【Abstract】 Objective To analyze the lung pathological features of type A H1N1 influenza and respiratory failure. Methods The data of imaging and aspiration lung biopsy of five patients with type A H1N1 influenza and respiratory filure since October 2009 were retrospectively analyzed. Results Common clinical manifestations of patients with type A H1N1 influenza and respiratory failure were rapid progress of illness after common cold-like symptoms with high fever, dyspnea, severe hypoxemia, large amounts of bloody sputum, wet rales over both lungs, and with other organs involved or even septic shock. Early lung pathological features were inflammatory exudate in alveoli and lung interstitium, infiltration of inflammatory cells, and extensive hemorrhage. Middle and late pathological features were hyperplasia of alveolar epithelial,disconnection of alveolar septa, replaced of alveolar spaces by fibrosis. Conclusions The pathology of patients with type A H1N1 influenza and respiratory failure is similiar with ARDS. Development of treatment strategies targeted to pathological characteristics of ARDS caused by type A H1N1 influenza is of greatsignificance for effective and timely treatment.
Objective To investigate the free influenza vaccination of health care workers in major departments and explore the possible influencing factors of influenza vaccination of staff. Methods In November 2021, a questionnaire survey was conducted among health care workers who received free influenza vaccination in 19 major departments of West China Hospital of Sichuan University, and the un-vaccinated workers’ information was obtained from the registration system of staff information. Multiple logistic regression model was used to analyze the possible influencing factors of free influenza vaccination. Results The coverage rate of centralized free influenza vaccination of staff in major departments was 32.7% (1101/3369). Multiple logistic regression analysis showed that workers who were female [odds ratio (OR)=1.853, 95% confidence interval (CI) (1.481, 2.318), P<0.001], with an educational background of high school or below [OR=4.304, 95%CI (2.484, 7.455), P<0.001], engaged in nursing work [OR=2.341, 95%CI (1.701, 3.221), P<0.001], and with 11 or more years of working experience [OR=2.410, 95%CI (1.657, 3.505), P<0.001] were more likely to inject influenza vaccine, and workers who had a bachelor’s degree were less likely to inject influenza vaccine. Conclusions The rate of free influenza vaccination among medical staff is low. In order to mobilize the enthusiasm of influenza vaccination among medical staff, it is necessary to analyze the characteristics of the population and take targeted measures to improve the level of vaccination among medical staff.
Objective To investigate specific changes of T cell repertoire in convalescent patients infected by influenza A (H7N9) virus. Methods Peripheral blood samples from 8 convalescent patients infected by H7N9 virus and 10 healthy donors were collected. After extracting whole DNA from these samples, arm-PCR were performed and the products were submitted to Illumina HiSeq2000 platform to produce deep sequencing data of the nucleotide sequences of complementary determining region 3 of T cell receptor β chain (TRB). Differences were compared in TRB diversity and V-D-J gene usage and similarities of sequences between the patients and the healthy donors. Results Frequency of V-D-J gene usage was different between the H7N9 patient group and the healthy group, such as TRBV30, TRBV27, and TRBV18 (Student's t test, P < 05). Main component analysis showed V-J pairing pattern was significantly different between two groups, which may have potential in identifying patients from healthy people. A considerable number of shared CDR3s were found in patient-patient pairs and normal-normal pairs, while seldom were found in patient-normal pairs. The similarity between patients was also confirmed by overlap distance analysis. Indexes for assessing diversity of immune repertoires, Shannon-Weiner index and Simpson index, were both lower in the patients (Student's t test, P < 05), suggesting that the immune system of the patients had not recovered 6 months after H7N9 infection. Compared with the healthy donors, the number of hyper-expression clones increased in the patient group, and some of them showed similarity among patients. Conclusions TRB repertoires are less diverse in patients with increased hyper-expressed clones and identifiable V-J usage pattern, which is identifiable from normal population. These results suggest that there are H7N9-specific changes in TRB repertoires of H7N9 infected patients in convalescent phase, which have potential implication in diagnosis and therapeutic T cell development.
