This is a table of type quadgram and their frequencies. Use it to search & browse the list to learn more about your study carrel.
quadgram | frequency |
---|---|
influenza a h n | 581 |
in the united states | 465 |
of influenza a virus | 387 |
influenza a and b | 372 |
h n influenza virus | 293 |
n and h n | 243 |
h n and h | 242 |
highly pathogenic avian influenza | 216 |
severe acute respiratory syndrome | 208 |
of influenza a viruses | 205 |
h n influenza a | 198 |
a h n virus | 191 |
h n influenza viruses | 187 |
pandemic h n influenza | 174 |
of pandemic influenza a | 170 |
h n avian influenza | 168 |
of the influenza virus | 168 |
disease control and prevention | 160 |
of h n influenza | 158 |
influenza a virus infection | 151 |
for disease control and | 151 |
of the influenza a | 148 |
the influenza a virus | 144 |
of the h n | 143 |
a and b viruses | 141 |
centers for disease control | 139 |
of avian influenza a | 133 |
for the treatment of | 128 |
on the other hand | 126 |
of influenza a and | 125 |
as well as the | 124 |
acute respiratory distress syndrome | 120 |
in the absence of | 119 |
the h n virus | 114 |
the world health organization | 114 |
has been shown to | 110 |
the h n pandemic | 110 |
in the case of | 108 |
safety and immunogenicity of | 108 |
on the basis of | 108 |
in the context of | 107 |
avian influenza h n | 106 |
n influenza a virus | 103 |
the pandemic h n | 101 |
h n influenza in | 98 |
of influenza c virus | 96 |
influenza virus infection in | 93 |
highly pathogenic h n | 92 |
systematic review and meta | 89 |
seasonal and pandemic influenza | 88 |
of pandemic h n | 87 |
at the same time | 87 |
with avian influenza a | 86 |
pandemic influenza a h | 86 |
as a result of | 86 |
avian influenza a h | 86 |
the lower respiratory tract | 84 |
and respiratory syncytial virus | 82 |
influenza a virus in | 82 |
a systematic review and | 82 |
at the time of | 82 |
of avian influenza viruses | 81 |
the upper respiratory tract | 80 |
advisory committee on immunization | 80 |
in the treatment of | 80 |
in the presence of | 79 |
influenza a viruses in | 79 |
of influenza virus infection | 79 |
committee on immunization practices | 78 |
prevention and control of | 78 |
of influenza a h | 76 |
influenza and other respiratory | 76 |
the treatment of influenza | 75 |
of human influenza a | 74 |
chronic obstructive pulmonary disease | 74 |
an important role in | 74 |
and other respiratory viruses | 74 |
the h n influenza | 73 |
efficacy and safety of | 73 |
h n virus in | 72 |
in vitro and in | 72 |
detection of influenza a | 72 |
of h n viruses | 71 |
is one of the | 69 |
the ha and na | 69 |
a h n and | 69 |
a wide range of | 68 |
vitro and in vivo | 68 |
for the detection of | 68 |
the advisory committee on | 67 |
in the human population | 67 |
it is important to | 67 |
of h n avian | 67 |
during an influenza pandemic | 66 |
of severe acute respiratory | 66 |
the total number of | 66 |
a and b virus | 65 |
in hong kong in | 65 |
have been shown to | 64 |
one of the most | 64 |
influenza h n virus | 64 |
of highly pathogenic avian | 64 |
a universal influenza vaccine | 63 |
the centers for disease | 61 |
of the advisory committee | 61 |
of an influenza pandemic | 61 |
of influenza in the | 61 |
h n virus infection | 60 |
was found to be | 60 |
studies have shown that | 60 |
h n viruses in | 60 |
the end of the | 60 |
were more likely to | 59 |
patients with influenza a | 59 |
avian influenza a virus | 59 |
of respiratory syncytial virus | 59 |
pandemic h n virus | 58 |
recommendations of the advisory | 58 |
a h n pdm | 58 |
in addition to the | 58 |
after the onset of | 57 |
influenza in the united | 57 |
a license to display | 56 |
medrxiv a license to | 56 |
for influenza a virus | 56 |
to display the preprint | 56 |
who has granted medrxiv | 56 |
during the h n | 56 |
display the preprint in | 56 |
has granted medrxiv a | 56 |
license to display the | 56 |
in the development of | 56 |
h n infection in | 56 |
granted medrxiv a license | 56 |
avian influenza viruses in | 55 |
copyright holder for this | 55 |
n influenza virus infection | 55 |
the copyright holder for | 55 |
and h n influenza | 55 |
h n pdm virus | 54 |
in influenza a virus | 54 |
with influenza a virus | 54 |
n influenza a viruses | 54 |
avian h n influenza | 54 |
transmission of avian influenza | 54 |
respiratory syncytial virus infection | 54 |
treatment of influenza a | 53 |
of h n virus | 53 |
of the pandemic influenza | 53 |
been shown to be | 52 |
a h n viruses | 52 |
middle east respiratory syndrome | 51 |
than years of age | 51 |
pathogenic avian influenza virus | 51 |
it is possible that | 50 |
for the development of | 50 |
during the study period | 49 |
transmission of influenza a | 49 |
were found to be | 49 |
certified by peer review | 49 |
was not certified by | 49 |
which was not certified | 49 |
the role of the | 49 |
the burden of influenza | 49 |
is the author funder | 49 |
the preprint in perpetuity | 49 |
and h n viruses | 49 |
not certified by peer | 49 |
pathogenic avian influenza viruses | 49 |
critically ill patients with | 48 |
in the respiratory tract | 48 |
u r n a | 48 |
holder for this preprint | 48 |
a h n influenza | 48 |
cases of h n | 48 |
r n a l | 48 |
influenza a viruses are | 48 |
the onset of symptoms | 48 |
h n influenza pandemic | 48 |
o u r n | 48 |
transcription polymerase chain reaction | 48 |
j o u r | 48 |
at the end of | 47 |
influenza and respiratory syncytial | 47 |
to influenza a virus | 47 |
in the event of | 47 |
for the control of | 47 |
department of health and | 47 |
avian influenza a viruses | 47 |
live attenuated influenza vaccine | 46 |
no reuse allowed without | 46 |
influenza other respir viruses | 46 |
to influenza virus infection | 46 |
in critically ill patients | 46 |
reuse allowed without permission | 46 |
with h n influenza | 45 |
of this study was | 45 |
of avian h n | 45 |
the pandemic influenza a | 45 |
in the present study | 45 |
at high risk of | 45 |
h n virus was | 45 |
in patients with influenza | 45 |
l p r e | 45 |
of the influenza pandemic | 45 |
of influenza virus in | 45 |
of influenza b virus | 45 |
p r o o | 45 |
r o o f | 45 |
n a l p | 45 |
a l p r | 45 |
during the influenza season | 44 |
the development of a | 44 |
are more likely to | 44 |
in the upper respiratory | 44 |
influenza a virus replication | 44 |
the next influenza pandemic | 44 |
n avian influenza virus | 44 |
was approved by the | 43 |
this study was to | 43 |
the emergence of a | 43 |
an increased risk of | 43 |
n influenza viruses in | 43 |
burden of influenza in | 42 |
origin h n influenza | 42 |
the national institute of | 42 |
and immunogenicity of a | 42 |
with pandemic influenza a | 42 |
can be used to | 42 |
the impact of the | 42 |
more likely to be | 42 |
the basis of the | 42 |
the emergence of the | 42 |
n influenza virus in | 42 |
influenza vaccine effectiveness in | 42 |
a h n pandemic | 42 |
a systematic review of | 42 |
h n pandemic influenza | 42 |
of influenza virus hemagglutinin | 42 |
for the production of | 41 |
that they have no | 41 |
preprint this version posted | 41 |
play an important role | 41 |
specific cd t cells | 41 |
influenza a or b | 41 |
of influenza and other | 41 |
this preprint this version | 41 |
it has been shown | 41 |
for this preprint this | 41 |
the impact of influenza | 41 |
and control of influenza | 41 |
the severity of the | 41 |
associated with influenza a | 41 |
to the h n | 41 |
the united states and | 40 |
the majority of the | 40 |
the rest of the | 40 |
declare that they have | 40 |
of seasonal influenza in | 40 |
on the surface of | 40 |
the beginning of the | 40 |
the control of influenza | 40 |
human and avian influenza | 40 |
more likely to have | 40 |
a randomized controlled trial | 40 |
is likely to be | 40 |
positive for influenza a | 40 |
of avian influenza virus | 40 |
in the general population | 40 |
a h n infection | 39 |
infected with influenza a | 39 |
in patients with severe | 39 |
of human h n | 39 |
the authors declare that | 39 |
subtypes of influenza a | 39 |
in the lower respiratory | 39 |
of the virus in | 39 |
a single dose of | 39 |
in the number of | 39 |
the h n subtype | 39 |
transmission of h n | 39 |
emergence of a novel | 39 |
infants and young children | 39 |
in the course of | 39 |
the spread of influenza | 39 |
morbidity and mortality in | 39 |
it is likely that | 39 |
of influenza vaccination in | 39 |
upper and lower respiratory | 38 |
the spread of the | 38 |
pathogenic h n influenza | 38 |
the first wave of | 38 |
similar to that of | 38 |
respiratory syncytial virus in | 38 |
has been shown that | 38 |
h n influenza vaccine | 38 |
play a role in | 38 |
influenza h n viruses | 38 |
against influenza a virus | 38 |
the influenza a h | 37 |
of the general public | 37 |
authors declare that they | 37 |
food and drug administration | 37 |
in the pathogenesis of | 37 |
treatment of influenza in | 37 |
to be associated with | 37 |
respiratory tract infections in | 37 |
a large number of | 37 |
the ministry of health | 37 |
joint prevention and control | 37 |
the immune response to | 37 |
less than years of | 37 |
the severe acute respiratory | 37 |
influenza virus infection and | 37 |
of h n pdm | 37 |
in all age groups | 37 |
the pandemic influenza virus | 37 |
have been associated with | 37 |
for the study of | 36 |
human influenza a h | 36 |
has been associated with | 36 |
influenza virus h n | 36 |
