Objective To analyze the effective measures to intercept the infection chain of Severe Acute Respiratory Syndrome (SARS), and to study the effective methods for prevention and control. Methods A total of 17 clinically diagnosed SARS cases, 6 suspect cases and 202 people closely contacted with case were dealt with differently according to appropriate criteria, and 144 medical staff was given timely safety measures. Results One of seventeenth cases was diagnosed after its death, and the rest were isolated and treated, and among them 1 died, 9 were cured, and 6 were improved obviously. Six suspect cases were separated and treated in hospital, 5 were cured and 1 improved obviously. Among 202 closely contacted people there were no the secondary infected cases, and neither among all the related medical staff and other people. Conclusion To analyze seriously the infection chain and take effective and feasible interceptive measures are the best approach to prevent and control the spread of SARS and avoid the occurrence of the secondary infected cases.
Abstract: Objective To determine the incidence, course, potential risk factors and outcomes of postoperative noninfectious fever in aortic surgical patients. Methods We reviewed 549 patients who received operation for aortic aneurysm or dissection in Beijing FuWai Cardiovascular Disease Hospital from January 2006 to January 2008. After excluding patients with a known source of infection during hospitalization, patients who had preoperative oral temperature greater than or equal to 38.0℃, patients who underwent emergency surgery, patients who died of other reasons other than feverrelated factors, and patients with incomplete data, we finally enrolled a total of 463 patients for final analysis. Depending on whether the patients developed a noninfectious fever after operation, we classified them into the febrile group (n=345, highest oral temperature ranging from 38.0-39.3℃) and the afebrile group (n=118, without postoperative fever). Univariate analysis was performed between these two groups of patients, with respect to demographics, operative data and postoperative conditions. Risk factors for postoperative fever were considered for the multivariate logistic regression model if they had a P value≤0.001 in the univariate analysis. Results After operation, 74.5%(345/463) of the patients had noninfectious fever. The minimum temperature of febrile patients on the operation day and the first postoperative day were both higher than afebrile patients(P=0.000,0.000). The maximum temperature of febrile patients on the operation day, the first, second,third and fourth postoperative days were also higher than afebrile patients(P=0.000,0.000, 0.047, 0.018). Univariate analysis demonstrated that weight (P=0.000), surgical type (P=0.000), minimum intraoperative bladder temperature (P=0.000), temperature upon ICU admission (P=0.000) and blood transfusion (P=0.000) were all risk factors for noninfectious postoperative fever. The multivariate logistic regression showed that surgical sites of thoracic and thoracoabdominal aorta (odds ratio: 4861; 95% confidence interval: 3.029,5.801; P=0.004), lower minimum intraoperative bladder temperature (odds ratio: 1.117; 95% confidence interval:1.013,1.244;P=0.040) and higher temperature on admission to the ICU (odds ratio: 2.570; 95% confidence interval:1.280,5.182;P=0.008) were significant predictors for postoperative noninfectious fever. Conclusion Noninfectious postoperative fever following aortic surgery is very common. Predictors of noninfectious postoperative fever following aortic surgery include surgical sites (thoracic or thoracoabdominal aorta), low intraoperative core temperature and temperature elevation in the immediate postoperative period.
Objective To analyze the trend of standardized infection ratio (SIR) of surgical site infection (SSI) in small bowel surgery, objectively evaluate the effect of infection control, and provide evidence-based strategies for SSI prevention. Methods According to Centers for Disease Control and Prevention (CDC) / National Healthcare Safety Network (NHSN) surveillance definitions for specific types of infections and the monitoring methods of SSI events published by NHSN, the SSI and related risk factors of adult inpatients undergoing small bowel surgery in Yichang Central People’s Hospital between January 1, 2016 and December 31, 2022 were prospectively monitored. The inpatients undergoing small bowel surgery that meets the definition of International Classification of Diseases, 10th Revision Clinical Modifications/Procedure Coding System (ICD-10-CM/PCS), a multivariate binary logistic regression model was used to calculate the predicted infections in each year, the model included the risk factors for small bowel surgery in NHSN Complex Admission/Readmission (A/R) SSI Model with 7 years of surveillance data as the baseline. The SIR was calculated by dividing the number of observed SSI by the number of predicted SSI in each year. The Mid-P method was used to test the difference of SIR compared to the previous year, and the linear regression model was used to analyze the trend of SIR. Results A total of 2 436 patients were included, with 48 cases of deep incision infection and 49 cases of organ/cavity infection, and the overall incidence rate of infection was 4.0%. From 2016 to 2022, there were 151, 244, 222, 260, 320, 408, and 831 patients who underwent small bowel surgery, respectively. The Mid-P test showed that there was a significant difference in SIR from 2016 to 2019 (P<0.05), and there was an increase in 2018 compared with 2017. There was no significant difference in SIR compared to the previous year from 2019 to 2022 (P>0.05), and there was no significant difference in the trend of SIR of SSI (P=0.065). Conclusions From January 1, 2017, to December 31, 2022, advances have been made in SSI control practices of small bowel surgery in six consecutive years, except for 2018, but there was no annual downward trend from 2020 to 2022. The use of SIR provides a new approach for evaluating the quality of infection control.
