ObjectiveTo understand the characteristics of and risk factors for nosocomial infection in a newly built branch of a university teaching hospital, in order to investigate the control measures for prevention and control of nosocomial infection. MethodsA total of 598 cases of nosocomial infection from April 2012 to June 2014 were enrolled in this study. We analyzed statistically such indexes as nosocomial infection rate, infection site, pathogen detection, and use of antibiotics. Meantime, infection point-prevalence survey was introduced by means of medical record checking and bedside visiting. ResultsAmong all the 44 085 discharged patients between April 2012 and June 2014, there were 598 cases of nosocomial infection with an infection rate of 1.36%. Departments with a high nosocomial infection rate included Intensive Care Unit (ICU) (9.79%), Department of Orthopedics (2.98%), Department of Geriatrics (2.62%), and Department of Hematology (1.64%). The top four nosocomial infection sites were lower respiratory tract (45.32%), urinary tract (13.21%), operative incision (8.86%), and blood stream (8.86%). The samples of 570 nosocomial infections were delivered for examination with a sample-delivering rate of 95.32%. The most common pathogens were acinetobacter Baumanii (17.02%), Klebsiella pneumoniae (14.21%), Escherichia coli (13.68%), Pseudomonas aeruginosa (11.93%), and Staphylococcus aureus (9.12%). And urinary tract intubation (42.81%), admission of ICU (28.60%), and application of corticosteroid and immunosuppressive agents (26.42%) were the top three independent risk factors for nosocomial infection. ConclusionGeneral and comprehensive monitoring is an effective method for the hospital to detect high-risk departments, factors and patients for nosocomial infection, providing a theoretical basis for prevention and control of nosocomial infection.
Objective To evaluate systematically the effectiveness and safety of procalcitonin ( PCT) -guided therapy in comparison with standard therapy in patients with suspected or confirmed severe bacterial infections in intensive care unit ( ICU) . Methods Five randomized controlled trials ( 927 patients) were included for statistical analysis by the cochrane collaboration′s RevMan5. 0 software. Results PCT-guided therapy was associated with a significant reduction in duration of antibiotic therapy [ MD =- 2. 01, 95% CI ( - 2. 37, - 1. 64) , P lt;0. 00001] , but the mortality [ OR =1. 11, 95% CI ( 0. 83, 1. 49) ,P =0. 47] and length of ICU stay[ MD = 0. 49, 95% CI( - 1. 44, 2. 42) , P = 0. 62] were not significantly different. Conclusions An algorithmbased on serial PCT measurements would allow a more judicious use of antibiotics than currently traditional treatment of patients with severe infections in ICU. It can reduce the use of antibiotics and appears to be safe.
ObjectiveTo find out the major isolates distribution, drug resistance changes of multidrug-resistant organisms (MDRO) in 2013 for rational use of antibiotics and hospital infection control. MethodsA total of 32 566 cultured bacteria samples from the patients diagnosed between January 1st and December 31st 2013 were collected, using conventional tube biochemical assays and semi-automatic automicrobic (AMS) for bacteria identification; and antimicrobial susceptibility testing, major drug resistance mechanism detection were performed according to CLSI documents. MDRO definition was made according to the 2011 international consensus from European Center for Disease Control and Prevention (CDC), American CDC, Clinical and Laboratory Standards Institute (CLSI), and Food and Drug Administration. The data was analyzed by WHOnet 5.6 software. ResultsWe got 3 684 strains isolates, G- accounted for 76.08%, G+ 16.80%, fungi 7.11%, and fastidious bacteria 17.29%. The top ten isolates in order were:E.coli, A.baumannii, Ps.aeruginosa, H.influenzae, K.pneumoniae, S.aureus, S.pneumoniae, A.fumigatus, M.catarrhalis and C.freundii. From the first quarter 2012 to the fourth quarter 2013, the extended spectrum β lactamases (ESBL)-producing E.coli increased from 40.23% to 53.54%, ESBL-producing K.pneumonia increased from 14.28% to 34.78%, XDR-A.baumannii increased from 62.38% to 99.25%, metalloenzyme-producing Ps.aeruginosa increased from 7.37% to 25.37%, methicillin resistant staphylococcus aureus increased from 23.81% to 58.70%, and VRE increased from 0.00% to 28.12%. ConclusionIn the isolates, the percentage of G- was the highest, and the rate of MDRO are all unremittingly raising, which suggests us should pay more attention to microbiology analysis, rational use of antibiotics, strengthening hospital infection control, reducing the bacterial resistance, and strengthening MDRO surveillance.
