis, we surveyed all hospitalized patients from 00:00 to 24:00 on July 19th, 2013. ResultsThe real investigation was carried out on 1815 patients out of all the 1828 patients with a real investigation rate of 99.29%. There were 55 cases of nosocomial infection (55 case-times), and both the nosocomial point infection rate and case-time infection rate were 3.03%. The top three departments with the highest rate were Intensive Care Unit (37.50%), Neurosurgery Department One (13.73%) and Neurosurgery Department Two (12.00%). Most infections occurred on the lower respiratory tract, which accounted for 45.45%. Nosocomial infection pathogenic detection rate was 38.18% (21/55):6 cases of Staphylococcus aureus (28.57%), 5 of Pseudomonas aeruginosa (23.81%), 3 of Klebsiella pneumoniae (14.29%), and 2 cases of Acinetobacter baumanii (9.52%). The rate of antimicrobial drug use was 24.08%, in which drug treatment accounted for 75.29%. Gender, surgery, urinary catheter, vascular catheter, tracheostomy, ventilator application, hemodialysis, and use of antibiotics were all influencial factors for occurrence of nosocomial infection. ConclusionNosocomial infection prevalence survey can help fully understand the status of hospital infection, help to carry out targeted surveillance, and better guidance for hospital to prevent and control nosocomial infection.
Objective To analyze the main problem of continuous hand hygiene improvement by PDCA cycle, find out the causes and carry out corresponding measures, in order to improve hand hygiene management continuously. Methods Between January and June 2014, PDCA cycle was used to strengthen comprehensive training, enhance awareness of hand hygiene, reinforce supervision, and evaluate the effect of continuous hand hygiene improvement. The knowledge of hand hygiene, increase of hand hygiene facilities, use of hand hygiene products and hand hygiene implementation before (from July to December 2013) and after PDCA application (from January to June 2014) were compared and analyzed. Results After the implementation of PDCA cycle, the pass rate of hand hygiene knowledge increased from 61.0% to 88.3%; the total amount of hand hygiene use increased from 1 817 046 mL to 3 347 386 mL; the hand hygiene compliance rate increased from 43.03% to 71.31%; and the correct rate of hand hygiene implementation increased from 62.68% to 87.68%. All the above differences were statistically significant (P<0.05). After the implementation of PDCA cycle, the compliance rate of different hand hygiene indications became significantly different (P<0.05). The growth rate of hand hygiene implementation before aseptic manipulation and after contact with body fluids were relatively higher (34.56% and 34.01%, respectively). Conclusion Through the application of PDCA cycle, hand hygiene compliance rate and correct rate have gradually increased.
ObjectiveTo explore the risk factors for hematogenous occupational exposure by analyzing hematogenous occupational exposure in medical workers, and discuss countermeasures in order to reduce the occurrence of hematogenous occupational exposure in medical workers. MethodsWe summarized and analyzed the hematogenous occupational exposure reported by registered medical personnel in the First People's Hospital of Yibin City from January 2012 to December 2014. ResultsThere were 129 cases of hematogenous occupational exposure, and nurses were at high risk of such exposure (65.12%).The exposure occurrence focused in medical personnel with working time shorter than 5 years.The top three high-risk operational procedures were needle injection, puncture, and medical waste disposal; sharp instrument injuries (109 cases, 84.50%) were the main factor leading to hematogenous occupational exposure in medical workers.Sources of exposure were detected and confirmed in 92 cases (71.32%); after testing, 79 cases (61.24%) of infections were confirmed in the source patients with one or more blood-borne pathogens.Through scientific treatment, no infection after hematogenous occupational exposure was detected in the medical workers. ConclusionMonitoring and analysis of hematogenous occupational exposure can facilitate identification of key departments, target population and risk factors, which is important for taking appropriate interventions.