mortality associated with influenza | 36 |
for influenza a and | 36 |
institute of allergy and | 36 |
in the lungs of | 36 |
pathogenic avian influenza a | 36 |
at the beginning of | 36 |
with pandemic h n | 36 |
in accordance with the | 35 |
cases of avian influenza | 35 |
influenza a virus hemagglutinin | 35 |
national institute of allergy | 35 |
presence or absence of | 35 |
acute respiratory syndrome coronavirus | 35 |
are shown in table | 35 |
patients with h n | 35 |
reverse transcription polymerase chain | 35 |
lower respiratory tract infections | 35 |
immune response to influenza | 35 |
of allergy and infectious | 35 |
the risk of influenza | 35 |
human influenza a virus | 35 |
the aim of this | 35 |
in contrast to the | 34 |
the early stages of | 34 |
the use of the | 34 |
infection with influenza a | 34 |
and influenza a virus | 34 |
influenza a virus m | 34 |
of influenza in children | 34 |
have no competing interests | 34 |
influenza viruses circulating in | 34 |
of the respiratory tract | 34 |
in a mouse model | 34 |
of influenza vaccine effectiveness | 34 |
was associated with a | 34 |
in this study were | 33 |
influenza vaccine in the | 33 |
in the h n | 33 |
with influenza a h | 33 |
allergy and infectious diseases | 33 |
in the form of | 33 |
of the immune system | 33 |
influenza a virus from | 33 |
influenza a virus and | 33 |
prevention and control mechanism | 33 |
severe acute respiratory illness | 33 |
of the pandemic h | 33 |
tested positive for influenza | 33 |
lower respiratory tract infection | 33 |
and the use of | 33 |
of influenza virus infections | 33 |
review of the literature | 33 |
as shown in figure | 33 |
used in this study | 33 |
an h n virus | 33 |
and lower respiratory tract | 32 |
was shown to be | 32 |
and pandemic h n | 32 |
for treatment of influenza | 32 |
caused by influenza a | 32 |
it has been suggested | 32 |
in the setting of | 32 |
infection with avian influenza | 32 |
and immunogenicity of an | 32 |
influenza a virus ns | 32 |
of seasonal and pandemic | 32 |
the surface of the | 32 |
of highly pathogenic h | 32 |
as well as in | 32 |
east respiratory syndrome coronavirus | 32 |
hong kong h n | 32 |
of the pandemic virus | 32 |
members of the general | 32 |
of influenza h n | 32 |
against influenza virus infection | 32 |
against h n influenza | 32 |
influenza a virus to | 31 |
respiratory syncytial virus and | 31 |
the presence of the | 31 |
the course of the | 31 |
of morbidity and mortality | 31 |
the number of influenza | 31 |
in children and adults | 31 |
and the number of | 31 |
over years of age | 31 |
in this age group | 31 |
viruses isolated from humans | 31 |
during the influenza pandemic | 31 |
and avian influenza viruses | 31 |
the h n pdm | 31 |
important role in the | 31 |
virus in the united | 31 |
of influenza virus a | 31 |
with the h n | 31 |
t t t t | 31 |
h n viruses were | 31 |
parts of the world | 31 |
with the exception of | 31 |
in response to the | 31 |
influenza virus replication in | 30 |
has been suggested that | 30 |
a novel influenza a | 30 |
diseases society of america | 30 |
the upper and lower | 30 |
influenza in healthy adults | 30 |
of the spanish influenza | 30 |
were included in the | 30 |
human infected avian influenza | 30 |
during the course of | 30 |
the a h n | 30 |
of health and human | 30 |
children and young adults | 30 |
for each of the | 30 |
of seasonal influenza vaccine | 30 |
admitted to hospital with | 30 |
the results of the | 30 |
the presence of a | 30 |
cases of influenza a | 30 |
h n and a | 30 |
cases of pandemic influenza | 30 |
of influenza viruses in | 30 |
infected with h n | 30 |
have been reported in | 30 |
human infections with avian | 30 |
prevention and treatment of | 30 |
infectious diseases society of | 30 |
international catalogue of arboviruses | 30 |
novel influenza a virus | 30 |
ill patients with influenza | 30 |
congo hemorrhagic fever virus | 30 |
the fact that the | 30 |
the intensive care unit | 29 |
pathogenic avian influenza h | 29 |
health and human services | 29 |
the nature of the | 29 |
national institutes of health | 29 |
pandemic influenza h n | 29 |
the origin of the | 29 |
infections with avian influenza | 29 |
both influenza a and | 29 |
of h n infection | 29 |
the number of cases | 29 |
of the influenza season | 29 |
h n influenza infection | 29 |
syncytial virus infection in | 29 |
influenza a virus is | 29 |
h n viruses isolated | 29 |
increase the risk of | 29 |
a subtype h n | 29 |
a high level of | 29 |
with respiratory syncytial virus | 29 |
novel h n influenza | 29 |
with influenza a and | 29 |
n avian influenza viruses | 29 |
for the prevention of | 29 |
higher than that of | 29 |
on the territory of | 29 |
of influenza vaccine in | 29 |
to the emergence of | 29 |
they have no competing | 29 |
on the use of | 28 |
not included in the | 28 |
potential conflicts of interest | 28 |
as part of the | 28 |
avian and human influenza | 28 |
in the united kingdom | 28 |
years of age and | 28 |
a role in the | 28 |
risk factors for severe | 28 |
of h n and | 28 |
are likely to be | 28 |
influenza viruses isolated from | 28 |
the incidence of influenza | 28 |
evolution of h n | 28 |
may be due to | 28 |
pandemic and seasonal influenza | 28 |
with the use of | 28 |
influenza virus infections in | 28 |
with respect to the | 28 |
associated with influenza and | 28 |
in england and wales | 28 |
with severe acute respiratory | 28 |
strain of influenza a | 28 |
h and h subtypes | 27 |
of a h n | 27 |
of an avian influenza | 27 |
and approved the final | 27 |
was isolated from the | 27 |
antigenic and genetic characteristics | 27 |
of a universal influenza | 27 |
the median age of | 27 |
the onset of illness | 27 |
virus infection in mice | 27 |
an increase in the | 27 |
ha and na genes | 27 |
human cases of avian | 27 |
influenza vaccination in the | 27 |
the weekly number of | 27 |
no conflict of interest | 27 |
clinical signs and symptoms | 27 |
seasonal influenza in the | 27 |
this version posted july | 27 |
it was shown that | 27 |
in the northern hemisphere | 27 |
patients with pandemic influenza | 27 |
in the southern hemisphere | 27 |
and genetic characteristics of | 27 |
by influenza a virus | 27 |
was supported by the | 27 |
influenza a viruses and | 27 |
respiratory viral infections in | 27 |
human influenza a viruses | 27 |
may be associated with | 27 |
under years of age | 27 |
of inactivated influenza vaccine | 27 |
the spanish influenza virus | 26 |
is based on the | 26 |
a better understanding of | 26 |
to the lack of | 26 |
a highly pathogenic avian | 26 |
of human infection with | 26 |
for the first time | 26 |
influenza a virus infections | 26 |
for use in the | 26 |
of human infections with | 26 |
rapid diagnosis of influenza | 26 |
pandemic a h n | 26 |
the h n outbreak | 26 |
at least one of | 26 |
h n virus and | 26 |
the h n strain | 26 |
for the diagnosis of | 26 |
a h n in | 26 |
a virus ns protein | 26 |
a member of the | 26 |
influenza a viruses from | 26 |
human infection with avian | 26 |
of a novel swine | 26 |
reduce the risk of | 26 |
we would like to | 26 |
detection of influenza virus | 26 |
of the st century | 26 |
in the placebo group | 26 |
by the end of | 26 |
the presence or absence | 26 |
the presence of influenza | 26 |
of an h n | 26 |
the h n and | 25 |
associated with avian influenza | 25 |
viruses circulating in humans | 25 |
in relation to the | 25 |
a review of the | 25 |
read and approved the | 25 |
the host immune response | 25 |
h n virus that | 25 |
a significant increase in | 25 |
of an influenza a | 25 |
detection of influenza viruses | 25 |
patients with severe influenza | 25 |
with avian influenza viruses | 25 |
the seasonal influenza vaccine | 25 |
of influenza and rsv | 25 |
spread of the virus | 25 |
cd t cells in | 25 |
a result of the | 25 |
of seasonal influenza a | 25 |
it is estimated that | 25 |
of seasonal influenza viruses | 25 |
with influenza virus infection | 25 |
cd t cell responses | 25 |
a risk factor for | 25 |
adults hospitalized with influenza | 25 |
for the use of | 25 |
for detection of influenza | 25 |
during influenza virus infection | 25 |
and treatment of influenza | 25 |
the epidemiology of influenza | 25 |
protection against influenza virus | 25 |
aim of this study | 25 |
in embryonated chicken eggs | 25 |
seasonal h n influenza | 25 |
of pandemic influenza in | 25 |
rapid detection of influenza | 25 |
characterization of h n | 24 |
viruses with pandemic potential | 24 |
due to the lack | 24 |
as shown in table | 24 |
of the immune response | 24 |
the start of the | 24 |
to the fact that | 24 |
this is the first | 24 |
of influenza virus and | 24 |
a virus infection in | 24 |
to be the most | 24 |
of the m protein | 24 |
as shown in fig | 24 |
the influenza virus hemagglutinin | 24 |
influenza a virus h | 24 |
strains were isolated from | 24 |
it is difficult to | 24 |
cells were infected with | 24 |
at increased risk of | 24 |
of the pandemic and | 24 |
in the majority of | 24 |
virus was isolated from | 24 |
in hong kong and | 24 |
the event of a | 24 |
can be used for | 24 |
and safety of the | 24 |
of avian influenza in | 24 |
is associated with a | 24 |
influenza a subtype h | 24 |
strains of influenza a | 24 |
of a novel influenza | 24 |
confirmed human cases of | 24 |
an influenza a virus | 24 |
as soon as possible | 24 |
upper respiratory tract infections | 24 |
live attenuated influenza vaccines | 24 |
