ObjectiveTo explore the application of PDCA cycle in the examination of medical quality of Tibetan area hospitals. MethodsIn the October 2014, PDCA cycle theory was introduced into the examination of Tibetan hospital medical quality. We collected quality problems existing in the medical activities actively, analyzed the reason and influencing factors and made corresponding plans. Then we implemented the plans and measures strictly, surveyed the results, found out and analyzed the problems, summarized the results of the examination, and turned the unsolved problems to the next PDCA circulation. Continuous follow-up was performed until the results were satisfactory. Based on Sichuan Province Secondary Comprehensive Hospital Evaluation Standard, we analyzed the medical quality of the hospital before PDCA application (July to September 2014) and after PDCA application (October to December 2014). ResultsThe incidence of medical nursing documents writing defects decreased from 12.4% to 5.9%. Hospital infection management defect rate declined from 13.5% to 5.3% and drug safety management defect rate declined from 11.8% to 2.5%, and all the differences were statistically significant (P<0.05). ConclusionPDCA cycle in the Tibetan hospital for medical quality examination has greatly improved the medical quality of Tibetan hospitals.
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.
Objective To investigate the method and effect of continuous improvement of adverse drug reaction (ADR) monitoring in a major public hospital’s cooperating branch hospital. Methods PDCA cycle management was used to continuously improve the quality of ADR monitoring. ADR report network platform was established in the fourth quarter of 2014; ADR report specification training for the medical personnel was held in the first quarter of 2015; a examine mechanism was built in the second quarter of 2015. The quality and quantity of ADR monitoring before and after the PDCA cycle management were analyzed. Results ADR report timeliness conform to the requirements increased from 45.5% (from the first to third quarter of 2014) to 98.1% (from the fourth quarter of 2014 to the second quarter of 2015); accurate ADR types checking, normal name writting, and complete process description increased from 68.6%, 65.7%, 8.6% (from January 2014 to Frequency 2015) to 92.9%, 96.4%, 85.7% (from March to June 2015); the quantity of ADR report was obviously improved. Conclusion Learning from public hospital’s experience and considering its own condition in ADR monitoring, cooperating branch hospital utilizes PDCA cycle management which could continuously improve the ADR monitoring.
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.