Objectives To retrospectively analyze the isolation rate and drug-resistance of pseudomonas aeruginosa in Fuwai Hospital of Chinese Academy of Medical Sciences from 2013 to 2016. Methods The specimens were collected and cultured. If the isolated bacteria were from the same part of the same patient, the first isolated strains were only counted. The isolated pathogens were identified and the drug-resistance were analyzed. Results A total of 1 404 pseudomonas aeruginosa were isolated. The majority of them were from postoperative recovery room of surgery department (62.1%) and ICU of internal medicine (22.3%). The specimen source were mainly from respiratory tract (75.7%), followed by blood (10.0%) and venous catheter (5.5%). The resistance rate of piperacillin and piperacillin/sulbactam to pseudomonas aeruginosa was 0.6% to 10.4%. The resistance rate of ceftazidime and cefepime was 0.3% to 11.7%. The resistance rate of imipenem and meropenem was 7.6% to 20.1%. The resistance rate of amikacin, gentamicin, and tobramycin was 0.3% to 3.2%. The resistance rate of ciprofloxacin and levofloxacin was 0.6% to 5.2%. Conclusions The isolates of pseudomonas aeruginosa are mainly from postoperative recovery room of surgery department and ICU of internal medicine . Imipenem and meropenem are not the best choices for pseudomonas aeruginosa infection. It has great value to combine piperacillin, piperacillin/sulbactam, ceftazidime and cefepime with aminoglycoside or quinolone antibiotics for the treatment of pseudomonas aeruginosa infection which will reduce drug resistance.
Objective To explore the pathogen distribution and the characteristics of antibiotics use of patients with positive bile culture in order to provide evidence for appropriate antibiotic use. Methods Using a patient-based approach, the clinical and laboratory data of patients with positive bile culture between December 1st 2016 and November 30th 2017 were retrospectively analyzed. The pathogen distribution and antibiotics use of patients with bililary duct infections and colonizations were analyzed. Multidrug-resistant organism infections of patients with bililary duct infections were studied. Results There were 299 submitted bililary samples and in which 158 were culture-positive (52.8%). One hundred and ten strains of pathogens were found in 79 patients with positive bile culture, including 66 strains of Gram-negative (G–) organisms (60.0%), 37 strains of Gram-positive (G+) organisms (33.6%), and 7 strains of fungi (6.4%). The top three G– organisms were Escherichia coli (25 strains, 22.7%), Klebsiella pneumoniae (9 strains, 8.2%), and Acinetobacter baumanii (7 strains, 6.4%). The top three G+ organisms were Enterococcus faecium (10 strains, 9.1%), Enterococcus faecalis (6 strains, 5.5%), and coagulase negativeStaphylococcus (6 strains, 5.5%). The number of patients with bililary duct infections and colonizations were 42 and 37, respectively, with pathogens occupied mainly by G– bacteria. Ten strains of multidrug-resistant organisms were isolated from patients with bililary duct infections. Compared to patients with non-multidrug-resistant organism infections, the length of antibiotics use was longer in patients with multidrug- resistant organism infections (t=2.129, P=0.039). The rate of target therapy for antibiotics in patients with bililary duct infections was 76.2%. The rate of proper antibiotics use was 16.2% before positive bile culture and 78.4% after positive bile culture in patients with bililary duct colonizations. Conclusions Pathogens isolated from bile culture of infection and colonization are predominantly G– organisms. The bile culture and blood culture should be done for patients with suspected bililary duct infection. Infection and colonization should be distinguished for positive bile culture and antibiotic should be chosen according to drug susceptibility test results.
