PedAM
Pediatric Disease Annotations & Medicines
| Disease | avian influenza |
| Symptom | C0021311|infections |
| Sentences | 90 |
| PubMedID- 25286879 | Epidemiology of human infections with avian influenza a(h7n9) virus in the two waves before and after october 2013 in zhejiang province, china. |
| PubMedID- 23990172 | The epidemiological case survey was conducted according to the prevention and control protocol for human infections with avian influenza a(h7n9), 1st edition, issued by the national health and family planning commission (nhfpc) of the people’s republic of china, to trace the infection sources, observe the patient’s close contacts, and to disinfect his household. |
| PubMedID- 25406382 | Consequently, infections with avian influenza viruses bearing one of these hemagglutinins may cause enhanced disease in mammals, and therefore surveillance for human infections with these subtypes may be important in controlling future outbreaks. |
| PubMedID- 26292325 | Human infections with avian influenza viruses are a serious public health concern. |
| PubMedID- 25180852 | Human infections with avian influenza a viruses are rare and may cause a wide spectrum of clinical symptoms. |
| PubMedID- 25598263 | Spatial aggregation of 438 human infections with avian influenza a (h7n9) in the mainland of china. |
| PubMedID- 23445660 | infections with highly pathogenic avian influenza viruses (hpaiv) in humans lead to systemic disease associated with cytokine storm and multiorgan failure. |
| PubMedID- 25574798 | Since december 2013, at least three cases of human infections with h10n8 avian influenza virus have been reported in china, two of them being fatal. |
| PubMedID- 25003087 | Zoonotic infections with avian influenza a viruses and vaccine preparedness: a game of "mix and match". |
| PubMedID- 23623390 | Human infections with the emerging avian influenza a h7n9 virus from wet market poultry: clinical analysis and characterisation of viral genome. |
| PubMedID- 20408403 | Natural infections with different subtypes of low pathogenicity avian influenza viruses (lpaivs) are very common in wild duck populations. |
| PubMedID- 25880060 | Human infections with such avian influenza viruses have ranged from mild symptoms (e.g., conjunctivitis and influenza-like illness) to severe disease, including deaths . |
| PubMedID- 24667532 | Background: human infections with highly pathogenic avian influenza (hpai) a (h5n1) viruses have occurred in 15 countries, with high mortality to date. |
| PubMedID- 25746173 | The third section reviews experimental infections of nhps with avian influenza viruses that have caused disease in humans since 1997. |
| PubMedID- 20824086 | Human infections with subtype h7 avian influenza viruses have been reported as early as 1979. |
| PubMedID- 25933138 | Results: there were 109 human infections with h7n9 avian influenza in guangdong, of which 37 (34%) died. |
| PubMedID- 21513552 | Human infections with avian influenza viruses have been reported for the subtypes h5, h7, and h9 1. |
| PubMedID- 26334134 | In addition, sporadic infections of humans with avian influenza a viruses of the h5n1 or h7n9 subtypes (resulting in case fatality rates of ∼60 and ∼30%, respectively) (http://www.who.int/influenza/human_animal_interface/en_gip_20140124cumulativenumberh5n1cases.pdf?ua=1)23 have been a major public health concern. |
| PubMedID- 23651506 | Human infections with avian influenza are rare and this is the first time that human infection with a low pathogenic avian influenza a virus has been associated with fatal outcome. |
| PubMedID- 25222852 | The recently identified human infections with a novel avian influenza h7n9 virus in china raise important questions regarding possible risk to humans. |
| PubMedID- 23803488 | Comparative epidemiology of human infections with avian influenza a h7n9 and h5n1 viruses in china: a population-based study of laboratory-confirmed cases. |
| PubMedID- 25962412 | The first human infections with avian influenza a(h7n9) viruses were reported on march 31, 2013. to date, there have been a total of 608 human infections with a 34% fatality rate. |
| PubMedID- 22167468 | Although only h1 and h3 influenza subtypes have widely circulated and caused disease in pig populations worldwide, h9 subtype is being continuously detected in pigs in asia, plus sporadic infections with highly pathogenic h5-avian influenza viruses. |
| PubMedID- 22763823 | Human infections with highly pathogenic avian influenza (hpai) h5n1 have been associated with central nervous system involvement. |
| PubMedID- 20875281 | Thus, knowledge about preventing human infections with avian influenza viruses is essential. |