Objective To discuss the effect of monitoring-training-planning (MTP) intervention model on the prevention and control of catheter–associated urinary tract infection (CAUTI) in Intensive Care Unit (ICU). Methods Patients with indwelling catheter from departments with ICU (ICU, ICU of the Department of Neurosurgery, ICU of the Department of Neurologic Medicine) between 2014 and 2015 were included in this study. Based on the inclusion criteria, target monitoring indicators were set in accordance with Hospital Infection Monitoring Norms. A total of 493 patients with indwelling catheters from January to December 2014 were subjected to target surveillance, and were used as baseline for the study. A total of 529 patients with indwelling catheters from January to December 2015 were treated with MTP intervention. The occurrence of indwelling catheter–associated urinary tract infections in the intensive care unit was compared before and after intervention. Results The incidence of indwelling catheter-associated urinary tract infections before and after MTP intervention were different, and the difference was statistically significant (P<0.05). Conclusion MTP intervention model can effectively prevent and reduce indwelling catheter-associated urinary tract infections in ICU.
ObjectiveTo learn the status quo and characteristics of multi-drug resistant organism (MDRO) infection in a comprehensive hospital of the first grade in Sichuan Province, analyze the effect of prevention and control intervention, in order to provide a scientific basis for clinical MDRO prevention and control. MethodsWe collected MDRO data from January to June 2014 and from January to June 2015 through multi-drug resistance reporting software, and analyzed and compared the infection of MDRO during those two time periods. Then, we evaluated the prevention and control effect of MDRO infection. ResultsThe number of inpatients from January to June 2014 was 24709, among which 813 were detected with MDRO infection. Of those infected patients, 196 had nosocomial infection of MDRO and the other 617 had community infection/colonization. The proportion of nosocomial MDRO infection was 24.10%. The MDRO nosocomial infection case rate was 0.79%. The proportion of community MDRO infection/colonization was 75.90%. The number of inpatients from January to June 2015 was 25329, and 739 of them were found with MDRO infection, of whom 132 had nosocomial infection and 607 community infection/colonization. The proportion of nosocomial MDRO infection was 17.86%. The MDRO nosocomial infection case rate was 0.52%. The proportion of community infection/colonization was 80.14%. Compared with the first half of 2014, the proportion of nosocomial MDRO infection was lower with a statistically significant difference (χ2=9.062, P<0.001), and MDRO nosocomial infection case rate was also significantly lowered (χ2=14.220, P<0.001). There were significant differences between the first half of 2015 and the same period of 2014 in hospital department distribution of MDRO infection, patient infection site distribution and pathogen detection. ConclusionThe nosocomial MDRO infection control situation of our hospital is improved after the comprehensive prevention and control interventions, and we should focus on the prevention and control of key departments, important infection sites and major resistant bacteria in the future MDRO hospital infection control work.
Objective To investigate the detection of multidrug-resistant organisms (MDRO) by targeted monitoring in a tertiary hospital, and to understand the distribution of MDRO. Methods We retrospectively analyzed the detection and distribution of methicillin-resistantStaphylococcus aureus (MRSA), carbon black alkeneAcinetobacter baumannii (CRABA), carbapenem-resistantPseudomonas aeruginosa (CRPAE), vancomycin-resistantEnterococci (VRE) and carbapenem-resistantEnterobacter (CRE) in clinical samples collected from 2013 to 2015. Results A total of 990 multidrug-resistant bacteria strains were isolated from 2013 to 2015, of which 445 were MRSA (44.95%), 328 were CRABA (33.13%), 99 were CRPAE (10.00%), 12 were VRE (1.21%), and 106 were CRE (10.71%). They were mainly distributed in the Department of Burn, Comprehensive ICU, Department of Neurosurgery, Department of Respiratory Medicine and Department of Orthopedic Surgery. The detection rates of multidrug-resistant organisms of 2013-2015 were 10.85% (352/3 244), 9.20% (304/3 303), and 7.11% (334/4 699) respectively, which reduced year by year with significant difference (χ2= 34.42,P< 0.001). The detection rates of CRPAE, CRE and VRE all reduced with significant differences (P< 0.05). Conclusions The detection rate of multidrug-resistant organisms under targeted monitoring shows an obvious downward trend. MRSA and CRABA are still the major MDROs, which show no obvious change. The detection rates of CRPAE, VRE and CRE show obvious downward trend. Department of Burn, Comprehensive ICU, Department of Neurosurgery, Department of Respiratory Medicine and Department of Orthopedic Surgery have the highest risks of MDRO. In the future, we should strengthen the monitoring of high-risk departments, and focus on the reasonable choice of special antimicrobial agents to avoid special MDROs.