and human influenza viruses | 24 |
in terms of the | 24 |
the authors declare no | 24 |
in influenza virus infection | 24 |
for the presence of | 24 |
and a h n | 24 |
was not associated with | 24 |
influenza a viruses with | 24 |
the detection of influenza | 24 |
of the hong kong | 24 |
have the potential to | 24 |
of the virus to | 24 |
it is necessary to | 24 |
in mice and ferrets | 24 |
this work was supported | 23 |
spread of pandemic influenza | 23 |
and the h n | 23 |
be explained by the | 23 |
of influenza virus replication | 23 |
study was supported by | 23 |
disease prevention and control | 23 |
the use of a | 23 |
have been used to | 23 |
virus infection in the | 23 |
resistance among influenza a | 23 |
in the influenza a | 23 |
and cellular immune responses | 23 |
this study was supported | 23 |
inactivated influenza vaccine in | 23 |
responses to the pandemic | 23 |
days after the onset | 23 |
the pathogenesis of influenza | 23 |
of influenza infection in | 23 |
the prevention of influenza | 23 |
protein of influenza a | 23 |
of the th century | 23 |
of the number of | 23 |
to pandemic influenza a | 23 |
of the virus and | 23 |
influenza c virus infection | 23 |
virus isolated from a | 23 |
the infection rate of | 23 |
immunogenicity of an inactivated | 23 |
has been reported in | 23 |
effectiveness of influenza vaccine | 23 |
influenza h n and | 23 |
the study of influenza | 23 |
to the pandemic h | 23 |
that the h n | 23 |
ecology of influenza a | 23 |
avian h n virus | 23 |
in a study of | 23 |
the innate immune system | 23 |
no significant difference in | 23 |
of avian and human | 23 |
have been found to | 23 |
the efficacy of the | 23 |
significant morbidity and mortality | 23 |
should be considered for | 23 |
virus was detected in | 23 |
over the past decade | 23 |
to the development of | 23 |
effectiveness of influenza vaccination | 23 |
cd and cd t | 23 |
adamantane resistance among influenza | 23 |
viruses in hong kong | 23 |
for rapid detection of | 22 |
outbreak of avian influenza | 22 |
effectiveness of influenza vaccines | 22 |
for the generation of | 22 |
of the host cell | 22 |
patients admitted to hospital | 22 |
we were able to | 22 |
a broad range of | 22 |
from person to person | 22 |
memory cd t cells | 22 |
associated with an increased | 22 |
h n and seasonal | 22 |
n avian influenza a | 22 |
syncytial virus in the | 22 |
h n swine influenza | 22 |
work was supported by | 22 |
options for the control | 22 |
pandemic of the st | 22 |
on the day of | 22 |
the similarity of the | 22 |
phylogenetic analysis of the | 22 |
for h n influenza | 22 |
the objective of this | 22 |
by the presence of | 22 |
a higher proportion of | 22 |
influenza a viruses isolated | 22 |
in the elderly and | 22 |
cough or sore throat | 22 |
evolution and ecology of | 22 |
is known to be | 22 |
and ecology of influenza | 22 |
than that of the | 22 |
and h n subtypes | 22 |
of the emergence of | 22 |
and the presence of | 22 |
cause of death in | 22 |
antibody responses to the | 22 |
time to resolution of | 22 |
be due to the | 22 |
of health care workers | 22 |
would like to thank | 22 |
influenza in young children | 22 |
were obtained from the | 22 |
for the emergence of | 22 |
outbreak in hong kong | 22 |
gene of influenza a | 22 |
we found that the | 22 |
innate and adaptive immune | 21 |
critical review of the | 21 |
characterization of a novel | 21 |
the early phase of | 21 |
severe acute respiratory infection | 21 |
influenza virus in a | 21 |
and the development of | 21 |
plays an important role | 21 |
the influenza pandemic in | 21 |
universal influenza virus vaccine | 21 |
human infection with a | 21 |
a wide variety of | 21 |
in adults and children | 21 |
genetic characteristics of swine | 21 |
the risk of infection | 21 |
aerosol transmission of influenza | 21 |
for the next pandemic | 21 |
and the risk of | 21 |
a reduction in the | 21 |
by influenza virus infection | 21 |
systematic review of the | 21 |
and the role of | 21 |
a limited number of | 21 |
prevention and control efforts | 21 |
a small number of | 21 |
and control of seasonal | 21 |
human respiratory syncytial virus | 21 |
have been reported to | 21 |
of neuraminidase inhibitors in | 21 |
of acute respiratory distress | 21 |
isolation and characterization of | 21 |
circulation of influenza a | 21 |
due to the fact | 21 |
for the h n | 21 |
modified vaccinia virus ankara | 21 |
response to influenza virus | 21 |
in the far east | 21 |
influenza virus in the | 21 |
of confirmed human cases | 21 |
for the management of | 21 |
for the treatment and | 21 |
a viruses in the | 21 |
in the face of | 21 |
human h n influenza | 21 |
subjects less than years | 21 |
lower respiratory tract disease | 21 |
the case of influenza | 21 |
on the one hand | 21 |
of seasonal influenza with | 21 |
with influenza and respiratory | 21 |
review of the manuscript | 21 |
of the onset of | 21 |
with h n virus | 21 |
for severe acute respiratory | 21 |
control of seasonal influenza | 21 |
virus replication in the | 21 |
before the onset of | 21 |
with highly pathogenic avian | 21 |
genetic characterization of the | 21 |
the effect of the | 21 |
with an increased risk | 21 |
as the result of | 21 |
by the influenza virus | 21 |
the duration of the | 21 |
transmission of influenza virus | 21 |
conception and design of | 21 |
of influenza a in | 21 |
the host response to | 21 |
of the viral ha | 20 |
approved the final manuscript | 20 |
were positive for influenza | 20 |
types a and b | 20 |
in the management of | 20 |
more than of the | 20 |
was isolated from a | 20 |
influenza a virus was | 20 |
seasonal influenza with vaccines | 20 |
the influenza virus polymerase | 20 |
a fatal case of | 20 |
authors read and approved | 20 |
to the world health | 20 |
with the help of | 20 |
by the fact that | 20 |
with a history of | 20 |
the performance of the | 20 |
infections in immunocompromised patients | 20 |
as a cause of | 20 |
to the presence of | 20 |
infected avian influenza a | 20 |
influenza season in the | 20 |
in mice infected with | 20 |
such as h n | 20 |
transcriptase polymerase chain reaction | 20 |
tm influenza a b | 20 |
with regard to the | 20 |
influenza h n in | 20 |
to respiratory syncytial virus | 20 |
n or h n | 20 |
our understanding of the | 20 |
resistance to neuraminidase inhibitors | 20 |
influenza in the us | 20 |
it is clear that | 20 |
h and h influenza | 20 |
the spread of pandemic | 20 |
rapid influenza diagnostic tests | 20 |
h n strains were | 20 |
in infants and young | 20 |
the innate immune response | 20 |
of respiratory viruses in | 20 |
have shown that the | 20 |
clinical features of influenza | 20 |
number of confirmed human | 20 |
have been found in | 20 |
us centers for disease | 20 |
for the evaluation of | 20 |
and severe acute respiratory | 20 |
in the early stages | 20 |
years old or older | 20 |
of an influenza virus | 20 |
alere tm influenza a | 20 |
in patients admitted to | 20 |
the department of health | 20 |
of mice infected with | 20 |
against influenza a viruses | 20 |
h n or h | 20 |
pandemic influenza in the | 20 |
the morbidity and mortality | 20 |
response to pandemic influenza | 20 |
the human respiratory tract | 20 |
event of a pandemic | 20 |
of a highly pathogenic | 20 |
of influenza viruses and | 20 |
of influenza type a | 20 |
h n pdm viruses | 20 |
pandemic h n v | 19 |
the us centers for | 19 |
hospitalized patients with influenza | 19 |
protection against h n | 19 |
vaccines against h n | 19 |
mortality in the united | 19 |
of west nile virus | 19 |
reactive antibody responses to | 19 |
the emergence of pandemic | 19 |
the infectious diseases society | 19 |
of influenza vaccination of | 19 |
effectiveness of neuraminidase inhibitors | 19 |
h n outbreak in | 19 |
other viruses of vertebrates | 19 |
and h avian influenza | 19 |
seasonal influenza a h | 19 |
is associated with the | 19 |
of the pb gene | 19 |
the influenza c virus | 19 |
prevention and control measures | 19 |
by human infected avian | 19 |
the influenza virus genome | 19 |
influenza pandemic in the | 19 |
influenza a virus vaccines | 19 |
of influenza virus vaccines | 19 |
to a lesser extent | 19 |
as a risk factor | 19 |
cumulative number of confirmed | 19 |
the diagnosis of influenza | 19 |
c virus infection in | 19 |
the authors would like | 19 |
acute respiratory tract infections | 19 |
little is known about | 19 |
in the south of | 19 |
the onset of the | 19 |
structure of the influenza | 19 |
the m ion channel | 19 |
immunity to influenza a | 19 |
certain other viruses of | 19 |
is the number of | 19 |
in the control of | 19 |
of pneumonia and influenza | 19 |
the efficacy and safety | 19 |
of age and older | 19 |
during the influenza a | 19 |
it should be noted | 19 |
as one of the | 19 |
to that of the | 19 |
trivalent inactivated influenza vaccine | 19 |
and mortality in the | 19 |
during the first wave | 19 |
for the prevention and | 19 |
after onset of symptoms | 19 |
the influenza season in | 19 |
for influenza and other | 19 |
avian influenza virus h | 19 |
wave of the pandemic | 19 |
are presented in table | 19 |
and the united states | 19 |
has the potential to | 19 |
treatment and prevention of | 19 |
objective of this study | 19 |
can be found in | 19 |
by the centers for | 19 |
one of the following | 19 |
influenza infection in the | 19 |
and design of study | 19 |
with influenza h n | 19 |
the emergence of new | 19 |
