|
656797d3212eaade2e0ee48c
|
2018
|
Canada
|
Global Affairs Canada
|
20182004740004
|
P006075001
|
1
|
Asia, regional
|
Asia
|
Part I unallocated by income
|
ODA Grants
|
1
|
10
|
110
|
B03
|
0.154309
|
0.154309
|
0
|
0
|
0.154309
|
0.154309
|
0
|
0.154309
|
0
|
0
|
Communicable diseases
|
Communicable diseases Other
|
100
|
SUPPORT TO THE CONTINGENCY FUN...D FOR EMERGENCIES - WORLD HEALTH ORGANIZATION 2018/APPUI AU FONDS DE CONTINGENCE POUR LES SITUATIONS D'URGENCE - ORGANI
more
|
Support to the Contingency Fun...d for Emergencies - World Health Organization 2018/Appui au fonds de contingence pour les situations d'urgence - Organisation mondiale de la santé 2018
more
|
Support to the Contingency Fun...d for Emergencies - World Health Organization 2018 / Appui au fonds de contingence pour les situations d'urgence - Organisation mondiale de la santé 2018
more
|
Mainly allocations to activiti...es against diseases falling under sub-category 6 g but also includes activities against other diseases and responses to natural and man-made disasters (Africa, regional P006075001 Support to the Contingency Fund for Emergencies - World Health Organization 2018)
more
|
72010
|
Material relief assistance and... services
more
|
|
VIII.1. Emergency Response
|
41143
|
World Health Organisation - co...re voluntary contributions account
more
|
WHO - World Health Organizatio...n
more
|
|
|
|
656797d4212eaade2e0ee48d
|
2018
|
Canada
|
International Development Rese...arch Centre
more
|
20150080080002
|
108008
|
3
|
Bangladesh
|
South & Central Asia
|
LDCs
|
ODA Grants
|
1
|
10
|
110
|
C01
|
0
|
0.00473011
|
0
|
0
|
0
|
0.00473011
|
0
|
|
0
|
|
Communicable diseases
|
Communicable diseases Other
|
100
|
LEVERAGING MOBILE NETWORK BIG ...DATA FOR DEVELOPMENTAL POLICY
more
|
Leveraging Mobile Network Big ...Data for Developmental Policy
more
|
|
|
22040
|
Information and communication ...technology (ICT)
more
|
|
II.2. Communications
|
23000
|
Developing country-based NGO
|
LirneAsia
|
|
|
|
656797d4212eaade2e0ee48e
|
2018
|
Canada
|
Miscellaneous
|
20181130030001
|
PHAC-2018-3
|
3
|
Bangladesh
|
South & Central Asia
|
LDCs
|
ODA Grants
|
1
|
10
|
110
|
C01
|
0.016974
|
0.016974
|
0
|
0
|
0.016974
|
0.016974
|
0
|
0.016974
|
0
|
|
Communicable diseases
|
Communicable diseases Other
|
100
|
EPIDEMIOLOGICAL SUPPORT IN RES...PONSE TO A REQUEST FOR ASSISTANCE FROM THE GLOBAL OUTBREAK ALERT AND RESPONSE NETWORK (GOARN) IN COX'S BAZAR, BANGLADESH
more
|
Epidemiological support in res...ponse to a Request for Assistance from the Global Outbreak Alert and Response Network (GOARN) in Cox's Bazar, Bangladesh
more
|
In response to a Request for A...ssistance from the Global Outbreak Alert and Response Network, PHAC deployed two Epidemiologists for a four-week assignment to Cox's Bazar, Bangladesh in December 2018. The objective was for them to support the WHO's syndrome-based surveillance system that is designed to detect outbreaks and monitor trends in an emergency setting. One Epidemiologist concentrated on data monitoring related to water sanitation hygiene and diarrhea (so as to inform public health decision-making) while the other was responsible for surveillance of unexpected fever. Cox's Bazar is home to two government-run refugee camps, including Kutupalong refugee camp, which is inhabited mostly by Rohingya refugees from neighboring Myanmar. The work of the two Epidemiologists supports the Global Health Security Agenda goals to: • increase global capacity to detect, assess, notify, and respond to disease threats; and, • strengthen public health emergency management partnerships
more
|
|
72010
|
Material relief assistance and... services
more
|
|
VIII.1. Emergency Response
|
32000
|
Networks
|
Global Outbreak Alert and Resp...onse Network
more
|
|
|
|
656797d4212eaade2e0ee48f
|
2020
|
Canada
|
International Development Rese...arch Centre
more
|
20160084120002
|
108412
|
3
|
Brazil
|
South America
|
UMICs
|
ODA Grants
|
1
|
10
|
110
|
C01
|
0
|
0.001432
|
0
|
0
|
0
|
0.001432
|
0
|
|
|
|
Communicable diseases
|
Communicable diseases Other
|
100
|
PREVENTING ZIKA DISEASE WITH N...OVEL VECTOR CONTROL APPROACHES
more
|
Preventing Zika disease with n...ovel vector control approaches
more
|