Objective To establish and verify the early prediction model of critical illness patients with influenza. Methods Critical illness patients with influenza who diagnosed with influenza in the emergency departments from West China Hospital of Sichuan University, Shangjin Hospital of West China Hospital of Sichuan University, and Panzhihua Central Hospital between January 1, 2017 and June 30, 2020 were selected. According to K-fold cross validation method, 70% of patients were randomly assigned to the model group, and 30% of patients were assigned to the model verification group. The patients in the model group and the model verification group were divided into the critical illness group and the non-critical illness group, respectively. Based on the modified National Early Warning Score (MEWS) and the Simplified British Thoracic Society Score (confusion, uremia, respiratory, BP, age 65 years, CRB-65 score), a critical illness influenza early prediction model was constructed and its accuracy was evaluated. Results A total of 612 patients were included. Among them, there were 427 cases in the model group and 185 cases in the model verification group. In the model group, there were 304 cases of non-critical illness and 123 cases of critical illness. In the model verification group, there were 152 cases of non-critical illness and 33 cases of critical illness. The results of binary logistic regression analysis showed that age, hypertension, the number of days between the onset of symptoms and presentation at the emergency department, consciousness state, white blood cell count, and lymphocyte count, oxygen saturation of blood were the independent risk factors for critical illness influenza. Based on these 7 risk factors, an early prediction model for critical illness influenza was established. The correct percentages of the model for non-critical illness and critical illness patients were 95.4% and 77.2%, respectively, with an overall correct prediction percentage of 90.2%. The results of the receiver operator characteristic curve showed that the sensitivity and specificity of the early prediction model for critical illness influenza in predicting critical illness patients were 0.909, 0.921, and the area under the curve and its 95% confidence interval were 0.931 (0.860, 0.999). The sensitivity, specificity, and area under the curve (0.935, 0.865, 0.942) of the early prediction model for critical illness influenza were higher than those of MEWS (0.642, 0.595, 0.536) and CRB-65 (0.628, 0.862, 0.703). Conclusions The conclusion is that age, hypertension, the number of days between the onset of symptoms and presentation at the emergency department, consciousness, oxygen saturation, white blood cell count, and absolute lymphocyte count are independent risk factors for predicting severe influenza cases. The early prediction model for critical illness patients with influenza has high accuracy in predicting severe influenza cases, and its predictive value and accuracy are superior to those of the MEWS score and CRB-65 score.
ObjectiveTo analyze the clinical data of pregnant females and children infected with H1N1 during the global pandemic in 2009, and summarize the epidemiological characteristics.MethodsPubMed, EMbase, The Cochrane Library, CNKI, VIP and WanFang Data databases were searched to collect studies on H1N1 infection in pregnant females and children during the 2009 pandemic from January 1st, 2009 to February 17th, 2020. Two reviewers independently screened literature, extracted data and assessed risk of bias of included studies, then, epidemiological characteristics were descriptively analyzed.ResultsA total of 33 studies involving 939 children, 5 newborns and 2 416 maternal infections were included. The results showed that the age span of children was 0 to 18, the male-to-female ratio was 1.2:1, and the history of close contact accounts was 18.8% (80/425). The primary symptoms were fever, cough, headache, vomiting and other symptoms in some children. More than half of the children received oseltamivir antiviral treatment (545/807, 67.5%), and 6 died (6/861, 0.7%). The primary symptoms of pregnant females were fever, cough, sore throat, muscle pain, fatigue, headache, diarrhea, and so on. The majority of patients received antiviral therapy (1 571 to 1 783, 88.1%). A total of 178 mortalities (178/2 335, 7.6%), 48 stillbirths (48/966, 5.0%), and 9 live birth mortalities (9/494, 1.8%) were reported. All 5 newborns were positive for RT-PCR detection, including 4 premature infants. The mode of transmission was close contact in 3 cases (including 1 case in contact with sick medical staff), 1 case of vertical transmission from mother to child, and 1 case of unknown. The primary clinical manifestation of newborns was dyspnea. After treatment with oseltamivir, 4 cases were cured and 1 case deceased.ConclusionsPregnant females and children are at high risk of serious complications of H1N1 influenza. H1N1 infection in pregnancy is associated with an increased risk of adverse pregnancy outcomes. The symptoms of H1N1 infection in children and pregnant females are similar to those in adults, primarily respiratory and systemic symptoms. Oseltamivir and zanamivir are effective antiviral drugs.