management of patients with | 19 |
least one of the | 19 |
could be explained by | 19 |
study was approved by | 19 |
low pathogenic avian influenza | 19 |
to conception and design | 19 |
wear a face mask | 19 |
strains of influenza virus | 19 |
n viruses isolated from | 19 |
contributed to conception and | 19 |
of the severity of | 19 |
for disease prevention and | 19 |
a and b in | 19 |
was obtained from the | 19 |
human infection with influenza | 19 |
a novel influenza virus | 19 |
first wave of the | 19 |
days after symptom onset | 19 |
was found in the | 19 |
can be divided into | 19 |
to the primary site | 19 |
for influenza virus replication | 18 |
consent was obtained from | 18 |
could be used to | 18 |
influenza a duck singapore | 18 |
to the use of | 18 |
for the influenza a | 18 |
patients with suspected influenza | 18 |
pathogenic avian h n | 18 |
influenza a virus pb | 18 |
pandemic influenza a virus | 18 |
the clinical course of | 18 |
the first months of | 18 |
influenza a virus subtype | 18 |
the first influenza pandemic | 18 |
impact of pandemic influenza | 18 |
the respiratory tract and | 18 |
caused by h n | 18 |
of upper respiratory tract | 18 |
hospitalizations in the united | 18 |
viruses were detected in | 18 |
there was a significant | 18 |
by the world health | 18 |
response to influenza vaccination | 18 |
the global burden of | 18 |
increase in the number | 18 |
for respiratory syncytial virus | 18 |
of respiratory viral infections | 18 |
to be due to | 18 |
of seasonal influenza vaccination | 18 |
there was no significant | 18 |
in the influenza virus | 18 |
infection with a novel | 18 |
the efficacy of influenza | 18 |
as well as to | 18 |
of lower respiratory tract | 18 |
a randomised controlled trial | 18 |
caused by human infected | 18 |
is consistent with the | 18 |
at the start of | 18 |
of other respiratory viruses | 18 |
have been observed in | 18 |
of a pandemic influenza | 18 |
in the current study | 18 |
of seasonal influenza vaccines | 18 |
the highly pathogenic avian | 18 |
inhibition of influenza virus | 18 |
at the cleavage site | 18 |
incidence of pandemic influenza | 18 |
closely related to the | 18 |
authors would like to | 18 |
center for disease control | 18 |
risk factors associated with | 18 |
to the influenza a | 18 |
the h y mutation | 18 |
of the upper respiratory | 18 |
all authors read and | 18 |
influenza a virus strains | 18 |
of proinflammatory cytokines in | 18 |
was the most common | 18 |
lower respiratory tract of | 18 |
h n pandemic in | 18 |
and risk factors for | 18 |
diagnosis of influenza virus | 18 |
of the innate immune | 18 |
as the number of | 18 |
poultry farms in the | 18 |
the size of the | 18 |
by the h n | 18 |
for preventing influenza in | 18 |
would like to acknowledge | 18 |
of seasonal influenza and | 18 |
during the period of | 18 |
as compared to the | 18 |
the occurrence of influenza | 18 |
that the use of | 18 |
the magnitude of the | 18 |
treatment of severe influenza | 18 |
detection of respiratory viruses | 18 |
infection with influenza virus | 18 |
pneumonia caused by human | 18 |
of influenza virus by | 18 |
impact of influenza on | 17 |
and seasonal influenza a | 17 |
in healthy adults and | 17 |
h n pandemic virus | 17 |
case of influenza a | 17 |
it has also been | 17 |
in a pandemic situation | 17 |
of the pandemic in | 17 |
informed consent was obtained | 17 |
the development of new | 17 |
in the republic of | 17 |
a comparison of the | 17 |
a and influenza b | 17 |
influenza and pneumococcal vaccinations | 17 |
it was not possible | 17 |
was not statistically significant | 17 |
severe pneumonia caused by | 17 |
respiratory tract infection in | 17 |
of influenza and influenza | 17 |
and b virus infections | 17 |
virus titers in the | 17 |
from the h n | 17 |
adjuvanted influenza a duck | 17 |
transmission of pandemic influenza | 17 |
influenza a virus vaccine | 17 |
has not yet been | 17 |
preventing and treating influenza | 17 |
of the influenza vaccine | 17 |
it was found that | 17 |
increased risk of influenza | 17 |
of patients with influenza | 17 |
avian h n and | 17 |
with the development of | 17 |
in the human airway | 17 |
of the world health | 17 |
is the most effective | 17 |
lethal h n influenza | 17 |
pathogenic h n virus | 17 |
pathogenic h n avian | 17 |
for preventing and treating | 17 |
using a combination of | 17 |
clinical management of patients | 17 |
the virus in the | 17 |
is believed to be | 17 |
of novel influenza a | 17 |
an h n influenza | 17 |
n virus was isolated | 17 |
from the blood of | 17 |
interventions for pandemic influenza | 17 |
and adaptive immune responses | 17 |
catalogue of arboviruses and | 17 |
the prevention and treatment | 17 |
in a number of | 17 |
over a period of | 17 |
h n virus has | 17 |
among health care workers | 17 |
the absence of a | 17 |
of the role of | 17 |
is located in the | 17 |
h n and b | 17 |
influenza virus infection is | 17 |
against h n and | 17 |
effectiveness of seasonal influenza | 17 |
infected with influenza virus | 17 |
of live attenuated influenza | 17 |
time reverse transcription polymerase | 17 |
or more of the | 17 |
the structure of the | 17 |
efficacy and effectiveness of | 17 |
against influenza in the | 17 |
to the plasma membrane | 17 |
of the human population | 17 |
influenza vaccine during pregnancy | 17 |
the inosine pranobex group | 17 |
mortality associated with the | 17 |
with lower respiratory tract | 17 |
emergence of pandemic influenza | 17 |
to the influenza pandemic | 17 |
in the circulation of | 17 |
was not possible to | 17 |
the peak of the | 17 |
an avian influenza virus | 17 |
n infection in england | 17 |
and the impact of | 17 |
there is evidence that | 17 |
of hospitalized patients with | 17 |
should be noted that | 17 |
influenza a and influenza | 17 |
subtypes h n and | 17 |
influenza virus infection by | 17 |
and critical review of | 17 |
characterization of the influenza | 17 |
the pb gene of | 17 |
in hospitalized patients with | 17 |
transmission of influenza viruses | 17 |
admitted to the icu | 17 |
humoral and cellular immune | 17 |
on the role of | 17 |
of a number of | 17 |
in the control group | 17 |
better understanding of the | 17 |
vaccines for preventing influenza | 17 |
of h and h | 17 |
acute respiratory viral infections | 17 |
was similar to that | 17 |
influenza is associated with | 17 |
in the and pandemics | 17 |
been implicated in the | 17 |
was detected in the | 17 |
subtype of influenza a | 17 |
highly pathogenic influenza a | 17 |
in this study was | 17 |
in any of the | 17 |
cd t cell response | 17 |
for other respiratory viruses | 17 |
before and after the | 17 |
h n viruses are | 17 |
outbreaks of avian influenza | 16 |
the second and third | 16 |
viruses were isolated from | 16 |
was associated with an | 16 |
vaccines for use in | 16 |
virus subtype h n | 16 |
an outbreak of influenza | 16 |
due to influenza a | 16 |
of influenza b viruses | 16 |
other respiratory viruses in | 16 |
both human and avian | 16 |
study was conducted in | 16 |
protective immunity against influenza | 16 |
of the neuraminidase inhibitor | 16 |
de jong et al | 16 |
immune responses to influenza | 16 |
and clinical characteristics of | 16 |
oral neuraminidase inhibitor oseltamivir | 16 |
health care workers in | 16 |
as well as other | 16 |
a and b infections | 16 |
studies have demonstrated that | 16 |
upper respiratory tract infection | 16 |
less likely to be | 16 |
rest of the population | 16 |
farms in the netherlands | 16 |
specific cd t cell | 16 |
in the near future | 16 |
patients with influenza virus | 16 |
in the emergence of | 16 |
jurisdictional claims in published | 16 |
pneumonia and influenza deaths | 16 |
of a new influenza | 16 |
neutral with regard to | 16 |
type a and b | 16 |
in the spread of | 16 |
signs and symptoms of | 16 |
with regard to jurisdictional | 16 |
were found to have | 16 |
safety and efficacy of | 16 |
the viral life cycle | 16 |
peripheral blood mononuclear cells | 16 |
response to influenza a | 16 |
regard to jurisdictional claims | 16 |
nature remains neutral with | 16 |
those who did not | 16 |
with an increase in | 16 |
resolution of all influenza | 16 |
identification of a novel | 16 |
fatal human influenza a | 16 |
maps and institutional affiliations | 16 |
children under years of | 16 |
be taken into account | 16 |
is associated with high | 16 |
children younger than years | 16 |
origin and evolution of | 16 |
detection of antibody to | 16 |
the safety and immunogenicity | 16 |
from fatal cases of | 16 |
pb gene of influenza | 16 |
a high proportion of | 16 |
influenza infections in humans | 16 |
mother of all pandemics | 16 |
influenza viruses have been | 16 |
in the ferret model | 16 |
is important to note | 16 |
a in human beings | 16 |
a broad spectrum of | 16 |
was observed in the | 16 |
impact of seasonal influenza | 16 |
at higher risk for | 16 |
in the hemagglutinin of | 16 |
claims in published maps | 16 |
published maps and institutional | 16 |
to resolution of all | 16 |
the mother of all | 16 |
to be able to | 16 |
may be related to | 16 |
emergence of influenza a | 16 |
these results suggest that | 16 |
person transmission of avian | 16 |
with an h n | 16 |
in published maps and | 16 |
a total of patients | 16 |
to the influenza virus | 16 |
n and a h | 16 |
to jurisdictional claims in | 16 |
the difference between the | 16 |
of viral shedding in | 16 |