| PubMedID- 26197184 | Importance: human infections with the avian influenza a(h7n9) virus were first reported in china in 2013 and continue to occur. |
| PubMedID- 21108843 | In this study, the repertoire of host cellular cytokine and chemokine responses to infections with highly pathogenic avian influenza h5n1, low pathogenicity avian influenza h9n2 and seasonal human influenza h1n1 were compared using an in vitro system based on human pulmonary epithelial cells. |
| PubMedID- 20861597 | Human infections with avian influenza a (h5n1) are relatively rare but are associated with high mortality. |
| PubMedID- 25183346 | The ongoing human h7n9 influenza infections highlight the threat of emerging avian influenza viruses. |
| PubMedID- 25523971 | Clinical severity of human infections with avian influenza a(h7n9) virus, china, 2013/14. |
| PubMedID- 25679797 | To detect prior infections with avian influenza viruses (aiv) and avian paramyxoviruses (apmv) serum samples were analyzed by elisa and hemagglutination inhibition assays (hi-test). |
| PubMedID- 21445292 | Thus, there is an urgent need to conduct more epidemiologic studies in egypt and other endemic areas to enhance our understanding of incidence, prevalence, and determinants of human infections with avian influenza. |
| PubMedID- 25623455 | Conclusion: human infections with avian influenza a (h7n9) virus showed the characteristics of obvious seasonal distribution, with certain regional clusters. |
| PubMedID- 20167132 | Background: virological, molecular and serological studies were carried out to determine the status of infections with avian influenza viruses (aiv) in different species of wild waterbirds in iran during 2003-2007. |
| PubMedID- 23687225 | If we assume that infections with avian influenza viruses are rare, then the most likely explanation for the titer signals we observe to avian influenza virus antigens is cross-reactivity of antibodies generated by past infections with human influenza virus . |
| PubMedID- 24143251 | Most human infections with avian influenza a (h7) viruses exhibit mild symptoms or present as latent infections. |
| PubMedID- 26006118 | In addition, human infections with avian influenza a (h7n9) and (h10n8)9, as well as outbreaks of h5n2 in poultry reported in mainland suggest the dynamic course and possibility of ongoing viruses’ reassortment. |
| PubMedID- 26432409 | Objectives: the aim of this study was to assess cyber-user awareness of human infections with avian influenza a h7n9 in zhejiang, china. |
| PubMedID- 22586427 | Prophylactic effects of human plasma from a vaccinated subject against lethal infections with h5n1 avian influenza virus. |
| PubMedID- 24440770 | Human infections with new avian influenza a (h7n9) virus have been reported in shanghai, anhui, zhejiang, and jiangsu provinces in china beginning march 31, 2013 1. |
| PubMedID- 23614499 | Epidemiology of human infections with avian influenza a(h7n9) virus in china. |
| PubMedID- 23739577 | Preventive effect of extracorporeal membrane oxygenation on complication during treatment of human infections with highly pathogenic avian influenza. |
| PubMedID- 24103105 | The danger posed by h7 viruses is exemplified by recent human infections with h7n9 avian influenza, which had claimed at least 37 lives in china as of 28 may, 2013, and has been associated with an estimated 36% fatality rate amongst cases admitted to hospital. |
| PubMedID- 24488975 | The emergence of human infections with avian influenza a(h7n9) virus further widens thespectrum of novel influenza a viruses that currently pose a threat to public health 1. |
| PubMedID- 21124892 | For infections with avian influenza strains, the predictions made by the single and two target cell models are similar, although the two target cell model predicts that treatment will be slightly more effective than predicted by the single target cell model. |
| PubMedID- 23735331 | High severity and fatality of human infections with avian influenza a(h7n9) infection in china. |
| PubMedID- 25940623 | For example, very recently, several cases of human infections with avian influenza strains h7n9 have been reported in china (2,3). |
| PubMedID- 24383626 | Background: as of 30 may 2013, 132 human infections with avian influenza a (h7n9) had been reported in 10 chinese cities. |
| PubMedID- 23720670 | According to the current literature available, most of human infections with avian influenza a viruses are caused by h7 and h5. |
| PubMedID- 26344949 | In addition, the fear of zoonotic infections with avian influenza viruses and recurrent outbreaks of highly pathogenic influenza in poultry farms, killing vast numbers of animals in a very short time, comes with a huge cost for society. |
Page: 1 2