Objective To evaluate the effect of optimizing the management measures of cataract ambulatory surgery. Methods The patients who underwent cataract phacoemulsification combined with intraocular lens implantation in the Ambulatory Surgery Center of East District of Beijing Tongren Hospital affiliated to Capital Medical University were selected. Patients between January and December 2021 (after the optimization of ambulatory surgery process) were included, and patients between January and December 2020 (before the optimization of ambulatory surgery process) were included as control. The three factors of age, gender and surgical eye type were used as predictive variables for propensity score matching. The proportion of patients who completed the surgery according to the scheduled time, the proportion of eye drops used according to the doctor’s instructions and the number of hospital visits before and after the optimization of the ambulatory surgery process were compared with the patients who successfully matched. Results A total of 28306 patients were included, including 13284 before and 15022 after process optimization. There were 13467 males and 14839 females, with a median age of 70 (60, 78) years. There was no statistically significant difference in the age of patients before the process optimization (P>0.05), but there was statistically significant difference in gender and surgical eye (P<0.05). After the propensity score matching, a total of 12932 pairs of patients were matched successfully. After the propensity score matching, there was no statistically significant difference between the two groups in age, gender and surgical eye (P>0.05). After the process optimization, the proportion of patients who completed surgery on schedule (98.8% vs. 93.3%) and used eyedrops according to the doctor’s instructions (97.4% vs. 93.0%) were higher than that before the process optimization, and the proportion of patients who came to hospital more than 3 times (0.7% vs. 1.9%) was lower than that before the process optimization (P<0.05). Conclusion The optimized ambulatory surgery process can help patients complete the surgery according to the scheduled time and use eye medication according to the doctor’s instructions, and can reduce the number of patients coming to the hospital.
【摘要】 目的 探讨如何通过流程优化应对体检高峰期。 方法 通过体检高峰期流程优化前后(2008年与2010年)的管理成效对比,评估高峰期流程控制的有效性。 结果 体检高峰期流程优化后,平均候检人数由8人下降至3人、平均侯检时间由11.9 min下降至4.2 min,平均体检时间由175 min下降至130 min。体检者对体检环境、服务态度和服务质量的满意度均高于优化前,差异有统计学意义(Plt;0.05)。 结论 通过流程优化与控制有效地缓解了高峰期体检人员等候时间过长现象,极大地提高了体检者满意度,保障了健康体检工作质量。【Abstract】 Objective To explore how to cope with the peak flow of physical examination through the process optimization. Methods Evaluate the utility of the process control at physical examination peak flow, by contrasting the management effect before and after the physical examination peak flow optimization (2008 and 2010). Results After the process optimization in peak flow, the average number of people waiting to be checked is down to 3 from 8, the consumers′ satisfaction with the medical environment, service attitude and the service quality is higher than before optimization, the difference was significant (Plt;0.05). Conclusion Through the process optimization and control effectively relieve the time for waiting to be examined, greatly enhance the satisfaction of people who take physical examinations and ensure the quality of physical examination.
ObjectiveTo explore the effect of continuous improvement of quality control system on the emergency treatment efficiency for patients with acute ST segment elevation myocardial infarction (STEMI) after the establishment of Chest Pain Center. MethodsWe retrospectively analyzed the differences of theory examination scores acquired by the Chest Pain Center staff one month before and after they got the system training. Moreover, we designated the STEMI patients treated between May and August 2015 after the establishment of Chest Pain Center but before optimization of process to group A (n=70), and patients treated from September to December 2015 after optimization of process to group B (n=55). Then we analyzed the differences between these two groups in terms of the time from patients' arriving to registration, the time from arriving to first order, the length of stay in Emergency Department, and even the time from door to balloon (D2B). ResultsThe scores acquired by Chest Pain Center staff before and after system training were 69.89±6.34 and 87.09±4.39 respectively, with a significant difference (P<0.05). All the time indicators of both group A and group B were shown as median and quartile. The time from patients' arriving to registration of group A and group B was 6.0 (0.0, 11.0) minutes and 1.0 (0.0, 3.0) minutes (P<0.05); the time from arriving to first order was 12.8 (9.0, 18.0) minutes and 5.0 (3.0, 9.0) minutes (P<0.05); the length of stay in Emergency Department was 54.0 (44.0,77.0) minutes and 33.0 (20.0, 61.0) minutes (P<0.05); and the time of D2B was 107.5 (89.0, 130.0) minutes and 79.0 (63.0, 108.0) minutes (P<0.05). ConclusionAfter taking measures such as drawing lessons from the past, training staff and optimizing process continuously, we have significantly shortened the acute STEMI patients' length of stay in the Emergency Department, which has saved more time for the following rescue of STEMI patients.