for pandemic influenza a | 16 |
and the severity of | 16 |
are at high risk | 16 |
influenza a virus nucleoprotein | 16 |
infected with avian influenza | 16 |
to work during an | 16 |
outbreak of severe acute | 16 |
were infected with influenza | 16 |
of cd t cell | 16 |
should be considered in | 16 |
in the use of | 16 |
reducing the risk of | 16 |
the national institutes of | 16 |
in the univariate analysis | 16 |
the context of the | 16 |
increases the risk of | 16 |
is shown in table | 16 |
the results of this | 16 |
all influenza a viruses | 16 |
one of the main | 16 |
influenza vaccination of health | 16 |
at higher risk of | 16 |
a median age of | 16 |
was added to the | 16 |
the nuclear export of | 16 |
virus infection in children | 16 |
of the ha gene | 16 |
in patients in vietnam | 16 |
control of influenza vii | 16 |
subtype h n disease | 16 |
an avian influenza a | 16 |
has been used to | 16 |
patients hospitalized with influenza | 16 |
public health agency of | 16 |
n influenza in the | 16 |
ha and na subtypes | 16 |
of fatal human influenza | 16 |
in the past years | 16 |
may contribute to the | 16 |
in the spring of | 16 |
acute respiratory infections in | 16 |
remains neutral with regard | 16 |
in the prevention of | 16 |
admission to the icu | 16 |
emergence of fatal human | 16 |
in the usa and | 16 |
the northern and southern | 16 |
springer nature remains neutral | 16 |
influenza h n infection | 16 |
the vast majority of | 16 |
deaths in the united | 16 |
the average number of | 16 |
influenza a in human | 16 |
ivanovsky institute of virology | 16 |
human disease associated with | 16 |
of human and animal | 16 |
influenza c virus m | 16 |
human h n virus | 16 |
human influenza a subtype | 16 |
of human airway epithelium | 16 |
the large number of | 16 |
of human influenza viruses | 16 |
million cases of severe | 16 |
and years of age | 16 |
responses to influenza virus | 16 |
of cd t cells | 16 |
of influenza vaccines in | 16 |
at high risk for | 16 |
evolutionary genomics of the | 15 |
outcome of human influenza | 15 |
in balb c mice | 15 |
important to note that | 15 |
the potential impact of | 15 |
sensitivity and specificity of | 15 |
is considered to be | 15 |
from human to human | 15 |
influenza in the community | 15 |
impact of the pandemic | 15 |
over the age of | 15 |
and rapid viral diagnosis | 15 |
risk of severe influenza | 15 |
case of h n | 15 |
between influenza vaccination and | 15 |
as well as for | 15 |
the use of antiviral | 15 |
and cd t cells | 15 |
high risk of complications | 15 |
season in the united | 15 |
reverse transcriptase polymerase chain | 15 |
influenza type a and | 15 |
and acute respiratory distress | 15 |
in the incidence of | 15 |
t cells in the | 15 |
patients with acute respiratory | 15 |
influenza and other viral | 15 |
of avian influenza h | 15 |
the proportion of influenza | 15 |
were similar to those | 15 |
and seasonal h n | 15 |
the united states during | 15 |
are at increased risk | 15 |
can be explained by | 15 |
the effectiveness of influenza | 15 |
through the use of | 15 |
a crucial role in | 15 |
early stages of the | 15 |
in infants and children | 15 |
the highly pathogenic h | 15 |
of the oral neuraminidase | 15 |
cases of pandemic h | 15 |
seasonal influenza vaccination in | 15 |
disease associated with avian | 15 |
first influenza pandemic of | 15 |
the influenza b virus | 15 |
fatal cases of pandemic | 15 |
the european part of | 15 |
diagnosis of human disease | 15 |
of influenza and pneumococcal | 15 |
for rapid diagnosis of | 15 |
aged years and older | 15 |
the influenza pandemic and | 15 |
respiratory virus infections in | 15 |
of the patients with | 15 |
the association between influenza | 15 |
diagnosis of influenza a | 15 |
rapid viral diagnosis of | 15 |
n virus infection in | 15 |
viral diagnosis of human | 15 |
n influenza a epidemic | 15 |
h n influenza and | 15 |
vaccines for pandemic influenza | 15 |
treatment of h n | 15 |
associated with severe disease | 15 |
no conflicts of interest | 15 |
and treating influenza in | 15 |
in a cohort of | 15 |
n strains were isolated | 15 |
the antibody response to | 15 |
in mdck pf cells | 15 |
to years of age | 15 |
risk of influenza a | 15 |
mice infected with influenza | 15 |
seasonal h n virus | 15 |
for avian influenza a | 15 |
seasonal influenza vaccine in | 15 |
australia and new zealand | 15 |
genomics of the swine | 15 |
a diagnosis of influenza | 15 |
of randomized controlled trials | 15 |
the hong kong influenza | 15 |
the evolution of influenza | 15 |
to influenza vaccination in | 15 |
human h n infections | 15 |
pandemic influenza virus infection | 15 |
neuraminidase inhibitors for preventing | 15 |
antigenic drift and shift | 15 |
threat of an influenza | 15 |
declare no conflict of | 15 |
with suspected or confirmed | 15 |
mortality in patients with | 15 |
to a highly pathogenic | 15 |
r t p h | 15 |
of the next pandemic | 15 |
for the next influenza | 15 |
a small proportion of | 15 |
the early stage of | 15 |
in children under years | 15 |
virus to human beings | 15 |
the receptor binding site | 15 |
and evolutionary genomics of | 15 |
on the composition of | 15 |
in patients with asthma | 15 |
influenza virus infection of | 15 |
the use of an | 15 |
case fatality rate of | 15 |
influenza a virus by | 15 |
immunity to influenza in | 15 |
work during an influenza | 15 |
when compared to the | 15 |
cases of severe illness | 15 |
a major cause of | 15 |
estimates of global seasonal | 15 |
advice to stay home | 15 |
kong h n influenza | 15 |
of influenza viruses with | 15 |
with a h n | 15 |
respiratory distress syndrome and | 15 |
in this study we | 15 |
of the influenza c | 15 |
authors declare no conflict | 15 |
to influenza a h | 15 |
in an attempt to | 15 |
european part of russia | 15 |
h n pdm and | 15 |
has been reported to | 15 |
to be involved in | 15 |
of global seasonal influenza | 15 |
is responsible for the | 15 |
a high degree of | 15 |
is defined as the | 15 |
in the inosine pranobex | 15 |
influenza prevention and control | 15 |
of pandemic influenza viruses | 15 |
clinical features and rapid | 15 |
as well as a | 15 |
with more than one | 15 |
transmission of the virus | 15 |
of influenza vaccination on | 15 |
as a function of | 15 |
the oral neuraminidase inhibitor | 15 |
have been described in | 15 |
highly pathogenic avian h | 15 |
in line with the | 15 |
of ha and na | 15 |
has also been reported | 15 |
patients with t dm | 15 |
the potential to cause | 15 |
the age of years | 15 |
of the avian influenza | 15 |
of influenza in a | 15 |
receptor specificity of the | 15 |
avian influenza viruses to | 15 |
influenza in adults and | 15 |
from the united states | 15 |
are based on the | 15 |
pandemic h n viruses | 15 |
of human disease associated | 15 |
influenza virus replication and | 15 |
and evolution of the | 15 |
pathogenesis of influenza a | 15 |
the development of the | 15 |
and b viruses in | 15 |
features and rapid viral | 15 |
human to human transmission | 15 |
a large outbreak in | 15 |
influenza vaccine virus selection | 15 |
evolution of influenza virus | 15 |
inhibitors for preventing and | 15 |
and at least one | 15 |
genes of h n | 15 |
spread of the pandemic | 15 |
of influenza vaccination among | 15 |
ill patients with pandemic | 15 |
more than half of | 15 |
the case of the | 15 |
admitted to the hospital | 14 |
of the human influenza | 14 |
who tested positive for | 14 |
the hemagglutinin and neuraminidase | 14 |
the effect of influenza | 14 |
centre for disease prevention | 14 |
from the md simulations | 14 |
and the effect of | 14 |
included in the analysis | 14 |
human influenza a and | 14 |
inactivated influenza virus vaccines | 14 |
plays a role in | 14 |
with high viral load | 14 |
fatal outcome of human | 14 |
influenza vaccination coverage in | 14 |
it is well known | 14 |
with primary viral pneumonia | 14 |
a virus in the | 14 |
who did not receive | 14 |
signs and symptoms predicting | 14 |
seasonal influenza a virus | 14 |
was no significant difference | 14 |
h n viruses have | 14 |
the majority of patients | 14 |
that the virus is | 14 |
are summarized in table | 14 |
to be effective in | 14 |
influenza is a major | 14 |
the circulation of influenza | 14 |
to better understand the | 14 |
with influenza b virus | 14 |
of acute lung injury | 14 |
an emerging influenza pandemic | 14 |
for influenza a h | 14 |
the influenza virus is | 14 |
high viral load and | 14 |
been found to be | 14 |
the timing of the | 14 |
living in the community | 14 |
was used as a | 14 |
novel influenza a h | 14 |
human cases of h | 14 |
need to be considered | 14 |
in the evolution of | 14 |
of a strain of | 14 |
the period of widespread | 14 |
years of age with | 14 |
relative humidity and temperature | 14 |
macrophages by influenza a | 14 |
influenza virus receptors in | 14 |
the evolution of the | 14 |
in light of the | 14 |
influenza viruses in asia | 14 |
by the national institute | 14 |
and avian influenza a | 14 |
these data suggest that | 14 |
the national institute for | 14 |
used to evaluate the | 14 |
a universal influenza virus | 14 |
with at least one | 14 |
use of reverse genetics | 14 |
have been used in | 14 |
the first week of | 14 |
been shown to induce | 14 |
the result of a | 14 |
outbreak in commercial poultry | 14 |
studies of influenza vaccine | 14 |
in patients hospitalized with | 14 |
influenza virus in ferrets | 14 |
the joint prevention and | 14 |