ObjectiveTo analyze the clinical and epidemiological characteristics of hospitalized avian influenza A (H7N9) virus infections in Hunan province from 2013 to 2017, and provide evidences for control, diagnosis and treatment of this disease.MethodsNinety-one hospitalized patients were confirmed with H7N9 infection in Hunan. Excluding 2 patients less than 18 years old and 10 with missing data, 79 patients with H7N9 infection were analyzed.ResultsMost confirmed cases were affected in the second and fifth epidemic wave and number of patients in the fifth wave was more than the sum in prior 4 waves. Epidemiological characteristics, clinical symptoms and case fatality did not change significantly. Administration of antiviral drugs was more active in the fifth wave [from illness onset to antiviral drug: (6.3±2.4)d vs. (7.6±2.4)d, P=0.047]. Multiple logistic regression analysis showed that shock (OR=4.683, 95%CI 1.136–19.301, P=0.033) was the independent risk factor of H7N9 infections. There were no significant differences in case fatality among group oseltamivir, group oseltamivir+peramivir, and group peramivir.ConclusionsPatients with avian influenza A (H7N9) increased in the fifth wave but clinical characteristics changed little. Antiviral treatment should be more active. Shock is an independent risk factor of H7N9 infections. Oseltamivir-peramivir biotherapy can not reduce case fatality compared with oseltamivir or peramivir monotherapy.
Objective To construct a quality evaluation index system for healthcare-associated infection (HAI) management, and conduct an empirical evaluation on the quality of HAI management in clinical departments. Methods The literature research method and panel discussion method were adopted to initially form the framework of HAI management quality evaluation index system, and the Delphi method and the analytic hierarchy process were used to establish the index system and determine the weights from January to December 2018. Eight comprehensive evaluation methods, such as osculating value method and technique for order preference by similarity to an ideal solution method, were used to evaluate the quality of HAI management in clinical departments of West China Hospital, Sichuan University in 2018. Kendall’s coefficient of concordance (W) was used to assess the consistency of the results. The clinical departments were ranked by the standardized total scores, which were the means of the normalized scores of the eight methods. Results A quality evaluation index system for HAI management with 3 first-level indicators and 15 second-level indicators was established finally. The results of the eight comprehensive evaluation methods for the quality evaluation of HAI management in 39 clinical departments of West China Hospital, Sichuan University were consistent (W=0.952, χ2=259.800, P<0.001). The standardized total score of Department 18 was 100, which ranked the first place. Conclusion The HAI management quality evaluation index system constructed in this study could be used in clinical departments to evaluate the quality of HAI management in combination with comprehensive evaluation methods.
Objective To understand the current rate of nosocomial infection and its changing trend in a grade A comprehensive hospital in 10 years, and to provide scientific basis for the monitoring, control and management of nosocomial infection. Methods Using the method of cross-sectional survey, the inpatients in Mianyang Central Hospital from 2011 to 2020 were selected for bedside survey, and the questionnaire was filled in after review of medical records. The data of cross-sectional survey of nosocomial infection were collected, and the infection-related data of nosocomial and community-acquired infection of patients in each department were statistically analyzed. Results A total of 19 595 cases were investigated. The prevalence rate of nosocomial infection was 3.79%, and the the case prevalence rate of nosocomial infection was 4.04%. The prevalence of community-acquired infection was 33.44%, and the case prevalence rate of community-acquired infection was 35.30%. The departments with higher prevalence rate in nosocomial infection were intensive care unit, neurosurgery, cardiothoracic surgery and hematology. The departments with high prevalence rate in the community-acquired infection were burn department, pediatrics department, neonatology department, respiratory medicine department and pediatric intensive care unit. The most common site of nosocomial infection was lower respiratory tract infection, followed by upper respiratory tract sensation, urinary tract, abdominal tissue and blood. The main pathogens of nosocomial infections were Escherichia coli, Klebsiella pneumoniae, Acinetobacter baumannii, Staphylococcus aureus, and Pseudomonas aeruginosa. The utilization rate of antibacterial drugs was 42.93%. There was a downward trend in prophylactic drug use, mainly one drug combination, and the proportion of combination drug decreased.Conclusion Through the investigation, it can be seen that the key points of nosocomial infection management and prevention and control should be lower respiratory tract infection, postoperative surgical infection, multi-drug resistant bacteria management and rational use of antibiotics.