The highest numbers of dengue ...cases in Latin America in the last few years have occurred in Brazil, Colombia, and Mexico. These countries have also faced outbreaks of chikungunya (2014-2015) and Zika (2015-2016). All three diseases are transmitted by the same mosquito vector, the aedes aegypti. The University of Ceará, Fundacion Santa Fe de Bogotá, and University of Yucatán have implemented vector control strategies to significantly reduce aedes aegypti. This proposal aims to scale up participatory interventions targeting the surveillance, prevention, and control of aedes-transmitted diseases in three municipalities, namely Fortaleza (Brazil), Armenia (Colombia), and Merida (Mexico). Multidisciplinary teams will collect epidemiological and entomological indicators at the beginning, mid-term, and end of the project in a household sample of the intervention. The project will also assess the governance outcomes, and the costs and cost-effectiveness of the scaled intervention compared to the routine vector control program. A complementary feature will be the design and implementation of an innovative surveillance system that will engage the community to improve case detection. Qualitative methods will be used to assess the acceptance of the intervention and to describe factors affecting the scaling up. State and municipal agencies, as well as NGOs, community-based organizations, and academic institutions will co-lead the scale-up of the interventions. Local and national resources have been committed to the implementation of the project. During the previous work of the principal research institutions in the three cities, strong links were developed with relevant strategic stakeholders that will facilitate implementation. The project is expected to make a significant contribution to the prevention of Zika, chikungunya and dengue disease through novel vector control and surveillance interventions that are potentially applicable in many other countries.
more
|
|
12182
|
Medical research
|
3
|
I.2.a. Health, General
|
23000
|
Developing country-based NGO
|
Fundación Santa Fe de Bogotá
|
|
|
|
656797d4212eaade2e0ee490
|
2020
|
Canada
|
International Development Rese...arch Centre
more
|
20160084090002
|
108409
|
3
|
Colombia
|
South America
|
UMICs
|
ODA Grants
|
1
|
10
|
110
|
C01
|
0.003422
|
0.003243
|
0
|
0
|
0.003422
|
0.003243
|
0
|
0.003422
|
|
|
Communicable diseases
|
Communicable diseases Other
|
100
|
ASSESSING ZIKA TRANSMISSION DY...NAMICS AND MITIGATION STRATEGIES
more
|
Assessing Zika transmission dy...namics and mitigation strategies
more
|
Since its detection in Brazil ...in May 2015, the Zika virus has spread rapidly throughout the geographical range occupied by Aedes aegypti mosquitoes in Latin America and the Caribbean (LAC). The association of Zika virus infection with microcephaly (babies born with abnormally small heads) and other neurological disorders led the World Health Organization (WHO) to declare a Public Health Emergency of International Concern in February 2016. In November 2016, in view of the decrease of the outbreak in Brazil, WHO ended the international alarm but noted that Zika transmission and its severe consequences will continue to represent a top public health challenge. Knowledge gaps remain in the ecological transmission dynamics, or the factors that affect the spread of the Zika virus at the interface of humans, mosquitoes, and their environments, and in the effectiveness and costs of interventions. Zika virus transmission presents a unique and urgent challenge that compels a multidisciplinary response. This project will develop multidisciplinary and international collaborations involving Canadian and Latin American researchers in cooperation with the University of the Andes. These partners will conduct field studies in Argentina, Colombia, and Ecuador aiming to characterize the ecological transmission dynamics of the Zika virus and to predict areas at risk in each country and across the LAC region. They will design and assess integrated Zika control strategies using computer simulation based on the data collected in the field studies, as well as other data from collaborators and the literature. They will then propose interventions in the areas of transmission in the three countries. This research will address critical Zika research priorities identified by the Pan American Health Organization, assess mosquito control measures, and provide decision-makers with a tool to rapidly determine optimal intervention strategies.