the time of the | 14 |
and symptoms predicting influenza | 14 |
on the risk of | 14 |
seasonal or pandemic influenza | 14 |
the southern part of | 14 |
influenza viruses and the | 14 |
during a large outbreak | 14 |
pregnant women in the | 14 |
to influenza infection in | 14 |
of health and ageing | 14 |
diagnostic tests for influenza | 14 |
statistical analyses were performed | 14 |
h y na mutation | 14 |
inhibits influenza a virus | 14 |
a higher risk of | 14 |
impact of the influenza | 14 |
j infect dis doi | 14 |
in each of the | 14 |
the global spread of | 14 |
years of age or | 14 |
increased morbidity and mortality | 14 |
of influenza infections in | 14 |
both seasonal and pandemic | 14 |
of the viral polymerase | 14 |
that the risk of | 14 |
with hpai h n | 14 |
of the authors and | 14 |
viruses and their replication | 14 |
the effectiveness of the | 14 |
acute respiratory syndrome in | 14 |
the lack of a | 14 |
on the epidemiology of | 14 |
a significant number of | 14 |
in the hong kong | 14 |
influenza a virus the | 14 |
the viruses and their | 14 |
it is possible to | 14 |
zanamivir in the treatment | 14 |
was higher than that | 14 |
receptor binding properties of | 14 |
in the emergency department | 14 |
the emergence of influenza | 14 |
prevent the spread of | 14 |
inhibitors of influenza virus | 14 |
us department of health | 14 |
associated with an increase | 14 |
of hpai h n | 14 |
viruses a and b | 14 |
response to the pandemic | 14 |
associated with seasonal influenza | 14 |
characterization of the reconstructed | 14 |
been associated with a | 14 |
patients infected with influenza | 14 |
of the effects of | 14 |
of universal influenza vaccines | 14 |
live attenuated influenza virus | 14 |
the number of infected | 14 |
response to the influenza | 14 |
infection with h n | 14 |
and h n virus | 14 |
is supported by the | 14 |
immune correlates of protection | 14 |
was significantly higher than | 14 |
of the impact of | 14 |
and effectiveness of influenza | 14 |
of individual participant data | 14 |
due to seasonal influenza | 14 |
receipt of influenza vaccine | 14 |
and mortality associated with | 14 |
for an influenza pandemic | 14 |
in the astrakhan region | 14 |
be included in the | 14 |
a virus to human | 14 |
the respiratory tract of | 14 |
included in the vaccine | 14 |
the unusual severity of | 14 |
be used as a | 14 |
and influenza b viruses | 14 |
to pandemic h n | 14 |
have been isolated from | 14 |
in vivo characterization of | 14 |
on the development of | 14 |
was defined as the | 14 |
against pandemic influenza a | 14 |
from symptom onset to | 14 |
high morbidity and mortality | 14 |
the composition of influenza | 14 |
of the lower respiratory | 14 |
in an effort to | 14 |
the seasonality of influenza | 14 |
fusion of the viral | 14 |
ns protein of influenza | 14 |
influenza pandemic of the | 14 |
pathogenic h n viruses | 14 |
neuraminidase inhibitor oseltamivir in | 14 |
at the onset of | 14 |
the united states influenza | 14 |
h y mutation in | 14 |
a public health emergency | 14 |
one or more of | 14 |
b virus infection in | 14 |
the severity of influenza | 14 |
were not statistically significant | 14 |
the origins of the | 14 |
virulence of h n | 14 |
viral load and hypercytokinemia | 14 |
infection is associated with | 14 |
pandemics of the th | 14 |
immunogenicity of a recombinant | 14 |
is similar to that | 14 |
large outbreak in commercial | 14 |
it is not possible | 14 |
transmission of the pb | 14 |
a mechanism for the | 14 |
of h influenza viruses | 14 |
the use of reverse | 14 |
influenza a b fia | 14 |
associated with high viral | 14 |
are shown in figure | 14 |
protocol was approved by | 14 |
of the seasonal influenza | 14 |
weekly number of influenza | 14 |
lower respiratory tract complications | 14 |
can also be used | 14 |
was used for the | 14 |
international classification of diseases | 14 |
of respiratory virus infections | 14 |
commercial poultry farms in | 14 |
in patients infected with | 14 |
of the virus by | 14 |
natural foci of arboviruses | 14 |
evolution of human influenza | 14 |
of adamantane resistance among | 14 |
days of symptom onset | 14 |
of the present study | 14 |
to human beings during | 14 |
acute respiratory illness in | 14 |
to hospital with influenza | 14 |
in commercial poultry farms | 14 |
a key role in | 14 |
the clinical features of | 14 |
health agency of canada | 14 |
beings during a large | 14 |
the ha of the | 14 |
fever with renal syndrome | 14 |
by the addition of | 14 |
amino acid substitutions in | 14 |
significant difference in the | 14 |
and highly pathogenic avian | 14 |
the context of a | 14 |
h n and pandemic | 14 |
in the previous season | 14 |
it is worth noting | 14 |
in the vicinity of | 14 |
of the russian plain | 14 |
of pandemic and seasonal | 14 |
under the age of | 14 |
to ensure that the | 14 |
in the th century | 14 |
of acute respiratory infections | 14 |
intensive care unit admission | 14 |
associated hospitalizations in the | 14 |
in human macrophages by | 14 |
research is needed to | 14 |
human beings during a | 14 |
were observed in the | 14 |
the importance of the | 14 |
to the pathogenesis of | 14 |
of age or older | 14 |
response to ph n | 14 |
an increasing number of | 14 |
the prevalence of influenza | 14 |
the sensitivity of the | 14 |
days after onset of | 14 |
associated with increased risk | 13 |
sequence analysis of the | 13 |
seasonal h n viruses | 13 |
the immunization practices advisory | 13 |
with the influenza virus | 13 |
influenza virus a and | 13 |
in the process of | 13 |
patients with an influenza | 13 |
the reconstructed spanish influenza | 13 |
immune response to infection | 13 |
antibody to avian influenza | 13 |
analyses were performed using | 13 |
virus infection in humans | 13 |
and composition of the | 13 |
the h n strains | 13 |
vaccine in healthy adults | 13 |
with influenza a viruses | 13 |
from year to year | 13 |
duration of viral shedding | 13 |
between influenza virus and | 13 |
between and years of | 13 |
of the immunization practices | 13 |
benefits of influenza vaccination | 13 |
of the ha and | 13 |
to the intensive care | 13 |
as well as from | 13 |
in a variety of | 13 |
the h and h | 13 |
influenza virus transmission is | 13 |
in the us and | 13 |
has been found to | 13 |
after influenza virus infection | 13 |
and severity of influenza | 13 |
these findings suggest that | 13 |
influenza a viruses to | 13 |
human conjunctivitis and a | 13 |
to the human population | 13 |
between human and avian | 13 |
different strains of influenza | 13 |
the genome of the | 13 |
are associated with a | 13 |
a virus h n | 13 |
and h n avian | 13 |
antibody response to influenza | 13 |
have yet to be | 13 |
during the hong kong | 13 |
is thought to be | 13 |
in most of the | 13 |
associated with human conjunctivitis | 13 |
identification and characterization of | 13 |
stages of the pandemic | 13 |
n pdm virus infection | 13 |
the site of infection | 13 |
the h n viruses | 13 |
with chronic lung disease | 13 |
writing committee of the | 13 |
influenza virus ns protein | 13 |
fatal case of acute | 13 |
has been implicated in | 13 |
of children with influenza | 13 |
virus infection in china | 13 |
in view of the | 13 |
have been implicated in | 13 |
of the antibody response | 13 |
induction of proinflammatory cytokines | 13 |
the course of illness | 13 |
t cell responses to | 13 |
influenza c virus ns | 13 |
fast set h n | 13 |
in lung epithelial cells | 13 |
of pandemic avian influenza | 13 |
one of the major | 13 |
is possible that the | 13 |
been reported to be | 13 |
test was used to | 13 |
as part of a | 13 |
of pandemic influenza and | 13 |
are known to be | 13 |
receptor specificity of influenza | 13 |
the transmission of influenza | 13 |
of influenza epidemics on | 13 |
effectiveness of inactivated influenza | 13 |
antiviral treatment should be | 13 |
with a novel avian | 13 |
strain was isolated from | 13 |
influenza vaccine for the | 13 |
hemorrhagic fever with renal | 13 |
european centre for disease | 13 |
hours after the onset | 13 |
is unlikely to be | 13 |
with the potential to | 13 |
the human influenza virus | 13 |
circulation of h n | 13 |
infection in hong kong | 13 |
influenza virus vaccine in | 13 |
human h n viruses | 13 |
against homologous and heterologous | 13 |
aged years or older | 13 |
seasonal influenza vaccine effectiveness | 13 |
t cell responses in | 13 |
of the total number | 13 |
in the proportion of | 13 |
disease burden and costs | 13 |
the content of the | 13 |
the development of novel | 13 |
a new influenza virus | 13 |
considered to be the | 13 |
be related to the | 13 |
type a influenza virus | 13 |
on the presence of | 13 |
and a fatal case | 13 |
are those of the | 13 |
and the lack of | 13 |
risk of severe disease | 13 |
a highly pathogenic and | 13 |
reconstructed spanish influenza pandemic | 13 |
in the st century | 13 |
was calculated as the | 13 |
the treatment of severe | 13 |
was significantly associated with | 13 |
spanish influenza pandemic virus | 13 |
immunogenicity and safety of | 13 |
at the level of | 13 |
during the outbreak in | 13 |
in australia and new | 13 |
treatment and prophylaxis of | 13 |
set h n v | 13 |
rna was extracted from | 13 |
avian influenza virus in | 13 |
to the secondary site | 13 |
of the burden of | 13 |
h n and the | 13 |
report of the international | 13 |
a decrease in the | 13 |
the pandemic potential of | 13 |
