ObjectiveTo investigate the risk factors, prognostic factors and prognosis of Multidrug-Resistant Acinetobacter Baumannii (MDR-AB) infection of lower respiratory tract in Intensive Care Unit (ICU) of the Second Affiliated Hospital of Anhui Medical University. MethodsUsing retrospective analysis, we reviewed and compared clinical data of 77 AB infections in lower respiratory tract cases in ICU from January 2013 to March 2015. According to the resistance, patients were divided into a MDR-AB group and a NMDR-AB group. Then the risk factors, prognostic factors and prognosis of MDR-AB infection were analyzed. ResultsA total of 58 cases in the MDR-AB group, 19 cases in the NMDR-AB group were included. The result showed that, the MDR-AB infection in lower respiratory tract could significantly prolong the length of ICU stay (18.5±16.0 vs. 10.6±9.3 days, P<0.05) and increase the mortality (44.8% vs. 11.1%, P<0.01). Logistic regression analysis showed that the independent risk factors for MDR-AB infection in lower respiratory tract included Acute Physiology and Chronic Health Evaluation Ⅱ (Apache Ⅱ) score >15 (OR=0.138, 95%CI 0.03 to 0.625, P=0.01) and use of carbapenems (OR=0.066, 95%CI 0.012 to 0.0346, P=0.001). The independent prognostic factors included placement of drainage tube (OR=8.743, 95%CI 1.528 to 50.018, P=0.015) and use of vasoactive drugs (OR=12.227, 95%CI 2.817 to 53.074, P=0.001). ConclusionThe MDR-AB infection in lower respiratory tract can significantly prolong the length of ICU stay and increase the mortality. The Apache Ⅱ score >15 and use of carbapenems are the risk factors, and the placement of drainage tube and use of vasoactive drugs can increase the mortality of MDR-AB infection of lower respiratory tract in ICU.
Objective To investigate the viral etiology of acute lower respiratory tract infection in adult inpatients. Methods 192 adult inpatients suffering from community-acquired pneumonia, acute bronchitis, or acute exacerbation of chronic obstructive pulmonary disease, admitted from October 2007 to October 2008, were enrolled in the study. Swabs from the nasopharynxes were collected. Multiple polymerase chain reaction was employed to identify the 7 common species of respiratory virus ( including 11subspecies) . Serumspecific IgM against several viruses were detected by indirect immunofluorescence. 106 healthy volunteers were enrolled as control. Results Only 4 cases were found to be infected with virus in 106 healthy volunteers. Viruses were identified in 80 ( 41. 6% ) cases of 192 inpatients and 99 ( 51. 5% )viral strains were detected. The most common viruses identified in the inpatients were influenza virus A ( FluA) , rhinovirus ( RhV) , and parainfluenza virus 1 ( PIV1) . The ratio of the 3 virus strains to the all strains identified was 81. 8% ( 81/99) . Serumspecific IgM was positive in 61 ( 31. 7% ) inpatients and 73 ( 38. 0% ) viral strains were detected. The most common viruses identified in the inpatients were FluA, PIV1,and respiratory syncytial virus ( RSV) . When summing up the data from the swabs and serum, 91 ( 47. 3% )cases had viral infection in 192 inpatients and 110 ( 57. 2% ) viral strains were detected. Conclusion The rate of viral infection is relatively high in the adult inpatients with acute lower respiratory tract infection, and the most common species are FluA, RhV, and PIV1.