more
|
|
12182
|
Medical research
|
3
|
I.2.a. Health, General
|
51000
|
University, college or other t...eaching institution, research institute or think-tank
more
|
Universidad de los Andes
|
|
|
|
656797d4212eaade2e0ee491
|
2020
|
Canada
|
International Development Rese...arch Centre
more
|
20160084120003
|
108412
|
3
|
Colombia
|
South America
|
UMICs
|
ODA Grants
|
1
|
10
|
110
|
C01
|
0
|
0.001476
|
0
|
0
|
0
|
0.001476
|
0
|
|
|
|
Communicable diseases
|
Communicable diseases Other
|
100
|
PREVENTING ZIKA DISEASE WITH N...OVEL VECTOR CONTROL APPROACHES
more
|
Preventing Zika disease with n...ovel vector control approaches
more
|
The highest numbers of dengue ...cases in Latin America in the last few years have occurred in Brazil, Colombia, and Mexico. These countries have also faced outbreaks of chikungunya (2014-2015) and Zika (2015-2016). All three diseases are transmitted by the same mosquito vector, the aedes aegypti. The University of Ceará, Fundacion Santa Fe de Bogotá, and University of Yucatán have implemented vector control strategies to significantly reduce aedes aegypti. This proposal aims to scale up participatory interventions targeting the surveillance, prevention, and control of aedes-transmitted diseases in three municipalities, namely Fortaleza (Brazil), Armenia (Colombia), and Merida (Mexico). Multidisciplinary teams will collect epidemiological and entomological indicators at the beginning, mid-term, and end of the project in a household sample of the intervention. The project will also assess the governance outcomes, and the costs and cost-effectiveness of the scaled intervention compared to the routine vector control program. A complementary feature will be the design and implementation of an innovative surveillance system that will engage the community to improve case detection. Qualitative methods will be used to assess the acceptance of the intervention and to describe factors affecting the scaling up. State and municipal agencies, as well as NGOs, community-based organizations, and academic institutions will co-lead the scale-up of the interventions. Local and national resources have been committed to the implementation of the project. During the previous work of the principal research institutions in the three cities, strong links were developed with relevant strategic stakeholders that will facilitate implementation. The project is expected to make a significant contribution to the prevention of Zika, chikungunya and dengue disease through novel vector control and surveillance interventions that are potentially applicable in many other countries.
more
|
|
12182
|
Medical research
|
3
|
I.2.a. Health, General
|
23000
|
Developing country-based NGO
|
Fundación Santa Fe de Bogotá
|
|
|
|
656797d4212eaade2e0ee492
|
2018
|
Canada
|
Global Affairs Canada
|
20172003940013
|
P000019004
|
3
|
Democratic Republic of the Con...go
more
|
South of Sahara
|
LDCs
|
ODA Grants
|
1
|
10
|
110
|
C01
|
0
|
0
|
0
|
0
|
0
|
0
|
0
|
-0.0343476
|
0
|
0
|
Communicable diseases
|
Communicable diseases Other
|
100
|
SUPPORT TO HEALTH ZONES IN THE... KINSHASA PROVINCE OF DRC/APPUI AUX ZONES DE SANTÉ DE LA PROVINCE DE KINSHASA EN RDC
more
|
Support to Health Zones in the... Kinshasa Province of DRC/Appui aux zones de santé de la province de Kinshasa en RDC
more
|
Support to Health Zones in the... Kinshasa Province of DRC / Appui aux zones de santé de la province de Kinshasa en RDC