Objective To explore the influence of applying the fast-track surgery (FTS) to optimize the process in the perioperative period of cardiac intervention on the rehabilitation of patients with radial artery stenting surgery. Methods A total of 190 patients with radial artery stenting surgery in the Department of Cardiology, West China Hospital from June 2017 to May 2018 were enrolled. They were randomized into a control group (n=95) and a FTS group (n=95) by random umber table. There were 60 males and 35 females aged 35-88 (65.2±9.6) years in the control group as well as 62 males and 33 females aged 34-86 (61.5±11.3) years in the FTS group. Patients in the control group received routine perioperative care, but patients in the FTS group received individual precision interventions by applying the FTS concept to optimize the process of perioperative care, including individual care management before being admitted into hospital, during hospital, and after discharge from hospital. Duration of hospital stay, satisfaction scores, number of comorbidities after surgery, disease self-management ability, and readmission rates were compared between the two groups. Results Compared to the control group, the FTS group had significantly shorter duration of hospital stay, less comorbidities, higher satisfaction scores and disease self-management ability, and lower readmission rate to hospital (P<0.05). Conclusion Applying FTS into the perioperative period of cardiac interventions to optimize its process can help patients recover from radial artery stenting surgery, increase patients’ self-management abilities, shorten duration of hospital stay and decrease comorbidities and cardiac adverse events.
Objective To explore the process of using failure mode and effect analysis (FMEA) to optimize the management of specimens from relatives of patients and analyze its effects. Methods The data of the specimens tested by the family members of hospital patients between October 2019 and June 2020 in the Children’s Hospital of Fudan University were collected. The data between October 2019 and March 2020 were taken as the pre-FMEA group, and the data between April 2020 and June 2020 were taken as the FMEA group. We used FMEA method to evaluate the risk points in the management of specimens from relatives of patients, analyzed the reasons to propose improvement measures, and compared the effect of optimizing the management of specimens from relatives of patients before and after the implementation of FMEA. Results A total of 12 117 specimens from relatives of patients were included, including 6 132 cases in the pre-FMEA group and 5 985 cases in the FMEA group. A total of 13 potential failure modes were found, including 3 high risk, 3 medium risk and 7 low risk. After the implementation of FMEA, the 3 high risk failure modes, 1 medium risk failure modes “inspection type application error” and 1 low risk failure modes “diagnosis error” were lower than that pre-FMEA (P<0.05). The interview results showed that the job satisfaction and work risk awareness of relevant medical staff were improved after the implementation of FMEA. Conclusions The use of FMEA to optimize the management process of patient family specimens accurately captures the risk points. After the implementation of the improvement, the potential risk of the process is reduced, possible errors are prevented, work efficiency and job satisfaction are improved, and it can be used as a reference for hospital managers.
Objective To explore the application effect of process optimization in perioperative venous access management. Methods A total of 205 general surgery patients in the Operating Room of Cheng Du Shang Jin Nan Fu Hospital, West China Hospital of Sichuan University from April to May 2018 were selected as the control group, and 205 general surgery patients from June to August 2018 were selected as the observation group. The traditional management process was used in the control group, and the process optimization management was performed in the observation group. The establishment of venous access and related complications between the two groups of patients, as well as the satisfaction of patients and staff before and after the process optimization were compared. Results There was no significant difference in gender, age, education level, operation type, anesthesia method, operation duration, or intraoperative intravenous infusion channels between the two groups of patients (P>0.05). There was no statistically significant difference in gender, age, educational background, job title, job nature, or working years of the staff participating in the satisfaction survey before and after the process optimization (P>0.05). The rate of repetitive venous puncture (15.61% vs. 58.05%) and the idelness ratio of the intraoperative indwelling needle approach (10.73% vs. 52.20%) in the observation group were lower than those of the control group, and the differences were statistically significant (P<0.05). There was no statistically significant difference in the incidence of tube blockage, detubation, or phlebitis/exudation between the two groups (P>0.05). After process optimization, patient satisfaction (22.91±3.43 vs. 17.44±4.90) and staff satisfaction (28.17±2.56 vs. 20.65±3.71) were higher than before optimization, and the differences were statistically significant (P<0.05). Conclusions The process optimization of venous access management for perioperative patients can effectively reduce the rate of venous repeated venipuncture and the idelness ratio of the intraoperative indwelling needle approach, reduce invasive operations on patients, reduce the ineffective work of nurses, avoid the waste of medical resources such as manpower and materials, and improve the satisfaction of patients and staff. It is worthy of promotion and application.