ObjectiveThe aim of this study was to assess the disease burden of non-COVID-19 lower respiratory infection (LRI) in China during the period 1990−2021, particularly during the period 2019−2021. MethodsData on the burden of disease for LRI in China were obtained from the GBD 2021 database. A Joinpoint regression model was used to describe the changes in disease burden trends of LRI in China from 1990 to 2021, and the results are presented in terms of average annual percentage change (AAPC). ResultsIn 2021, the age-standardized incidence rate of LRI in China was 2 853.31/100 000, the age-standardized rate of DALY was 347.67/100 000, and the age-standardized mortality rate was 14.03/100 000. Compared with 1990, the AAPC were −2.13%, −6.89% and −4.10% respectively. In contrast, during the COVID-19 pandemic, both showed a decreasing and then increasing trend, except for the age-standardized incidence rate, which showed a decreasing trend. Children under 5 years of age have experienced the greatest reduction in the burden of disease over the past decades, while the burden of disease has increased in absolute terms for the elderly over 70 years of age. Compared with 1990, the disease burden of LRI in China due to each pathogenic microorganism has decreased. And during 2019−2021, all pathogens showed an increasing trend, except for ASMR caused by influenza (APC=−55.21%) and respiratory syncytial virus (APC=−53.35%). In 2021, the primary attributable risk factors for LRI mortality in China shifted from household air pollution due to solid fuels, childhood underweight, and childhood stunting in 1990 to ambient particulate matter pollution, smoking, and secondhand smoke. ConclusionThe disease burden of LRIs in China showed an overall decreasing trend from 1990 to 2021, but with large variations between age groups and pathogens. During the two years following the outbreak of the COVID-19 pandemic, the incidence of LRI in China, along with the disease burden caused by influenza and respiratory syncytial virus, significantly declined. Over the past few decades, the attributable risk factors for mortality and DALYs have undergone substantial changes. To address this phenomenon, targeted measures should be implemented to reduce the burden of LRI on the population caused by air pollution and smoking.
ObjectiveTo investigate clinical characteristics and influencing factors of lower respiratory tract infection of Acinetobacter baumannii (AB-LRTI) in respiratory intensive care unit (RICU).MethodsClinical data were collected from 204 RICU patients who were isolated Acinetobacter baumannii (AB). The bacteriological specimens were derived from sputum, bronchoscopic endotracheal aspiration, bronchoalveolar lavage fluid, pleural effusion and blood. The definition of bacterial colonization was based on the responsible criteria from Centers for Disease Control and Prevention/National Medical Safety Network (CDC/NHSN). The patients were divided into three groups as follows, AB colonization group (only AB was isolated, n=40); simple AB-LRTI group (only AB was isolated and defined as infection, n=63), AB with another bacteria LRTI group (AB and another pathogen were isolated simultaneously, n=101). The epidemiology, clinical characteristics and influencing factors of each group were analyzed and compared. ResultsCompared with the AB colonization group, the AB with another bacteria LRTI group had higher proportion of patients with immunosuppression, specimens from sputum and bronchoalveolar lavage fluid, more than 4 invasive procedures, 90-day mortality, white blood cell count >10×109/L (or <4×109/L), neutrophil percent >75% (or <40%), lymphocyte count <1.1×109/L, platelet count <100×109/L, albumin <30 g/L, high sensitivity C-reactive protein >10 mg/L, and neutrophil-to-lymphocyte ratio (NLR). The frequency of bronchoscopy and days of infusing carbapenem within 90 days before isolating AB, the Acute Physiology and Chronic Health Evaluation Ⅱ score, the proportion of patients with invasive mechanical ventilation and the duration of invasive mechanical ventilation in the AB with another pathogen LRTI group were higher than those in the AB colonization group (all P<0.05). Days of infusing carbapenem and β-lactams/β-lactamase inhibitors within 90 days before isolating AB, proportion of septic shock, NLR and 90-day mortality of the patients from the AB with another pathogen LRTI group were more than those in the simple AB-LRTI group (all P<0.05). After regression analysis, more than 4 invasive procedures, or immunosuppression, or with more days of infusing carbapenem within 90 days before isolating AB were all the independent risk factors for AB-LRTI.ConclusionsThere are significant differences in epidemiology, clinical symptoms and laboratory indicators between simple AB-LRTI, AB with another pathogen LRTI and AB colonization in RICU patients. For RICU patients, who suffered more than 4 invasive procedures, immunosuppression, or with more days of infusing carbapenem within 90 days before isolating AB, are more susceptible to AB-LRTI.