more
|
|
12250
|
Infectious disease control
|
|
I.2.b. Basic Health
|
31000
|
Public-Private Partnerships (P...PP)
more
|
Centre de coopération interna...tionale en santé et développement Consortium CCISD-CHUM
more
|
|
|
|
656797d5212eaade2e0ee493
|
2020
|
Canada
|
International Development Rese...arch Centre
more
|
20160084090003
|
108409
|
3
|
Ecuador
|
South America
|
UMICs
|
ODA Grants
|
1
|
10
|
110
|
C01
|
0.003325
|
0.003146
|
0
|
0
|
0.003325
|
0.003146
|
0
|
0.003325
|
|
|
Communicable diseases
|
Communicable diseases Other
|
100
|
ASSESSING ZIKA TRANSMISSION DY...NAMICS AND MITIGATION STRATEGIES
more
|
Assessing Zika transmission dy...namics and mitigation strategies
more
|
Since its detection in Brazil ...in May 2015, the Zika virus has spread rapidly throughout the geographical range occupied by Aedes aegypti mosquitoes in Latin America and the Caribbean (LAC). The association of Zika virus infection with microcephaly (babies born with abnormally small heads) and other neurological disorders led the World Health Organization (WHO) to declare a Public Health Emergency of International Concern in February 2016. In November 2016, in view of the decrease of the outbreak in Brazil, WHO ended the international alarm but noted that Zika transmission and its severe consequences will continue to represent a top public health challenge. Knowledge gaps remain in the ecological transmission dynamics, or the factors that affect the spread of the Zika virus at the interface of humans, mosquitoes, and their environments, and in the effectiveness and costs of interventions. Zika virus transmission presents a unique and urgent challenge that compels a multidisciplinary response. This project will develop multidisciplinary and international collaborations involving Canadian and Latin American researchers in cooperation with the University of the Andes. These partners will conduct field studies in Argentina, Colombia, and Ecuador aiming to characterize the ecological transmission dynamics of the Zika virus and to predict areas at risk in each country and across the LAC region. They will design and assess integrated Zika control strategies using computer simulation based on the data collected in the field studies, as well as other data from collaborators and the literature. They will then propose interventions in the areas of transmission in the three countries. This research will address critical Zika research priorities identified by the Pan American Health Organization, assess mosquito control measures, and provide decision-makers with a tool to rapidly determine optimal intervention strategies.
more
|
|
12182
|
Medical research
|
3
|
I.2.a. Health, General
|
51000
|
University, college or other t...eaching institution, research institute or think-tank
more
|
Universidad de los Andes
|
|
|
|
656797d5212eaade2e0ee494
|
2018
|
Canada
|
Global Affairs Canada
|
20182004740001
|
P006075001
|
1
|
Europe, regional
|
Europe
|
Part I unallocated by income
|
ODA Grants
|
1
|
10
|
110
|
B03
|
0.154309
|
0.154309
|
0
|
0
|
0.154309
|
0.154309
|
0
|
0.154309
|
0
|
0
|
Communicable diseases
|
Communicable diseases Other
|
100
|
SUPPORT TO THE CONTINGENCY FUN...D FOR EMERGENCIES - WORLD HEALTH ORGANIZATION 2018/APPUI AU FONDS DE CONTINGENCE POUR LES SITUATIONS D'URGENCE - ORGANI
more
|