ObjectiveTo explore the surgical treatment of deep chest wall infection, improve the cure rate and reduce the recurrence rate.MethodsThe clinical data of 655 patients with deep chest wall infection treated in Yanda Hospital and Beijing Royal Integrative Medicine Hospital from June 2015 to June 2020 were retrospectively analyzed. There were 450 males and 205 females, aged 55.6±12.8 years. There were 8 patients with chest wall infection after tumor necrosis, 15 patients after radiotherapy and 632 patients after thoracotomy (612 patients after cardiovascular surgery and 20 patients after general thoracic surgery). Among them, 649 patients underwent debridement and reconstruction of chest wall defect with muscle flap.ResultsThe average operation time was 95±65 min, the average intraoperative blood loss was 180±100 mL, and the average postoperative hospital stay was 13±6 d. Of the 649 patients who underwent muscle flap reconstruction after debridement, 597 patients recovered within 2 weeks, and the primary wound healing rate was 94.4%. Twenty-three (3.5%) patients died. The median follow-up time was 25 (2-40) months. Among the remaining 632 patients, 20 recurred, with a recurrence rate of 3.1% (20/632).ConclusionPedicled muscle flap after thorough debridement of deep chest wall infection is one of the best methods to repair chest wall defect with pedicled muscle flap.
Lung transplantation has become an effective treatment for various end-stage lung diseases, which can significantly improve the quality of life and prolong the survival time of patients. However, there are still many challenges in the postoperative management of lung transplantation, which pulmonary infection is the primary factor affecting the survival and quality of life of recipients. This article reviews the common infection types and risk factors of lung transplantation recipients at home and abroad, in order to provide reference for the prevention and treatment of clinical lung transplantation infection.
ObjectiveTo explore the risk factors of nosocomial infection in children with acute lymphoblastic leukemia during induction remission chemotherapy.MethodsThe children with acute lymphoblastic leukemia who were admitted to the Department of Pediatrics, Huai’an First Hospital Affiliated to Nanjing Medical University between December 2012 and December 2018 were divided into the infection group (including the severe infection subgroup and the non-severe infection subgroup) and the non-infection group according to whether nosocomial infection occurred during induction and remission chemotherapy. The clinical data of patients were collected. Univariate analysis and multivariate logistic regression were used to analyze the risk factors of nosocomial infection during induction remission chemotherapy in children with acute lymphoblastic leukemia.ResultsA total of 96 patients were included. There were 67 cases in the infection group (26 in the severe infection subgroup and 41 in the non-severe infection subgroup) and 29 cases in the non-infection group. Univariate analysis showed that the granulocyte deficiency time and the prevalence of skin and mucosal damage in the infection group were significantly higher than those in the non-infection group, and the infection group had significantly lower laminar bed use and serum albumin level than the non-infection group did (P< 0.05). Multivariate logistic regression analysis showed that prolonged agranulocytosis [odds ratio (OR)=23.075, 95% confidence interval (CI) (3.682, 144.617), P=0.001], skin and mucosal lesions [OR=12.376, 95%CI (1.211, 126.507), P=0.034], hypoalbuminemia [OR=5.249, 95%CI (1.246, 22.113), P=0.024] were independent risk factors for nosocomial infection during induction and remission of childhood acute lymphoblastic leukemia, while laminar bed [OR=0.268, 95%CI (0.084, 0.854), P=0.026] was the protective factor.ConclusionsLong-term agranulocytosis, skin and mucosal lesions, and hypoalbuminemia are independent risk factors for nosocomial infection in children with acute lymphoblastic leukemia during induction remission chemotherapy. Laminar flow bed is its protective factor.
Objective To explore the effect of multimodal interventions in improving the compliance rate of core infection control measures on reducing the incidence rate of vessel catheter associated infection (VCAI). Methods Inpatients with intravascular catheters in 5 departments with high rates of vascular catheterization and infection of Dongguan People’s Hospital between January 2021 and December 2022 were selected. According to the hospital stay, patients were divided into a pre-intervention group (January to December 2021) and a post-intervention group (January to December 2022). The core infection control measures assessment pass rates of medical staff between the two periods and the differences in the incidence rate of VCAI, average catheterization days, and catheterization rate before and after intervention in both groups were compared. Results A total of 8174 patients were included. Among them, there were 3915 patients in the pre-intervention group and 4259 patients in the post-intervention group. In the pre-intervention group, the total length of hospital stay was 122885 days, the total number of catheterization days was 48028 days, and 28 cases of VCAI occurred. In the post-intervention group, the total length of hospital stay was 126966 days, the total number of catheterization days was 51253 days, and 12 cases of VCAI occurred. After intervention, the compliance rate of VCAI core infection control measures was improved [69.21% (2907/4200) vs. 91.24% (3832/4200); χ2=642.090, P<0.001], the pass rate of medical staff’s core infection control measures assessment was improved [53.33% (128/240) vs. 91.67% (220/240); χ2=88.443, P<0.001], the catheterization rate was increased [39.08% (48028/122885) vs. 40.37% (51253/126966); χ2=42.979, P<0.001], and the incidence rate of VCAI was reduced [0.58‰ (28/48028) vs. 0.23‰ (12/51253); incidence-rate ratios =0.40, 95% confidence interval (0.20, 0.79), P=0.008]. Conclusions Improving the compliance rate of VCAI core infection control measures through multimodal interventions can significantly improve the passing rates of core infection control measures of medical staffs. This will help to reduce the incidence of VCAI and ensuring patient safety, provide evidence-based support for the prevention and control of VCAI.