ObjectiveTo evaluate clinical efficacy of mannatide for recurrent respiratory tract infection (RRTI) and its influence on immune function. MethodsThe Cochrane Library (Issue 12, 2013), PubMed, EMbase, CNKI, CBM, VIP and WanFang Data were searched for the randomized controlled trials (RCTs) that investigated the clinical and immune effect of mannatide in RRTI from inception to December 2013. Two reviewers independently screened studies according to the inclusion and exclusion criteria, extracted data and evaluated the methodological quality of included studies. Then meta-analysis was performed using the software RevMan 5.1.0. ResultsA total of 18 studies involving 1 481 patients were included. The results of meta-analysis showed that compared with the placebo group, the mannatide group was superior in total effectiveness and improving the levels of T-lymphocyte subsets and antibody (P < 0.05); compared with the levomisole group, the mannatide group was superior in total effectiveness and improving the level of T-lymphocyte subsets (P < 0.05), but not in improveming antibody level. ConclusionMannatide improves clinical efficacy in the treatment of RRTI and patients' immune function.
The clinical practice guideline on traditional Chinese medicine alone or combined with antibiotics for patients with acute upper respiratory infection in children was issued by China Association of Chinese Medicine in June 2017. Base on the evidence, consensus and experience, five manage groups, steering committee, consensus expert group, systematic review group, drafting group and secretary group, have promoted the project. The main work process refers to up-to-date clinical practice guideline definitions of institute of medicine and quick recommendations guide of guidelines international network and WHO. In order to provide readers with a better understanding of the guideline, the drafting process of guideline principle, main work process, and basis policy were described in detail in this paper. The guidelines’ scientific characteristics, accuracy and practicability were better exhibited in attempt to enhance its promotion and application.
ObjectiveTo investigate the efficacy of macrolide antibiotics on patients with lower respiratory tract infection. MethodsA total of 146 patients with lower respiratory tract infections were selected from January 2011 to January 2014 in the Department of Respiratory Medicine of our hospital and divided into low risk and high risk group. Based on the clinical characteristics of the patients, low risk treatment plan was erythromycin capsule 0.25 g once, 3 times/day plus compound liquorice mixture, followed by clarithromycin 0.25 g once, 2-3 times/day plus compound liquorice mixture or clarithromycin 0.25 g once, 2-3 times/day plus compound liquorice mixture; high risk group treatment was macrolide antibiotics (erythromycin, clarithromycin) 0.25 g once, 3 times/day and second generation cephalosporins (cefaclor or cefuroxime) 0.25 g once, 3 times/day plus compound liquorice decoction. ResultsThe clinical seven-day curing rate was 54.1%, and the total effective rate was 93.1%. For low risk treatment regimen, the sevenday curing rate was 63.6%, and the total effective rate was 94.9%; for high risk treatment regimen, the seven-day curing rate was 34.0%, and the total effective rate was 89.4%. Acute bronchitis had high curing rate which was 70.1%. ConclusionMacrolide antibiotics (erythromycin, clarithromycin) oral administration in the treatment of lower respiratory tract infection is reliable and effective, which is worth promoting in clinical application.