Support to the Contingency Fun...d for Emergencies - World Health Organization 2018/Appui au fonds de contingence pour les situations d'urgence - Organisation mondiale de la santé 2018
more
|
Support to the Contingency Fun...d for Emergencies - World Health Organization 2018 / Appui au fonds de contingence pour les situations d'urgence - Organisation mondiale de la santé 2018
more
|
Mainly allocations to activiti...es against diseases falling under sub-category 6 g but also includes activities against other diseases and responses to natural and man-made disasters (Africa, regional P006075001 Support to the Contingency Fund for Emergencies - World Health Organization 2018)
more
|
72010
|
Material relief assistance and... services
more
|
|
VIII.1. Emergency Response
|
41143
|
World Health Organisation - co...re voluntary contributions account
more
|
WHO - World Health Organizatio...n
more
|
|
|
|
656797d5212eaade2e0ee495
|
2018
|
Canada
|
Global Affairs Canada
|
20182000330002
|
P000536001
|
3
|
Haiti
|
North & Central America
|
LDCs
|
ODA Grants
|
1
|
10
|
110
|
B03
|
0
|
0.617236
|
0
|
0
|
0
|
0.617236
|
0
|
0
|
0
|
0
|
Communicable diseases
|
Communicable diseases Other
|
100
|
WATER, SANITATION AND HYGIENE ...IN ARTIBONITE AND CENTRE (WASH)/ASSAINISSEMENT, HYGIÈNE, ET APPROVISIONNEMENT EN EAU POTABLE EN ARTIBONITE ET CENTRE (W
more
|
Water, Sanitation and Hygiene ...in Artibonite and Centre (WASH)/Assainissement, hygiène, et approvisionnement en eau potable en Artibonite et Centre (WASH)
more
|
Water, Sanitation and Hygiene ...in Artibonite and Centre (WASH) / Assainissement, hygiène, et approvisionnement en eau potable en Artibonite et Centre (WASH)
more
|
|
12250
|
Infectious disease control
|
|
I.2.b. Basic Health
|
41122
|
United Nations Children's Fund
|
UNICEF - United Nations Childr...en's Fund
more
|
|
|
|
656797d5212eaade2e0ee496
|
2018
|
Canada
|
Global Affairs Canada
|
20182000330001
|
P000536001
|
3
|
Haiti
|
North & Central America
|
LDCs
|
ODA Grants
|
1
|
10
|
110
|
B03
|
0
|
0.154309
|
0
|
0
|
0
|
0.154309
|
0
|
0
|
0
|
0
|
Communicable diseases
|
Communicable diseases Other
|
100
|
WATER, SANITATION AND HYGIENE ...IN ARTIBONITE AND CENTRE (WASH)/ASSAINISSEMENT, HYGIÈNE, ET APPROVISIONNEMENT EN EAU POTABLE EN ARTIBONITE ET CENTRE (W
more
|
Water, Sanitation and Hygiene ...in Artibonite and Centre (WASH)/Assainissement, hygiène, et approvisionnement en eau potable en Artibonite et Centre (WASH)
more
|
Water, Sanitation and Hygiene ...in Artibonite and Centre (WASH) / Assainissement, hygiène, et approvisionnement en eau potable en Artibonite et Centre (WASH)
more
|
|
12250
|
Infectious disease control
|
|
I.2.b. Basic Health
|
41122
|
United Nations Children's Fund
|
UNICEF - United Nations Childr...en's Fund
more
|
|
|
|
656797d5212eaade2e0ee497
|
2018
|
Canada
|
Global Affairs Canada
|
20172012310001
|
P002536001
|
3
|
Haiti
|
North & Central America
|
LDCs
|
ODA Grants
|
1
|
10
|
110
|
C01
|
0
|
1.54309
|
0
|
0
|
0
|
1.54309
|
0
|
0
|
0
|
0
|
Communicable diseases
|
Communicable diseases Other
|
100
|
HAITI - EMERGENCY CHOLERA RESP...ONSE - MÉDECINS DU MONDE CANADA - 2017-2018/HAÏTI - INTERVENTION D'URGENCE RELATIVE AU CHOLÉRA - MÉDECINS DU MONDE CANA
more
|
Haiti - Emergency Cholera Resp...onse - Médecins du Monde Canada - 2017-2018/Haïti - Intervention d'urgence relative au choléra - Médecins du Monde Canada 2017-2018
more
|