ObjectiveTo evaluate the effect of low-to-moderate doses of corticosteroids on human infections with avian influenza A (H7N9) virus, and explore when to initiate the treatment of corticosteroids and the duration of corticosteroids administration.MethodsThe study collected clinical data of 8 cases with avian influenza A (H7N9) virus infection admitted from January 25, 2017 to May 12, 2017. The final analysis included 5 severe patients who had received adjuvant corticosteroid treatment. The variation curves of WBC, CRP, PCT, CK, HBDH, LDH, temperature, ratio of SpO2/FiO2 were depicted and analyzed. The progress of clinical improvements, deterioration and prognosis were observed and discussed.ResultsThere were 1 female and 4 males in the 5 included patients with a median age of 58.0 years, among them 3 survived. The median time of illness onset to hospitalization and diagnosis confirmed were 4 days and 8 days respectively; the median duration of hospitalization to admission to infective ICU were 3 days. The first course of adjuvant corticosteroid treatment was initiated 11 days (median) after admission with a duration of 4 days (median), during which, the serum levels of HBDH and LDH decreased remarkably except the patient 3, and the oxygenation (SpO2/FiO2) improved except the patient 3. The second course of systemic administration of corticosteroid was given at a median of 26.5 days after admission with a duration of 9 days (median), during which, the patients survived with improved oxygenation (SpO2/FiO2), and weaned from mechanical ventilation.ConclusionsFor patients suffered severe human infection with avian influenza A (H7N9) virus, low-to-moderate doses of corticosteroids may decrease the level of inflammation, regulate the aberrant immune response, improve the oxygenation, make an early unassisted breathing. And corticosteroids treatment can be initiated at the time of disease deterioration, after/at the peak inflammatory response, and within 10-14 days of ARDS. Also, the adjuvant corticosteroids may be administered when oxygenation is dificult to be improved by other ways, or dificult to be liberated from mechanical ventilation, suffering severe septic shock, and refractory fever. And the duration of corticosteroids may be prolonged to 10-14 days, or until the higher level of HBDH and LDH decreased again.
Objective To investigate the clinical characteristics of patients with sever H1N1 influenza in Xinjiang region, and analyze risk factors related to patients’prognosis. Methods 63 patients with severe H1N1 influenza from September 2009 to December 2009, who came from five general hospitals and contagious disease hospitals were retrospectively studied. Data of baseline characteristics, treatment, and outcomes were collected. Results Among the 63 cases of severe H1N1 influenza patients, 46 patients survived, in which 30 cases were complicated with pneumonia( 63. 8% ) , 10 cases with MODS ( 43. 48% ) ;26 were male,20 were female; the median age was ( 28. 48 ±19. 59) years old.17 patients died, in which 11 were male, 6 were female; the median age was ( 39. 47 ±21. 23) years old. There were no significantdifferences in white blood cells, neutrophils, granulocytes, lymphocytes, Hb, platelets, CK-MB, HB, DH, UN,APTT, INR, K+ , Na+ , Cl - , PaO2 , SaO2 between the survival patients and the died patients ( P gt; 0. 05) .However there were significant differences in AST, ALT, CK, LDH, AL, CR, and pH ( P lt; 0. 05) .Conclusions Most of the patients with sever H1N1 influenza are young. The typical clinical manifestations are fever, cough, and expectoration. The patients usually are complicated with pneumonia. The patients complicated with MODS have a higher risk of death. Early administration of effective antiviral agents, low dose corticosteroids, and reasonable mechanical ventilation may improve the prognosis.
