about
An Outbreak of Chikungunya in Rural Bangladesh, 2011The Integrated Behavioural Model for Water, Sanitation, and Hygiene: a systematic review of behavioural models and a framework for designing and evaluating behaviour change interventions in infrastructure-restricted settingsIt's not only what you say, it's also how you say it: communicating nipah virus prevention messages during an outbreak in BangladeshA Strategy To Estimate Unknown Viral Diversity in MammalsPerformance of kala-azar surveillance in Gaffargaon subdistrict of Mymensingh, BangladeshHand- and Object-Mouthing of Rural Bangladeshi Children 3-18 Months OldSafety and acceptability of Lactobacillus reuteri DSM 17938 and Bifidobacterium longum subspecies infantis 35624 in Bangladeshi infants: a phase I randomized clinical trialThe pandemic potential of Nipah virus.Indoor exposure to particulate matter and age at first acute lower respiratory infection in a low-income urban community in Bangladesh.Evaluating Hospital-Based Surveillance for Outbreak Detection in Bangladesh: Analysis of Healthcare Utilization DataKala-azar in pregnancy in Mymensingh, Bangladesh: a social autopsyHousehold air quality risk factors associated with childhood pneumonia in urban Dhaka, Bangladesh.An epidemiological study of avian influenza A (H5) virus in nomadic ducks and their raising practices in northeastern Bangladesh, 2011-2012.Incidence of and risk factors for hospital-acquired diarrhea in three tertiary care public hospitals in Bangladesh.Healthcare worker and family caregiver hand hygiene in Bangladeshi healthcare facilities: results from the Bangladesh National Hygiene Baseline Survey.Microbiological evaluation of the efficacy of soapy water to clean hands: a randomized, non-inferiority field trial.Outbreak of hepatitis E in urban Bangladesh resulting in maternal and perinatal mortalityDynamics of Japanese encephalitis virus transmission among pigs in Northwest Bangladesh and the potential impact of pig vaccination.Economic burden of influenza-associated hospitalizations and outpatient visits in Bangladesh during 2010Serological evidence of henipavirus exposure in cattle, goats and pigs in Bangladesh.Impact of duration of structured observations on measurement of handwashing behavior at critical times.Designing a handwashing station for infrastructure-restricted communities in Bangladesh using the integrated behavioural model for water, sanitation and hygiene interventions (IBM-WASH)Exposure-based screening for Nipah virus encephalitis, Bangladesh.Infrastructure and contamination of the physical environment in three Bangladeshi hospitals: putting infection control into context.Population-based incidence of severe acute respiratory virus infections among children aged <5 years in rural Bangladesh, June-October 2010Differences in field effectiveness and adoption between a novel automated chlorination system and household manual chlorination of drinking water in Dhaka, Bangladesh: a randomized controlled trialEffects of source- versus household contamination of tubewell water on child diarrhea in rural Bangladesh: a randomized controlled trialHighly pathogenic Avian Influenza A(H5N1) virus infection among workers at live bird markets, Bangladesh, 2009-2010.Zoonotic parapoxviruses detected in symptomatic cattle in Bangladesh.Impact of Intensive Handwashing Promotion on Secondary Household Influenza-Like Illness in Rural Bangladesh: Findings from a Randomized Controlled Trial.Integrated cluster- and case-based surveillance for detecting stage III zoonotic pathogens: an example of Nipah virus surveillance in BangladeshObserved practices and perceived advantages of different hand cleansing agents in rural Bangladesh: ash, soil, and soap.Raw Sap Consumption Habits and Its Association with Knowledge of Nipah Virus in Two Endemic Districts in Bangladesh.The Interaction of Deworming, Improved Sanitation, and Household Flooring with Soil-Transmitted Helminth Infection in Rural BangladeshRespiratory Viruses Associated Hospitalization among Children Aged <5 Years in Bangladesh: 2010-2014.Genetically Diverse Low Pathogenicity Avian Influenza A Virus Subtypes Co-Circulate among Poultry in Bangladesh.Understanding the failure of a behavior change intervention to reduce risk behaviors for avian influenza transmission among backyard poultry raisers in rural Bangladesh: a focused ethnographyUnusually High Mortality in Waterfowl Caused by Highly Pathogenic Avian Influenza A(H5N1) in Bangladesh.Prevalence and clinical presentation of Rickettsia, Coxiella, Leptospira, Bartonella and chikungunya virus infections among hospital-based febrile patients from December 2008 to November 2009 in Bangladesh.Piloting the promotion of bamboo skirt barriers to prevent Nipah virus transmission through date palm sap in Bangladesh.