Objective To explore the distribution of bacteria among community acquired lower respiratory tract infection (LRTI) inpatients with underlying chronic respiratory tract diseases.Methods The clinical data,sputum culture and drug susceptibility results of 212 community acquired LRTI patients who were hospitalized during the period 2001-2005 were retrospectively analyzed.All patients had various underlying chronic respiratory tract diseases.Results A total of 229 strains of pathogens were detected,with the majority being gram negative bacteria.In pathogens of acute exacerbation of chronic obstructive pulmonary disease,gram negative bacteria occupied 73.9%.And Pseudomonas aeruginosa and Klebsiella pneumoniae were the most common pathogens,with each occupying 18.2% and 13.6% respectively.Gram positive bacteria occupied 23.8%,mainly Staphylococcus aureus (10.2%) and Streptococcus pneumoniae (9.1%).In patients with bronchiectasis exacerbated by bacterial infection,86.2% were caused by gram negative bacteria,the top three being,in descending order,Pseudomonas aeruginosa (27.5%),Haemophilus parainfluenzae (13.7%),and Haemophilus influenzae (11.8%).Bronchiectasis was the major risk factor of getting Pseudomonas aeruginosa infection (OR=5.590,95%CI 2.792~11.192).The risk factors of getting Acinetobacter baumanii infection were antacid usage within 1 month (OR=9.652,95%CI 2.792~11.192) and hypoalbuminemia (OR=2.679,95%CI 1.108~6.476).For enterobacters infections,including Klebsiella pneumoniae,Enterobacter cloacae and Escherichia coli,the risk factors were antibiotic usage within 1 month (OR=4.236,95%CI 1.982~9.057),having renal diseases (OR=4.305,95%CI 1.090~17.008) and diabetes mellitus (OR=2.836,95%CI 1.339~6.009).Conclusions Gram negative bacteria were the main pathogens of community acquired LRTI in hospitalized patients with underlying chronic respiratory tract diseases.The pathogens were influenced by underlying diseases,severity of diseases and drug usage history of patients.
Objective To investigate the differences in bacteria distribution and drug resistance of pathogens in patients with lower respiratory tract infection between respiratory general wards and respiratory intensive care unit ( RICU) .Methods All the clinical isolates fromsputumor secretion of lower respiratory tract from2007. 1-2010. 10 were analyzed retrospectively. Antibiotic susceptibility was tested by Kirby-Bauer method. Results The total number of isolated strains was 3202. Among 1254 strains isolated from respiratory general wards, Gram-positive bacteria accounted for 2. 63% , Gram-positive bacteria accounted for 42. 42% , and fungi accounted for 54. 95% . Streptococcus pneumoniae ranked first place among Gram-positive bacteria, accounting for 51. 52% . Haemophilus parainfluenzae bacillus ranked first place among Gramnegative bacteria, accounting for 21. 99% . Both were sensitive to the most commonly used antibiotics. Among 1948 strains isolated from RICU ward, Gram-positive bacteria accounted for 4. 52% , Gram-positive bacteria accounted for 37.73% , and fungi accounted for 57. 75% . Staphylococcus aureus ranked first place among Gram-positive bacteria, accounting for 52. 27% . Acinetobacter baumannii ranked first place in Gramnegative bacteria, accounting for 27. 35% . Both were resistant to most commonly used antibiotics. Pseudomonas aeruginosa had a higher rate of infection both in the general wards and RICU, and was resistant to most commonly used antibiotics.Conclusions In lower respiratory tract infection of respiratory general ward, Gram-positive bacteria with Streptococcus pneumoniae mainly and Gram-negative bacteria with Haemophilus parainfluenzae mainly are both sensitive to the most commonly used antibiotics. While in the RICU ward, Gram-positive bacteria infections with Staphylococcus aureus mainly and Gram-negative bacteria infections with Acinetobacter baumannii mainly are both resistant to most commonly used antibiotics.
Objective To explore the application value of Mycoplasma pneumoniae (MP) rapid culture technique for diagnosis of lower respiratory tract infections (LRTIs ) inpatients. Methods 120 LRTIs inpatients in respiratory ward,Anzhen hospital from January 1,2010 to December 31,2010,were recruited in this study. Their pharynx swabs were obtained for rapid MP culture and the serum antibody detection of MP was performed by Gelatin particle agglutination method. Results There were 33 positive yields in 120 LRTIs patients by rapid culture method and 24 positive yields by serological assay. The positive rates were 27.5% and 20.0% respectively. There was no significant difference in the two detecting methods (Pgt;0.05). Conclusions MP rapid culture method is a better early diagnostic method at the present. MP rapid culture method combined with serological detection can improve the positive yield and avoid missed diagnosis.