Effect of route of inoculation on experimental respiratory viral disease in volunteers and evidence for airborne transmission.
about
Improving the health of workers in indoor environments: priority research needs for a National Occupational Research AgendaAirborne rhinovirus detection and effect of ultraviolet irradiation on detection by a semi-nested RT-PCR assayPossible SARS coronavirus transmission during cardiopulmonary resuscitationViral quasispecies evolutionExhaled aerosol transmission of pandemic and seasonal H1N1 influenza viruses in the ferretQuantitative Microbial Risk Assessment in Occupational Settings Applied to the Airborne Human Adenovirus InfectionSeasonal Dynamics of the Airborne Bacterial Community and Selected Viruses in a Children's Daycare CenterTransmission of aerosolized seasonal H1N1 influenza A to ferretsAerosol transmission of influenza A virus: a review of new studiesRhinoviruses.Rhinovirus transmission: one if by air, two if by handInfluenza virus in human exhaled breath: an observational study.Characterizations of particle size distribution of the droplets exhaled by sneeze.An experimental model of rhinovirus induced chronic obstructive pulmonary disease exacerbations: a pilot studyThe red queen reigns in the kingdom of RNA virusesHealth risk assessment related to waterborne pathogens from the river to the tap.Viruses and indoor air pollutionInfluenza seasonality: underlying causes and modeling theories.Aerobiology and its role in the transmission of infectious diseases.Subclonal components of consensus fitness in an RNA virus cloneMethod for detecting viruses in aerosols.The minimal infectious dose of adenovirus type 4; the case for natural transmission by viral aerosol.Airborne influenza virus detection with four aerosol samplers using molecular and infectivity assays: considerations for a new infectious virus aerosol samplerAssessment of experimental and natural viral aerosols.Innate and adaptive immune responses against picornaviruses and their counteractions: An overview.Adaptation of an ICAM-1-tropic enterovirus to the mouse respiratory tract.Mechanisms of virus pathogenicityAn investigation of the possible transmission of Rhinovirus colds through indirect contactGenetic bottlenecks and population passages cause profound fitness differences in RNA viruses.Many-trillionfold amplification of single RNA virus particles fails to overcome the Muller's ratchet effect.Ability of device to collect bacteria from cough aerosols generated by adults with cystic fibrosis.Author's Comments on the Discussion.Comparison of results of detection of rhinovirus by PCR and viral culture in human nasal wash specimens from subjects with and without clinical symptoms of respiratory illness.Pathogenesis of mycoplasma pneumonia of swine.Quantitative microbial risk assessment of Greywater on-site reuse
P2860
Q23917743-72418F9E-9FB9-4C28-ACD2-D20ABA6AD4A6Q23922457-4F038066-1235-452D-B737-01DEE4195EF7Q26062853-81AEC2B0-9462-4AB1-B0C5-6CDE68490B40Q27013917-A751237D-6BC3-4B24-8D0D-9E2A375F73B1Q28382996-33209921-3A36-4F8D-A1FD-6E0ADDFA9565Q28385162-E23DDD1B-02CC-4CA5-9289-8909940ACE26Q28388805-4036EA1F-51F6-4590-AF03-72851EF2994DQ28392082-809F670B-63F9-414C-9F4A-D358466AF5EBQ28394394-29260A42-FFD4-41C2-A57F-186A75FEB6DBQ30440675-281CDA85-F3C4-47BD-A1B9-B33A56E1FDAEQ30443240-95A6984D-4FF5-4F2B-B6A8-1CC289573BC8Q33352039-828F31F7-3449-4DDC-A2CA-E9C527B97040Q34985411-7204F7B2-AD5F-48B8-8CD5-AD89A9011EEFQ35052272-6E9D1727-E97C-466E-9CE8-9F25180F27A4Q35297195-8A06F522-0808-4039-A758-30407AB58D7BQ35575751-6117C49E-E5C6-4721-865E-41858F884CD0Q35651740-51B9BD50-F12E-4551-9446-62E304C550B0Q35857597-AD825445-6804-4D18-8318-D659A6C4DC6AQ36567324-A0D26541-B91A-4CBA-B77C-45DD8E44E92FQ36621867-880CD0E9-CECF-4E1B-8CA2-BF96AE17723CQ36663444-AA72A8E4-2E8F-44C9-82F6-0A87E42F2AC8Q36738436-0CD864CA-1B03-43B2-BEFE-C860336FED0AQ36934049-D7BDFE0B-D295-4F98-A857-B567FD44A4EBQ37195935-47B776F8-CE04-4A90-BE85-206CFA73DFA7Q38156856-58C7334A-5F8F-49A7-84A1-D4A4C006B8ACQ39573125-290177D1-B1EA-45BE-822A-85247A49568BQ39920727-FA331648-F8BD-4CFB-9FCC-C797D637AD3DQ39953014-8A0FF61A-6C24-4125-AC77-3141617DD372Q40043495-5E830AD1-2C77-461E-BF46-8F463541AA29Q40045560-7E3B3BD8-FBD5-4CC1-982F-5F4A805464DFQ40485160-26CF0A99-4D29-40FA-B22B-1E466BFB5BD8Q40720577-E3E749E7-1DFF-4338-9334-222276DCE1FCQ42432272-C25F0A1B-2AD9-47A2-8E22-5C4F67A180F0Q42573889-F2DE7191-9FFA-454B-BE7A-3F4B4A256179Q58199555-33C24B81-C405-40D4-8B4A-F4FA336E0C1E
P2860
Effect of route of inoculation on experimental respiratory viral disease in volunteers and evidence for airborne transmission.
description
article científic
@ca
article scientifique
@fr
articolo scientifico
@it
artigo científico
@pt
bilimsel makale
@tr
scientific article published on September 1966
@en
vedecký článok
@sk
vetenskaplig artikel
@sv
videnskabelig artikel
@da
vědecký článek
@cs
name
Effect of route of inoculation ...... nce for airborne transmission.
@en
Effect of route of inoculation ...... nce for airborne transmission.
@nl
type
label
Effect of route of inoculation ...... nce for airborne transmission.
@en
Effect of route of inoculation ...... nce for airborne transmission.
@nl
prefLabel
Effect of route of inoculation ...... nce for airborne transmission.
@en
Effect of route of inoculation ...... nce for airborne transmission.
@nl
P2093
P2860
P1476
Effect of route of inoculation ...... nce for airborne transmission.
@en
P2093
P2860
P304
P577
1966-09-01T00:00:00Z