ObjectiveTo explore the practical effects of multi-disciplinary team (MDT) management model in the management of multidrug-resistant organisms (MDROs).MethodsIn 2015, the multi-drug resistant MDT was established, and MDT meetings were held regularly to focus on the problems in the management of MDROs and related measures to prevent and control nosocomial infections of MDROs.ResultsThe detection rate of MDROs from 2014 to 2017 was 9.20% (304/3 303), 7.11% (334/4 699), 8.01% (406/5 072), and 7.81% (354/4 533), respectively. The difference was statistically significant (χ2=11.803, P=0.008), in which the detection rates of carbapenem-resistant Acinetobacter baumannii (CRABA), carbapenem-resistant Pseudomonas aeruginosa, and carbapenem-resistant Enterobacteriaceae (CRE) changed significantly (χ2=39.022, 17.052, 12.211; P<0.05). From 2014 to 2017, the proportion of multi-drug resistant infections decreased year by year, from 84.54% to 52.82%, and the proportion of multi-drug resistant hospital infections also declined, from 46.05% to 23.16%; the nosocomial infection case-time rate decreased from 0.24% to 0.13% year-on-year; the proportion of multi-drug resistant hospital infections in total hospital infections was 9.07%, 11.17%, 10.47%, and 6.16%, respectively; in the distribution of multi-drug resistant nosocomial infection bacteria, the proportion of methicillin-resistant Staphylococcus aureus, CRABA, CRE hospital infections accounted for the number of MDROs detected decreased year by year. The use rate of antibiotics decreased from 46.58% in 2014 to 42.93% in 2017, and the rate of pathogens increased from 64.83% in 2014 to 84.59% in 2017.ConclusionThe MDT management mode is effective for the management and control of MDROs, which can reduce the detection rate, infection rate, hospital infection rate, and antibacterial drug use rate, increase the pathogen detection rate, and make the prevention and control of MDROs more scientific and standardized.
ObjectiveTo understand the economic burden of disinfection supply to medical institutions in Yibin City, and explore the feasibility of establishing a regional centralized management model of disinfection supply center in Yibin City.MethodsFrom April to May 2018, 263 medical institutions in the eight counties and two districts of Yibin City were investigated by means of mobile phone application-designed questionnaire, to obtain the information of cost accounting and economic burden of disinfection supply.ResultsThere were 263 medical institutions involved in the survey, in which 61 (23.19%) had set up the central sterile supply department (CSSD), including 43 public hospitals and 18 private hospitals; 202 medical institutions were without CSSD, which were mainly secondary hospitals [195 (74.14%), including 120 public hospitals and 75 private hospitals]. The higher the hospital level was, the larger the average area of the CSSD was; the difference was statistically significant (χ2=40.009, P<0.001). The higher the hospital level was, the more full-time personnel were employed, and the difference was statistically significant (χ2=31.862, P<0.001), and the care staff were the majority (66.23%). The cost burden of CSSD was more than 1 million yuan in the tertiary hospitals, which was 100 000 yuan or above in 61.90% of the secondary hospitals, and was below 100 000 yuan in hospitals below secondary level. The higher the hospital level was, the higher the total cost burden became; the difference was statistically significant (χ2=37.995, P<0.001). ConclusionIn view of the heavy economic burden of CSSD in medical institutions and the unbalanced setting up of medical institutions below secondary level, the establishment of a regional CSSD centralized management model is a new direction, new trend, and new model for future development, which is conducive to improving the quality of disinfection and sterilization, reducing medical care costs, making rational use of health resources, effectively preventing hospital infections, and ensuring the medical safety.