Most subtypes of avian influenza that have caused human infections are H5, H7, and H9 viruses. Most cases of avian influenza in humans have been caused by Asian strains H5N1 and H7N9, but other types have also caused some human infections. Avian influenza infections are often asymptomatic in wild birds but may cause highly lethal illness in domestic poultry. Marine mammals can also become infected with avian influenza strains (eg, H10N7 in harbor seals), with subsequent human infection reported.
Humans can become infected with avian influenza viruses through inhalation of or direct contact with secretions (saliva, mucous, or feces) from infected birds. It is likely that avian influenza viruses of any antigenic specificity can cause influenza in humans whenever the virus acquires mutations, enabling it to attach to human-specific receptor sites in the respiratory tract. Because all influenza viruses are capable of rapid genetic change, avian strains could possibly acquire the ability to spread more easily from person-to-person via direct mutation or via reassortment of genome subunits with human strains during replication in a human, animal or, avian host. If these strains acquire the ability to spread efficiently from person to person, an influenza pandemic could result.
All cases of human infection with an influenza A subtype other than H1 or H3 must be reported.
China's 6th wave of H7N9 avian influenza in humans peaked in 2016-2017 with nearly 800 cases, and only sporadic cases have been reported since that time. Worldwide, over 1500 human cases and at least 615 deaths have been reported to the World Health Organization since 2013 (1). Some cases of Asian H7N9 avian influenza have been reported outside of mainland China, but most occurred in people who had traveled to mainland China before becoming ill.
Human infection with other avian influenza strains have occurred sporadically, including H7N3 in Canada, H7N7 in the Netherlands, H7N4 and H9N2 mainly in China.
Surveillance data indicate that many avian influenza infections may cause mild respiratory symptoms or even be subclinical. However, severe pneumonia with high case fatality rates has been reported in H5N1, H5N6 and H7N9 clusters.
Symptoms and Signs of Avian Influenza
Manifestations of avian influenza are the same as those of seasonal influenza; however, disease severity and case fatality rate tend to be higher, although with wide variation depending on the viral strain.
Diagnosis of Avian Influenza
Reverse transcriptase–polymerase chain reaction (RT-PCR)
Oseltamivir or zanamivir (neuraminidase inhibitors)
Baloxavir (endonuclease inhibitor)
An appropriate clinical syndrome in a patient exposed to a person known to be infected or exposed to birds in an area with an ongoing avian influenza outbreak should prompt consideration of this infection. History of recent travel to regions with ongoing transmission of virus from domestic poultry to humans (eg, for H5N1, Egypt, Indonesia, and Vietnam) plus exposure to birds or infected people should prompt testing for influenza A by RT–PCR using a nasal or throat swab. Patients with lower respiratory tract illness can have samples taken from sputum, endotracheal aspirate, or bronchoalveolar lavage fluid. Culture of the organism should not be attempted because special precautions are required for these highly pathogenic viruses.
Suspected and confirmed cases are reported to the Centres for Disease Control and Prevention.
Treatment Of Avian Influenza
Treatment with oseltamivir or zanamivir (neuraminidase inhibitors) at usual doses is indicated.
The H7N9 and H5N1 viruses are resistant to the earlier antiviral drugs amantadine and rimantadine; resistance or reduced susceptibility to oseltamivir has also been reported.
The antiviral drug baloxavir is a polymerase acidic endonuclease inhibitor that is indicated for treatment of patients ≥ 12 years of age with acute uncomplicated influenza who have been symptomatic for ≤ 48 hours.
Prevention Of Avian Influenza
China has active poultry vaccination campaigns for H5 and H7 influenza viruses to help prevent the spread from wild to domestic birds, which are more likely to come in contact with and spread the virus to humans. Spread is contained by identifying and destroying infected flocks of domestic birds. A vaccine for H5N1 bird flu is available for distribution if deemed necessary by public health authorities. The standard vaccine for influenza does not prevent bird flu.