Haiti - Emergency Cholera Resp...onse - Médecins du Monde Canada - 2017-2018 / Haïti - Intervention d'urgence relative au choléra - Médecins du Monde Canada 2017-2018
more
|
|
72010
|
Material relief assistance and... services
more
|
|
VIII.1. Emergency Response
|
22000
|
Donor country-based NGO
|
Doctors of the World Canada
|
|
|
|
656797d6212eaade2e0ee498
|
2018
|
Canada
|
Global Affairs Canada
|
20182001850001
|
P002569001
|
3
|
Haiti
|
North & Central America
|
LDCs
|
ODA Grants
|
1
|
10
|
110
|
C01
|
0
|
0.28933
|
0
|
0
|
0
|
0.28933
|
0
|
0
|
0
|
0
|
Communicable diseases
|
Communicable diseases Other
|
100
|
HAITI - EMERGENCY CHOLERA, WAT...ER AND SANITATION RESPONSE - UNICEF 2017-2018/HAÏTI - INTERVENTION D'URGENCE RELATIVE AU CHOLÉRA, L'EAU ET L'ASSAINISSE
more
|
Haiti - Emergency Cholera, Wat...er and Sanitation Response - UNICEF 2017-2018/Haïti - Intervention d'urgence relative au choléra, l'eau et l'assainissement - UNICEF 2017-2018
more
|
Haiti - Emergency Cholera, Wat...er and Sanitation Response - UNICEF 2017-2018 / Haïti - Intervention d'urgence relative au choléra, l'eau et l'assainissement - UNICEF 2017-2018
more
|
|
72050
|
Relief co-ordination and suppo...rt services
more
|
|
VIII.1. Emergency Response
|
41122
|
United Nations Children's Fund
|
UNICEF - United Nations Childr...en's Fund
more
|
|
|
|
656797d6212eaade2e0ee499
|
2018
|
Canada
|
Global Affairs Canada
|
20182001860001
|
P002570001
|
3
|
Haiti
|
North & Central America
|
LDCs
|
ODA Grants
|
1
|
10
|
110
|
C01
|
0
|
0.0964432
|
0
|
0
|
0
|
0.0964432
|
0
|
0
|
0
|
0
|
Communicable diseases
|
Communicable diseases Other
|
100
|
HAITI - EMERGENCY CHOLERA RESP...ONSE - PAN AMERICAN HEALTH ORGANIZATION 2017-2018/HAÏTI - INTERVENTION D'URGENCE RELATIVE AU CHOLÉRA - ORGANISATION PAN
more
|
Haiti - Emergency Cholera Resp...onse - Pan American Health Organization 2017-2018/Haïti - Intervention d'urgence relative au choléra - Organisation panaméricaine de la Santé 2017-201
more
|
Haiti - Emergency Cholera Resp...onse - Pan American Health Organization 2017-2018 / Haïti - Intervention d'urgence relative au choléra - Organisation panaméricaine de la Santé 2017-201
more
|
|
72050
|
Relief co-ordination and suppo...rt services
more
|
|
VIII.1. Emergency Response
|
47083
|
Pan-American Health Organisati...on
more
|
PAHO - Pan American Health Org...anization
more
|
|
|
|
656797d6212eaade2e0ee49a
|
2018
|
Canada
|
Provincial Governments and mun...icipalities
more
|
20180406060001
|
CIP-2018-05
|
3
|
Kenya
|
South of Sahara
|
LMICs
|
ODA Grants
|
1
|
10
|
110
|
C01
|
0
|
0.00833269
|
0
|
0
|
0
|
0.00833269
|
0
|
|
0
|
|
Communicable diseases
|
Communicable diseases Other
|
100
|
DISEASE SURVEILLANCE SYSTEM
|
Disease Surveillance System
|
To purchase a disease surveill...ance system that will detect and track outbreaks in Kenya.
more
|
|
12250
|
Infectious disease control
|
|
I.2.b. Basic Health
|
22000
|
Donor country-based NGO
|
Innovative Canadians for Chang...e Foundation
more
|
|
|
|
656797d6212eaade2e0ee49b
|
2018
|
Canada
|
Provincial Governments and mun...icipalities
more
|
20180406060002
|
CIP-2018-05
|
3
|
Kenya
|
South of Sahara
|
LMICs
|
ODA Grants
|
1
|
10
|
110
|
C01
|
0.00833269
|
0
|
0
|
0
|
0.00833269
|
0
|
0
|
0.00833269
|
0
|
0
|
Communicable diseases
|
Communicable diseases Other
|
100
|
DISEASE SURVEILLANCE SYSTEM
|
Disease Surveillance System
|
To purchase a disease surveill...ance system that will detect and track outbreaks in Kenya.