viruses belonging to the | 13 |
number of influenza a | 13 |
immunization practices advisory committee | 13 |
demographic and clinical characteristics | 13 |
that there is a | 13 |
a virus m protein | 13 |
on the part of | 13 |
of the international committee | 13 |
of immunity to influenza | 13 |
seasonal influenza a in | 13 |
influenza a viruses the | 13 |
pneumonia and respiratory failure | 13 |
influenza a viruses have | 13 |
on the cell surface | 13 |
length of hospital stay | 13 |
associated with pandemic influenza | 13 |
of the efficacy of | 13 |
of this study is | 13 |
a major role in | 13 |
pregnant and postpartum women | 13 |
influenza viruses a and | 13 |
influenza virus m protein | 13 |
the territory of the | 13 |
and review of the | 13 |
structured conditional autoregression term | 13 |
p p p p | 13 |
those of the authors | 13 |
and shortness of breath | 13 |
of the spread of | 13 |
was added to each | 13 |
associated with severe influenza | 13 |
antibodies directed against the | 13 |
to cause a pandemic | 13 |
the annual impact of | 13 |
seasonal influenza vaccine and | 13 |
vaccination is the most | 13 |
measuring disease burden and | 13 |
patients admitted to the | 13 |
in the state of | 13 |
influenza a virus subtypes | 13 |
the number of patients | 13 |
by h n virus | 13 |
a significant reduction in | 13 |
seasonal a h n | 13 |
virus related to a | 13 |
it is believed that | 13 |
of hong kong h | 13 |
specimens were collected from | 13 |
the hong kong h | 13 |
in pandemic influenza a | 13 |
replication of influenza virus | 13 |
were admitted to the | 13 |
the purpose of this | 13 |
respiratory infections due to | 13 |
the seasonal influenza a | 13 |
to the induction of | 13 |
impact of influenza epidemics | 13 |
there was no evidence | 13 |
annual impact of seasonal | 13 |
of air travel on | 13 |
thought to be the | 13 |
a number of studies | 13 |
were collected from the | 13 |
amino acid change in | 13 |
the basic reproduction number | 13 |
the development of influenza | 13 |
are considered to be | 13 |
a significant proportion of | 13 |
resistance during treatment of | 13 |
as a h n | 13 |
h n viruses and | 13 |
at day after infection | 13 |
the quality of the | 13 |
in the intensive care | 13 |
been shown to have | 13 |
against lethal h n | 13 |
conjunctivitis and a fatal | 13 |
northern and southern hemispheres | 13 |
as early as possible | 13 |
in the influenza season | 13 |
influenza surveillance and response | 13 |
to avian influenza a | 13 |
virus in hong kong | 13 |
is worth noting that | 13 |
crossed the species barrier | 13 |
would be expected to | 13 |
responses to influenza a | 13 |
in children younger than | 13 |
case of avian influenza | 13 |
the novel influenza a | 13 |
spatially structured conditional autoregression | 13 |
of the life sciences | 13 |
are similar to those | 13 |
were less likely to | 13 |
appears to be a | 13 |
there has been no | 13 |
for health care workers | 13 |
n viruses were isolated | 13 |
symptoms predicting influenza infection | 13 |
be one of the | 13 |
according to the world | 13 |
of the reconstructed spanish | 13 |
was no evidence of | 13 |
in a group of | 13 |
in the field of | 13 |
influenza in hong kong | 13 |
be found in the | 13 |
influenza c virus is | 13 |
inactivated influenza vaccines in | 13 |
of human influenza virus | 13 |
human macrophages by influenza | 13 |
hospitalized patients with h | 13 |
case of acute respiratory | 13 |
were not able to | 13 |
influenza sentinel surveillance system | 13 |
due to the presence | 13 |
has been detected in | 13 |
a new strain of | 13 |
a cause for concern | 13 |
for the unusual severity | 13 |
have not yet been | 13 |
with human conjunctivitis and | 13 |
and pandemic influenza a | 13 |
origins and evolutionary genomics | 13 |
have been detected in | 13 |
acute respiratory syndrome and | 13 |
which is consistent with | 13 |
generation of influenza a | 13 |
were the most common | 12 |
the context of an | 12 |
related to a highly | 12 |
is dependent on relative | 12 |
transmission is dependent on | 12 |
is associated with an | 12 |
may or may not | 12 |
threat of pandemic influenza | 12 |
state collection of viruses | 12 |
cytokines in human macrophages | 12 |
ha and na from | 12 |
the control of the | 12 |
there is a high | 12 |
of three segments of | 12 |
safety of oseltamivir in | 12 |
on relative humidity and | 12 |
is known about the | 12 |
global influenza surveillance and | 12 |
the majority of cases | 12 |
the transfer of the | 12 |
and do not necessarily | 12 |
h and h strains | 12 |
n virus related to | 12 |
an incubation period of | 12 |
was strongly associated with | 12 |
of influenza vaccines for | 12 |
to contribute to the | 12 |
and interpretation of data | 12 |
against respiratory syncytial virus | 12 |
there is some evidence | 12 |
were found in the | 12 |
of tumor necrosis factor | 12 |
it is known that | 12 |
recommendations of the immunization | 12 |
to prevent the spread | 12 |
vaccination of health care | 12 |
a large proportion of | 12 |
viral replication in the | 12 |
respiratory tract of humans | 12 |
morbidity and mortality worldwide | 12 |
severity of the disease | 12 |
from influenza a virus | 12 |
the ability of influenza | 12 |
cause of morbidity and | 12 |
years of life lost | 12 |
on the host cell | 12 |
the course of infection | 12 |
prevention of influenza in | 12 |
viruses belong to the | 12 |
and pandemic influenza in | 12 |
in the s and | 12 |
in the mouse model | 12 |
during treatment of influenza | 12 |
to h n influenza | 12 |
can be used in | 12 |
avian h n viruses | 12 |
hong kong influenza epidemic | 12 |
of influenza viruses by | 12 |
vaccine effectiveness in the | 12 |
n swine influenza virus | 12 |
from the influenza pandemic | 12 |
between cases and controls | 12 |
to be used in | 12 |
at the expense of | 12 |
associated with influenza virus | 12 |
surveillance of influenza and | 12 |
the authors and do | 12 |
for seasonal and pandemic | 12 |
recombinant influenza a virus | 12 |
correlates of protection for | 12 |
morbidity and mortality of | 12 |
of type a influenza | 12 |
sensitivity and specificity for | 12 |
h n in the | 12 |
in collaboration with the | 12 |
and prevention of influenza | 12 |
of japanese encephalitis virus | 12 |
h n and influenza | 12 |
influenza a virus of | 12 |
and pandemic influenza viruses | 12 |
on the number of | 12 |
treatment and chemoprophylaxis of | 12 |
efficacy of live attenuated | 12 |
seasonal influenza a viruses | 12 |
of antibody to avian | 12 |
for influenza a viruses | 12 |
h n strains isolated | 12 |
mechanism for the unusual | 12 |
in humans in the | 12 |
vaccination coverage rates in | 12 |
type ii transmembrane serine | 12 |
the who global influenza | 12 |
in the czech republic | 12 |
and respiratory failure from | 12 |
viruses in the and | 12 |
no significant differences in | 12 |
children years of age | 12 |
pandemic in southeast asia | 12 |
virus transmission is dependent | 12 |
to account for the | 12 |
included in the study | 12 |
virus in eastern asia | 12 |
of the amino acid | 12 |
journal of infectious diseases | 12 |
of the lack of | 12 |
strains were isolated in | 12 |
of the severe acute | 12 |
was significantly higher in | 12 |
patients with confirmed influenza | 12 |
mechanism of action of | 12 |
among infants and young | 12 |
group and group influenza | 12 |
an avian h n | 12 |
mutation in the na | 12 |
of pandemic a h | 12 |
not necessarily represent the | 12 |
virus infections in humans | 12 |
vaccine virus selection and | 12 |
among adults hospitalized with | 12 |
willingness to work during | 12 |
virus receptors in the | 12 |
virus a and b | 12 |
n influenza viruses isolated | 12 |
influenza a viruses of | 12 |
is more likely to | 12 |
was associated with increased | 12 |
h and h viruses | 12 |
in the upper and | 12 |
the united states the | 12 |
human transmission of the | 12 |
united states during the | 12 |
highly pathogenic and potentially | 12 |
human h n infection | 12 |
to the host cell | 12 |
h avian influenza viruses | 12 |
other parts of the | 12 |
with willingness to work | 12 |
was estimated to be | 12 |
authors and do not | 12 |
health care workers and | 12 |
research institute of influenza | 12 |
pathogenic and potentially pandemic | 12 |
containing the ha and | 12 |
approved by the institutional | 12 |
is due to the | 12 |
pandemic h n and | 12 |
virus types and subtypes | 12 |
influenza b virus in | 12 |
the middle east respiratory | 12 |
in the range of | 12 |
over the course of | 12 |
more than one virus | 12 |
innate immune response to | 12 |
in the soviet union | 12 |
as a consequence of | 12 |
are consistent with the | 12 |
resistant influenza a viruses | 12 |
the evolution of h | 12 |
should be treated with | 12 |
unusual severity of human | 12 |
diverse influenza a viruses | 12 |
diagnosis of influenza in | 12 |
with h n pdm | 12 |
from the perspective of | 12 |
induced by influenza a | 12 |
evolution of the h | 12 |
is well known that | 12 |
oseltamivir resistance during treatment | 12 |
is not possible to | 12 |
onset of symptoms and | 12 |
human and animal influenza | 12 |
the results of a | 12 |
with influenza virus a | 12 |
of acute otitis media | 12 |
the best way to | 12 |
dependent on relative humidity | 12 |
in different age groups | 12 |
and in vivo characterization | 12 |
at the site of | 12 |
vaccine virus selection process | 12 |
and influenza b virus | 12 |