摘要:目的: 探讨传染病医院工作人员对甲型H1N1流感医院感染控制知识的认知程度。 方法 :选择救治甲型H1N1流感期间传染病医院不同岗位工作人员进行无记名自填式调查问卷。 结果 :全院对甲型H1N1流感医院感染控制认知总体情况良好,认知的薄弱环节是对防护措施,尤其是一级防护和三级防护的认知;不同工作岗位的工作人员对甲型H1N1流感医院感染控制认知程度不同,与甲型H1N1流感有接触的工作人员认知度高于其他工作人员,中高级职称、高年龄段(35岁以上)的医务人员认知度高于初级职称及低年龄段(35岁以下)的医务人员。 结论 :针对薄弱环节,进一步加强全员医院感染控制知识、技能的培训考核。Abstract: Objective: To explore the knowledge about the Influenza A (H1N1) of Chengdu Hospital for Infectious Diseases ‘s staff. Methods : Different medical staff of the infectious Disease Hospital during the influenza A (H1N1) treatment in Chinese mainland was selected to fill in anonymous questionnaire. Results : The awareness of the hospital is well about the hospital infection control to Influenza A (H1N1). Preventive measure is weak, especially about the primary barriers and the third barriers. The different position awareness is different. The staff who is in touch with Influenza A (H1N1) is more awareness than the others, the senior and intermediate title is more awareness than the Junior Title, the high ages group(over 35 ages) is more awareness than the low ages group (under 35 ages). Conclusion : For the weak link, further strengthens the entire hospital infection control knowledge, skills training and examination.
In order to investigate immune protection against swine-origin influenza virus (S-OIV) A H1N1, the helper-dependent adenovirus vector (HDAd) system was exploited to construct recombinant HDAd encoding hemagglutinin (HA). The HA gene was synthesized and cloned to the HDAd backbone. Then, the HDAd/HA DNA molecules were transfected into 293Cre4 cells with calcium phosphate. The cells were infected by helper virus 16 hours after the transfection. The 293Cre4 cells were coinfected with HDAd/HA and the helper virus for large-scale preparation of HDAd/HA. The HDAd/HA was obtained and purified twice with CsCl density ultracentrifugation and observed morphologically under transmission electron microscope, and the expression of HA protein was analyzed with RT-PCR. Recombinant HDAd/HA expressing HA protein was successfully constructed which could pave the way for in vivo investigation on immunogenicity and efficacy against S-OIV A H1N1 infection.
Objective Since the first case of avian influenza A (H7N9) virus infection in humans identified in Suining, Sichuan province on January 25th, 2017, there were other five severely ill patients confirmed in the following 3 weeks. It is urgent to find out the common clinical characters of these patients, so that to make sure the optimal ways for early diagnosis and treatment for H7N9 virus infection in community hospitals or primary hospitals as soon as possible. Methods The early symptoms, the data of early laboratory findings, the early imaging study, the early process of diagnosis and treatment of these six patients were collected and analyzed. Results All six patients had high fever, dry cough, hypocalcemia, and hypophosphatemia, with advanced CT image lesions manifested as consolidation and ground-grass opacity in bilateral lower lung lobes. Some patients had typically leukopenia, lymphopenia, thrombocytopenia. And most of them had a history of direct exposure to live poultry before complaining of flu-like syndromes. However, the flu can not be effectively controlled by routine anti-infection. Conclusion The human infection with H7N9 virus can be early identified by combining the epidemiology of live poultry exposure, the symptoms of high fever, dry cough, dramatical leukopenia, lymphopenia, thrombocytopenia, the typical CT image, and the rapidly worsen clinical condition.