P50
Q24701761-57CF844B-BB0A-4E1E-95A2-E617F99E986CQ26865653-8909D61E-8F0D-41A8-98A2-698FEC40B547Q27309994-C11E22AF-4F48-4159-B878-127F143D625EQ27777555-A3021259-FB74-491A-93B4-4948542EAE1BQ28546021-3CE76690-AC63-4F50-AB7A-8C552B8FF10FQ28597189-C964DB57-875E-4DC0-A977-127D42324B98Q28601612-163E967A-0CF6-4E8D-BAF3-89E621067228Q30352577-6EC13485-BA87-4220-B9DE-9F91ADC69895Q30405770-21510E06-D626-44AB-8CE4-C403526A2CFFQ31155067-9FBAA78E-AB03-4311-A392-E6164699F0D6Q33553025-3159B1BF-AC36-4D91-881E-8C1D25584361Q33588584-32CDC661-29DF-46F3-8F7B-C777E8B40547Q33619851-35DC3364-DE66-4BC7-8311-55D2423D7015Q33841080-D0AC188A-EB09-4A1C-898B-C829EDB14E66Q33866723-6FE98E32-9F77-4E5E-A0EA-E04488341169Q34016028-2DF3CAD5-5A77-4AAA-83B1-2DAEEF7ADC8CQ34034046-BA0DBC85-DCCC-49E6-898C-A7CFFDEA45B2Q34257111-9491FBB2-8DCC-49FF-900E-C2534A3154D2Q34274802-27A6BBE2-A313-4535-B422-855512ADF47FQ34549597-31D3EA92-34DE-4A2C-9894-A5018D723EFBQ34893895-A89514EC-DBFF-40D2-962F-943E1E334F12Q34995742-BAC05600-40C4-4B04-843C-7F8E5CB93D8DQ35037429-026177EE-038F-4F8F-A054-3455CFF26E8EQ35106645-24DD513A-3169-4E0E-9981-C7EAEC1BF3D9Q35108485-2B24A5DA-168F-414B-A971-CE9C697445EBQ35143716-E833F53A-B5CB-4AF7-9348-883968EDB749Q35225032-5F49DFA6-B9F5-46DE-9D41-B4E80C747778Q35229629-CE5D7DDE-E820-419C-8491-F40345017732Q35438141-E65492F4-AA32-45D6-9484-7E20349F8571Q35661251-D1CA1BFC-72B1-4955-BC54-8F458DA6C0E0Q35686524-6D3514C3-5926-49F8-B515-6E56127B0582Q35692455-310CD883-6D39-4A8E-BCD7-C2091605F469Q35835979-DDED2C8D-30DC-494C-8C82-FD8B65E1910EQ35857105-DEA002D3-E11F-4C28-A3E4-E8C4488B4810Q35913412-7FA68C9A-DB9D-4E71-B7F9-3E7B0D4D42EAQ35969050-C93B5349-B30E-479A-9E7B-4011F5D1B1EAQ36110586-2E66D284-3B43-4E3E-B2AF-4930E3918EFCQ36253799-B39D1583-A87A-48F9-B894-0BB399359876Q36278978-1140A936-DF12-4DE7-8644-A79F2AF0377BQ36338002-15CA79B4-B5FA-48C9-8111-532EF0F11498
P50
description
hulumtues
@sq
onderzoeker
@nl
researcher
@en
ricercatore
@it
հետազոտող
@hy
name
Stephen Luby
@ast
Stephen Luby
@en
Stephen Luby
@es
Stephen Luby
@nl
Stephen Luby
@sl
type
label
Stephen Luby
@ast
Stephen Luby
@en
Stephen Luby
@es
Stephen Luby
@nl
Stephen Luby
@sl
prefLabel
Stephen Luby
@ast
Stephen Luby
@en
Stephen Luby
@es
Stephen Luby
@nl
Stephen Luby
@sl
P214
P244
P106
P21
P214
P244
no2014167347
P31
P496
0000-0001-5385-899X
P735
P7859
lccn-no2014167347