ObjectiveTo investigate the current problems and corresponding solutions regarding the use of antibiotic-impregnated cement spacer for the treatment of periprosthetic joint infection (PJI). MethodsA retrospective analysis was made on the clinical data of 27 patients with PJI who underwent two-stage revision with antibiotic-impregnated cement spacer between January 2001 and January 2013. There were 12 males and 15 females, with an average age of 62.7 years (range, 25-81 years). All arthroplasties were unilateral, including 19 hip PJI and 8 knee PJI. The mean duration from primary arthroplasty to PJI was 25 months (range, 3-252 months). After infection was controlled with the antibiotic-impregnated cement spacer combined with systematic antibiotics treatment, two-stage revision was performed. The effectiveness was evaluated. ResultsOne patient died of myocardial infarction at 2 days after surgery. Infection was controlled, and two-stage revision was successfully performed in 19 patients; deep venous thrombosis occurred in 1 of 3 patients who experienced hip spacer fractures, which was cured after conservative management. The spacers were removed and bacteria-sensitive antibiotics was used because of recurrent infections after the first-stage surgery in 7 patients; 3 patients gave up treatment because infection was not controlled, 4 patients received revision after infection was controlled. Twenty-three patients were followed up 1-5 years (mean, 2.3 years). The average Harris hip score and KSS score at 1 years after revision were significantly improved when compared with preoperative ones (P<0.05). In the 8 patients with gram-negative or fungus infection, 7 were found to have recurrent infection after the first-stage surgery; in the 12 patients with gram-positive infection, no recurrent infection was found. Failed treatment was observed in 1 patient with gram-positive and gram-negative infections and 2 with fungus infection, respectively. ConclusionAntibiotic-impregnated cement spacer has a satisfactory effectiveness for PJI. However, complication of spacer fracture should be noted, especially hip spacers. If the pathogen is gram-negative bacteria or fungus, the implanted spacer may increase the possibility of recurrent infection.
Objective To evaluate the effects of inhalation combined intravenous antibiotics for the treatment of ventilator-associated pneumonia. Methods A computerized search was performed through Cochrane library, Joanna Briggs Institute Library, PubMed, MEDLINE, CINAHL, CBM, CNKI and Wangfang medical network about inhalation combined intravenous antibiotics therapy in ventilator-associated pneumonia in the literatures. The data extracting and quality assessment were performed by three researchers. The meta-analysis was performed by RevMan 5.3 software. Results Thirteen studies was included for analysis. The results showed that the cure rate was higher in the experimental group compared with the control group with significant difference (RR=1.16, 95%CI 1.07 to 1.56,P=0.000 5). There were no significant differences in the mortality (RR=1.04, 95%CI 0.82 to 1.32,P=0.74) or the incidence of kidney damage (RR=0.79, 95%CI 0.51 to 1.22,P=0.29). The difference in pathogenic bacteria removal was statistically significant (RR=1.38, 95%CI 1.09 to 1.74,P=0.007). The negative conversion rate of respiratory secretions was higher in the experimental group. Conclusion Inhalation combined intravenous antibiotics can improve the cure rate of patients with ventilator-associated pneumonia, clear pathogenic bacteria effectively, and is worthy of recommendation for clinical use.
