PedAM
Pediatric Disease Annotations & Medicines
| Disease | avian influenza |
| Symptom | |infections |
| Sentences | 90 |
| PubMedID- 24406432 | While human infections with avian influenza viruses are usually associated with subtypes prevalent in poultries, a(h10n8) isolates were mostly found in migratory birds and only recently in poultries. |
| PubMedID- 21683456 | In the poultry industry, infections with avian influenza virus (aiv) can result in significant economic losses. |
| PubMedID- 25589974 | Similar to previous infections with avian influenza a (h7n9) virus, the patient presented with both upper and lower respiratory tract symptoms. |
| PubMedID- 24950786 | While there are other potential explanations for this large number of human infections with an avian influenza virus, we investigated whether a lack of conserved t-cell epitopes between endemic h1n1 and h3n2 influenza viruses and the novel h7n9 virus contributes to this observation. |
| PubMedID- 25091477 | A clinical prediction rule for diagnosing human infections with avian influenza a(h7n9) in a hospital emergency department setting. |
| PubMedID- 23365683 | However, sporadic zoonotic infections with avian influenza viruses of subtypes h5, h7 and h9 have been documented. |
| PubMedID- 24457138 | According to epidemiologic and clinical data for infections with avian influenza a(h7n9) virus, most patients with severe illness, including severe pneumonia and acute respiratory distress syndrome, were elderly men with underlying medical conditions (2,3). |
| PubMedID- 20140096 | Overall, clinical signs and pathology were of much greater severity than those caused by infections with avian influenza viruses, such as highly pathogenic h5n1 or low pathogenic viruses of different subtypes, in pigs infected experimentally –. |
| PubMedID- 23611031 | Specific detection by real-time reverse-transcription pcr assays of a novel avian influenza a(h7n9) strain associated with human spillover infections in china. |
| PubMedID- 24129555 | Purpose: human infections with avian influenza a (h7n9) virus manifested in china in march 2013. |
| PubMedID- 24072008 | The estimated auc value of 0.974 (95% ci 0.963–0.986) indicated an excellent prediction of the risk for emergence of human infections with avian influenza a (h7n9) virus. |
| PubMedID- 25291577 | Importance: human infections with avian influenza a/h7n9 have resulted in high morbidity and mortality in china. |
| PubMedID- 20845756 | Current situation in human infections with highly pathogenic avian influenza viruses. |
| PubMedID- 23816392 | infections with low pathogenic avian influenza (lpai) a(h7n9) viruses have caused more than 100 hospitalized human cases of severe influenza in china since february 2013 with a case fatality rate exceeding 25%. |
| PubMedID- 23879887 | Previous human infections with avian influenza a(h7) viruses (i.e., subtypes h7n3, h7n2, and h7n7) have been generally mild, causing conjunctivitis, with the exception of very occasional cases of pneumonia and a single fatal case in the netherlands in a highly exposed veterinarian (5–10). |
| PubMedID- 24678603 | The epidemiologic surveys were carried out by epidemiologists from hangzhou city and the local districts and counties, following 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). |
| PubMedID- 25912029 | Indonesia has reported the most human infections with highly pathogenic avian influenza (hpai) a(h5n1) virus worldwide. |
| PubMedID- 23611030 | The recently identified human infections with avian influenza a(h7n9) viruses in china raise important questions regarding possible source and risk to humans. |
| PubMedID- 23658611 | Years of endemic infections with highly pathogenic avian influenza (hpai) a subtype h5n1 virus in poultry and high numbers of infections in humans provide ample opportunity in egypt for h5n1-hpaiv to develop pandemic potential. |
| PubMedID- 21356136 | In very severe, and often fatal cases of influenza, the infection will spread to the lower lungs as observed, for example, in some infections with avian influenza strains . |
| PubMedID- 25360327 | Author response: human infections with avian influenza a(h7n9): preliminary assessments of the age and sex distribution. |
| PubMedID- 24886478 | As human infections with avian influenza a h7n9 virus are emerging, there is limited information about them. |
| PubMedID- 26263554 | Background: human infections with avian influenza viruses (aivs) have frequently raised global concerns of emerging, interspecies-transmissible viruses with pandemic potential. |
| PubMedID- 26248076 | In april 2013, human infections with a novel avian influenza (h7n9) virus emerged in china. |
| PubMedID- 24015363 | Human infections with avian influenza a(h7n9) virus in china: preliminary assessments of the age and sex distribution. |
| PubMedID- 24744816 | For example, on march 29, 2013, the chinese center for disease control and prevention discovered three human infections with an avian influenza a (h7n9) 7. |
| PubMedID- 25759292 | infections with avian influenza viruses (aiv) of low and high pathogenicity (lp and hp) and newcastle disease virus (ndv) are commonly reported in domestic ducks in many parts of the world. |
| PubMedID- 23803487 | Interpretation: human infections with avian influenza a h7n9 virus seem to be less serious than has been previously reported. |
| PubMedID- 24069191 | infections with avian influenza viruses, which usually occur after exposure to poultry and/or wild birds, are commonly characterized by conjunctivitis, upper and/or lower respiratory tract disease, pneumonia, and multiple organ failure . |
| PubMedID- 24055355 | In recent years, numerous human infections with avian influenza viruses in asia have raised the concern that the next influenza pandemic is imminent. |
| PubMedID- 25599373 | Cluster of human infections with avian influenza a (h7n9) cases: a temporal and spatial analysis. |
| PubMedID- 24478920 | Letter to the editor: human infections with avian influenza a(h7n9): preliminary assessments of the age and sex distribution. |
| PubMedID- 23400898 | Prospective data from this cohort will help the authors to better understand the occurrence of zoonotic infections due to avian influenza viruses in nigeria. |
| PubMedID- 23657113 | On march 29, 2013, the chinese center for disease control and prevention completed laboratory confirmation of three human infections with an avian influenza a(h7n9) virus not previously reported in humans. |
| PubMedID- 24116152 | Human infections attributable to an avian influenza virus have thus far been limited to the h5, h7, and h9 subtypes –. |
| PubMedID- 23290389 | Background: cases of human infections with h5n1 avian influenza viruses have been reported all over the world with the reason of direct contact with sick or diseased poultry, which suggests the direct contact with poultry may be one of the major risk factors for human infection. |
| PubMedID- 25962780 | The first wave of human infections with avian influenza a(h7n9) virus began in spring and subsided by summer 2013 in china . |
| PubMedID- 24507376 | Background: human infections with different avian influenza viruses--eg, h5n1, h9n2, and h7n9--have raised concerns about pandemic potential worldwide. |
| PubMedID- 24380097 | Distributive characteristics and sources of exposure of human infections with avian influenza a (hn7n9) virus in hangzhou, zhejiang province. |
| PubMedID- 20053294 | During the time of this study, human infections with highly pathogenic avian influenza a (h5n1) virus were common in the survey area. |
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