of an infectious disease | 12 |
of patients with an | 12 |
the h y na | 12 |
severity of human disease | 12 |
infection with highly pathogenic | 12 |
the avian influenza a | 12 |
as the cause of | 12 |
influenza virus activity of | 12 |
responses to pandemic influenza | 12 |
vaccine based on the | 12 |
the amino acid sequence | 12 |
infection with influenza h | 12 |
and other respiratory pathogens | 12 |
global burden of respiratory | 12 |
analysis was performed using | 12 |
different subtypes of influenza | 12 |
at increased risk for | 12 |
of cases and controls | 12 |
reactive antibody response to | 12 |
samples were collected from | 12 |
for containing an emerging | 12 |
this is consistent with | 12 |
of influenza and respiratory | 12 |
the need for a | 12 |
to the production of | 12 |
and pandemic influenza virus | 12 |
influenza vaccine effectiveness against | 12 |
a strain of influenza | 12 |
with underlying medical conditions | 12 |
at risk for severe | 12 |
and potentially pandemic h | 12 |
titers in the lungs | 12 |
a swine h n | 12 |
potential of a strain | 12 |
outbreaks of highly pathogenic | 12 |
isolated from humans in | 12 |
or chronic obstructive pulmonary | 12 |
the management of influenza | 12 |
shown to be effective | 12 |
the transmission of the | 12 |
in close contact with | 12 |
other respir viruses doi | 12 |
h n v influenza | 12 |
agents for the treatment | 12 |
of the public health | 12 |
by avian influenza a | 12 |
to the respiratory tract | 12 |
in new york city | 12 |
written informed consent was | 12 |
the primary binding site | 12 |
the threat of an | 12 |
patterns of viral shedding | 12 |
avian influenza viruses have | 12 |
analysis of individual participant | 12 |
hematopoietic stem cell transplantation | 12 |
to reduce the risk | 12 |
the protective effect of | 12 |
of aerosol transmission of | 12 |
the prevention and control | 12 |
influenza a viruses by | 12 |
in time to resolution | 12 |
were detected in the | 12 |
a mouse model of | 12 |
and the ability to | 12 |
and the potential for | 12 |
the use of influenza | 12 |
emerging influenza pandemic in | 12 |
the cause of the | 12 |
influenza virus was detected | 12 |
potentially pandemic h n | 12 |
has been described in | 12 |
influenza vaccination is recommended | 12 |
antibody response to ph | 12 |
influenza virus and the | 12 |
with increased risk of | 12 |
studies have suggested that | 12 |
in children with influenza | 12 |
development of a universal | 12 |
the development of live | 12 |
h n viruses that | 12 |
studies are required to | 12 |
the cost of the | 12 |
identification of influenza a | 12 |
containing an emerging influenza | 12 |
doses of influenza vaccine | 12 |
of the hemagglutinin of | 12 |
outbreak of influenza a | 12 |
there is no evidence | 12 |
vaccine effectiveness in preventing | 12 |
of the influenza viruses | 12 |
the flu watch cohort | 12 |
h n virus related | 12 |
influenza viruses in humans | 12 |
there has been a | 12 |
of protection against influenza | 12 |
number of cases of | 12 |
to seasonal influenza in | 12 |
may have contributed to | 12 |
influenza pandemic in southeast | 12 |
in the viral genome | 12 |
epithelial cells of the | 12 |
the main cause of | 12 |
in h n influenza | 12 |
antiviral activity against influenza | 12 |
an overview of the | 12 |
rvar rvar rvar rvar | 12 |
of the spanish flu | 12 |
to be included in | 12 |
referred to as the | 12 |
human nasal epithelial cells | 12 |
genesis of a highly | 12 |
can lead to the | 12 |
between the two groups | 12 |
the extent to which | 12 |
the difference in the | 12 |
laboratory confirmation of influenza | 12 |
the ha cleavage site | 12 |
plan for pandemic influenza | 12 |
proinflammatory cytokines in human | 12 |
with the number of | 12 |
factors associated with death | 12 |
h n virus between | 12 |
may be explained by | 12 |
had at least one | 12 |
of influenza virus is | 12 |
influenza virus assembly and | 12 |
of the virus into | 12 |
for the influenza pandemic | 12 |
the ph n virus | 12 |
was considered to be | 12 |
influenza virus type a | 12 |
protein of influenza c | 12 |
strategies for containing an | 12 |
in the community and | 12 |
has been observed in | 12 |
we were unable to | 12 |
trust in official information | 12 |
have a role in | 12 |
systematic review and metaanalysis | 12 |
small for gestational age | 12 |
and safety of oseltamivir | 12 |
be expected to be | 12 |
are associated with the | 12 |
within days of symptom | 11 |
h n pdm influenza | 11 |
surveillance and response system | 11 |
influenza virus receptor specificity | 11 |
each of the three | 11 |
the pandemic and the | 11 |
were treated with oseltamivir | 11 |
of influenza surveillance in | 11 |
of the presence of | 11 |
it has been estimated | 11 |
of a patient with | 11 |
during the early stages | 11 |
study of influenza virus | 11 |
years of age in | 11 |
the antiviral activity of | 11 |
at the university of | 11 |
patients with chronic diseases | 11 |
preventing influenza in healthy | 11 |
influenza virus challenge in | 11 |
receipt of inactivated influenza | 11 |
epidemiology of human infections | 11 |
an important determinant of | 11 |
mortality in patients admitted | 11 |
in the last years | 11 |
to play a role | 11 |
the interaction between influenza | 11 |
response to the virus | 11 |
proteases tmprss and hat | 11 |
morbidity and mortality rates | 11 |
and chronic obstructive pulmonary | 11 |
avian influenza viruses of | 11 |
phylogenetic analysis based on | 11 |
a single amino acid | 11 |
control of pandemic influenza | 11 |
an important cause of | 11 |
an h n strain | 11 |
the potential use of | 11 |
virus infection in hong | 11 |
of the viral envelope | 11 |
the burden of disease | 11 |
h n viruses from | 11 |
is recommended for all | 11 |
antigenic drift and antigenic | 11 |
of h n in | 11 |
neuraminidase inhibitor zanamivir in | 11 |
data provided by the | 11 |
the result of the | 11 |
the distribution of the | 11 |
the ability of the | 11 |
catalogue of arboviruses including | 11 |
fatal avian influenza a | 11 |
is a member of | 11 |
the national influenza surveillance | 11 |
the public health response | 11 |
arboviruses including certain other | 11 |
presenting with diarrhea followed | 11 |
morbidity and mortality associated | 11 |
risk factors for influenza | 11 |
studies are needed to | 11 |
of influenza in young | 11 |
the length of the | 11 |
the increase in the | 11 |
for prevention and control | 11 |
compared to those who | 11 |
swine h n influenza | 11 |
for a long time | 11 |
has been demonstrated to | 11 |
more of the following | 11 |
writing of the manuscript | 11 |
type i and type | 11 |
the pathogenicity of the | 11 |
resident memory t cells | 11 |
evolution of influenza a | 11 |
at the peak of | 11 |
in a subtropical city | 11 |
a h n vaccine | 11 |
early phase of the | 11 |
characterization of new swine | 11 |
the first pandemic of | 11 |
also been shown to | 11 |
vivo and in vitro | 11 |
h n vaccine in | 11 |
pandemic potential of a | 11 |
with chronic obstructive pulmonary | 11 |
in cases of influenza | 11 |
acute respiratory illness and | 11 |
the effects of the | 11 |
influenza virus pathogenesis and | 11 |
the reason for this | 11 |
of widespread influenza activity | 11 |
significant increase in the | 11 |
the central nervous system | 11 |
been reported in the | 11 |
t cell response to | 11 |
effect of influenza vaccination | 11 |
arboviruses and some others | 11 |
short period of time | 11 |
in the production of | 11 |
h n influenza strain | 11 |
preparing for the next | 11 |
among patients hospitalized with | 11 |
the national center for | 11 |
the virus and the | 11 |
pathogenesis of avian influenza | 11 |
of the united states | 11 |
like illness during an | 11 |
hpai h n viruses | 11 |
influenza a virus genome | 11 |
novel avian influenza a | 11 |
of the infectious diseases | 11 |
exposure to the virus | 11 |
an influenza pandemic in | 11 |
there were no differences | 11 |
has also been shown | 11 |
is involved in the | 11 |
of the department of | 11 |
of the flu watch | 11 |
the impact of a | 11 |
viral load in the | 11 |
diarrhea followed by coma | 11 |
influenza virus in eastern | 11 |
seasonal influenza virus infection | 11 |
air travel on the | 11 |
until the end of | 11 |
the development of universal | 11 |
influenza virus in vitro | 11 |
morbidity and mortality among | 11 |
to the threat of | 11 |
beginning of the pandemic | 11 |
influenza infection in humans | 11 |
protection against influenza infection | 11 |
of influenza vaccine for | 11 |
epidemiological and virological characteristics | 11 |
n influenza in australia | 11 |
taking into account the | 11 |
illness during an influenza | 11 |
influenza epidemics and pandemics | 11 |
the present study was | 11 |
was not observed in | 11 |
in the pandemic of | 11 |
to stay home for | 11 |
the spread of respiratory | 11 |
of the next influenza | 11 |
of arboviruses and some | 11 |
pandemic influenza at the | 11 |
in the early s | 11 |
neuraminidase inhibitors in reducing | 11 |
influenza vaccination during pregnancy | 11 |
who global influenza surveillance | 11 |
influenza a viruses among | 11 |
patients hospitalized with severe | 11 |
n avian influenza in | 11 |
the treatment of acute | 11 |
virus de la gripe | 11 |
drift and antigenic shift | 11 |
h n virus is | 11 |
and some others viruses | 11 |
results of this study | 11 |
others viruses of vertebrates | 11 |