ObjectiveTo observe the impacts of initial therapy on clinical outcome of patients with community-acquired thoracic infection by retrospective analysis. MethodsClinical data of acute community-acquired thoracic infection patients who met the British Thoracic Society diagnostic criteria were collected. The patients were divided into two groups according to whether adequate initial antibiotic therapy and pleural effusion drainage were performed, namely an adequate group (31 patients) and an inadequate group (17 patients). Clinical manifestations, inflammatory markers, hospital stay and hospital costs were analyzed between the two groups. ResultsFor age, gender, infection sites, and coincident diseases, there were no significant differences between the two groups. Compared with the inadequate group, temperature of the adequate group was significantly decreased, especially on hospital day 5, 6, 7[(37.4±0.1)℃ vs. (38.3±0.2)℃, P < 0.001; (37.4±0.1)℃ vs. (37.9±0.1)℃, P < 0.05; (37.4±0.1)℃ vs. (38.1±0.2)℃, P < 0.01]. The level of serum C-reactive protein (CRP) in first week was also significantly reduced in the adequate group[(123.1±13.8) mg/L vs. (182.7±25.3) mg/L, P < 0.05]. However, there were no differences in white cell counts, percentage of neutrophils, or erythrocyte sedimentation rate between the two groups in six-week follow-up. The adequate group had shorter hospital stay[(25±4) days vs. (34±4) days, P < 0.05] and lower hospital costs[(28 367±3 328) yuan vs. (43 334±7 134) yuan, P < 0.05] compared with the inadequate group. ConclusionsThe initial therapy with appropriate antibiotics and effective thoracic drainage can significantly decrease the temperature and CRP of patients with thoracic infection, as well as the cost of hospitalization and the length of stay. Our study reveals that the temperature which is lower than 37.5℃ on the 5th day of therapy and the CRP in the first follow-up week are sensitive predictors of initial treatment effect, which may be helpful to guide the following therapeutic strategies.
Objective To evaluate the value of serumprocalcitonin( PCT) guided antibiotic strategy in the treatment of acute exacerbation of chronic obstructive pulmonary disease( AECOPD) .Methods From August 2011 to June 2012, a total of 96 patients hospitalized for AECOPD were randomly assigned into a PCT-guided group( n = 48) and an empirical therapy group( n = 48) . The PCT levels of PCT-guided group were measured by immunochemiluminometric assays before and 5,7, 10 days after treatment. The PCT-guided group was treated with antibiotics according to serum PCT levels, ie. antibiotic treatment was applied when PCT level ≥ 0. 25 μg/L and was discouraged when PCT level lt; 0. 25 μg/L. The empirical therapy group received antibiotics according to physician’s decision. The antibiotics usage rate, length of antibiotic exposure, length of hospitalization, clinical efficacy, hospital mortality, rate of invasive mechanical ventilation and costs of hospitalization were recorded. Results The antibiotics usage rate, length of antibiotic exposure, length of hospitalization, and costs of hospitalization in the PCT-guided group were all lower than those of the empirical therapy group( P lt;0.05) while clinical efficacy, hospital mortality and rate of invasive mechanical ventilation were similar in two groups(Pgt;0.05) . Conclusion PCT guided antibiotic strategy can be used in the treatment of AECOPD, which may reduce the dose of antibiotic drugs to avoid bacterial resistance and lower costs of hospitalization.
In order to choose the appropriate antibiotics for treating secondary pancreatic infection, permeability of antibiotics to pancreatic tissue was investigated on experimental dogs with acute hemorrhagic necrotizing pancreatitis. The concentrations of 8 different antibiotics were determined in the blood and the pancreatic tissue using highperformance liquid chromatography. Pancreatic tissue permeability of Cefotaxime, Ofloxacin, Amikacin, Piperacllin, Cefoperazone, Ampicillin, Metronidazole and Ciprofloxacin was 12%, 19%, 20%, 46%, 55%, 63%, 71% and 132% respectively. The study shows that this eight antibiotics have different permeability to the pancreatic tissue. Such observations support the existence of a bloodpancreas barrier, which acts to restrict the permeation of antibiotics into the pancreas. The results suggest that antibiotics with high permeability rate be used to treat the patient with secondary pancreatic infection.