more
|
|
12250
|
Infectious disease control
|
|
I.2.b. Basic Health
|
22000
|
Donor country-based NGO
|
Innovative Canadians for Chang...e Foundation
more
|
|
|
|
656797d7212eaade2e0ee49c
|
2020
|
Canada
|
International Development Rese...arch Centre
more
|
20160084120001
|
108412
|
3
|
Mexico
|
Caribbean & Central America
|
UMICs
|
ODA Grants
|
1
|
10
|
110
|
C01
|
0
|
0.001432
|
0
|
0
|
0
|
0.001432
|
0
|
|
|
|
Communicable diseases
|
Communicable diseases Other
|
100
|
PREVENTING ZIKA DISEASE WITH N...OVEL VECTOR CONTROL APPROACHES
more
|
Preventing Zika disease with n...ovel vector control approaches
more
|
The highest numbers of dengue ...cases in Latin America in the last few years have occurred in Brazil, Colombia, and Mexico. These countries have also faced outbreaks of chikungunya (2014-2015) and Zika (2015-2016). All three diseases are transmitted by the same mosquito vector, the aedes aegypti. The University of Ceará, Fundacion Santa Fe de Bogotá, and University of Yucatán have implemented vector control strategies to significantly reduce aedes aegypti. This proposal aims to scale up participatory interventions targeting the surveillance, prevention, and control of aedes-transmitted diseases in three municipalities, namely Fortaleza (Brazil), Armenia (Colombia), and Merida (Mexico). Multidisciplinary teams will collect epidemiological and entomological indicators at the beginning, mid-term, and end of the project in a household sample of the intervention. The project will also assess the governance outcomes, and the costs and cost-effectiveness of the scaled intervention compared to the routine vector control program. A complementary feature will be the design and implementation of an innovative surveillance system that will engage the community to improve case detection. Qualitative methods will be used to assess the acceptance of the intervention and to describe factors affecting the scaling up. State and municipal agencies, as well as NGOs, community-based organizations, and academic institutions will co-lead the scale-up of the interventions. Local and national resources have been committed to the implementation of the project. During the previous work of the principal research institutions in the three cities, strong links were developed with relevant strategic stakeholders that will facilitate implementation. The project is expected to make a significant contribution to the prevention of Zika, chikungunya and dengue disease through novel vector control and surveillance interventions that are potentially applicable in many other countries.
more
|
|
12182
|
Medical research
|
3
|
I.2.a. Health, General
|
23000
|
Developing country-based NGO
|
Fundación Santa Fe de Bogotá
|
|
|
|
656797d7212eaade2e0ee49d
|
2018
|
Canada
|
Global Affairs Canada
|
20182004740005
|
P006075001
|
1
|
Oceania, regional
|
Oceania
|
Part I unallocated by income
|
ODA Grants
|
1
|
10
|
110
|
B03
|
0.154309
|
0.154309
|
0
|
0
|
0.154309
|
0.154309
|
0
|
0.154309
|
0
|
0
|
Communicable diseases
|
Communicable diseases Other
|
100
|
SUPPORT TO THE CONTINGENCY FUN...D FOR EMERGENCIES - WORLD HEALTH ORGANIZATION 2018/APPUI AU FONDS DE CONTINGENCE POUR LES SITUATIONS D'URGENCE - ORGANI
more
|
Support to the Contingency Fun...d for Emergencies - World Health Organization 2018/Appui au fonds de contingence pour les situations d'urgence - Organisation mondiale de la santé 2018
more
|
Support to the Contingency Fun...d for Emergencies - World Health Organization 2018 / Appui au fonds de contingence pour les situations d'urgence - Organisation mondiale de la santé 2018
more
|
Mainly allocations to activiti...es against diseases falling under sub-category 6 g but also includes activities against other diseases and responses to natural and man-made disasters (Africa, regional P006075001 Support to the Contingency Fund for Emergencies - World Health Organization 2018)
more
|
72010
|
Material relief assistance and... services
more
|
|
VIII.1. Emergency Response
|
41143
|
World Health Organisation - co...re voluntary contributions account
more
|
WHO - World Health Organizatio...n
more
|
|
|
|
656797d8212eaade2e0ee49e
|
2020
|
Canada
|
International Development Rese...arch Centre
more
|
20170084100001
|
108410
|
3
|
South America, regional
|
South America
|
Part I unallocated by income
|
ODA Grants
|
1
|
10
|
110
|
C01
|
0
|
0.012481
|
0
|
0
|
0
|
0.012481
|
0
|
|
|
|
Communicable diseases
|
Communicable diseases Other
|
100
|
DEVELOPMENT AND DEPLOYMENT OF ...LOW-COST, PAPER-BASED ZIKA DIAGNOSTICS
more
|
Development and deployment of ...low-cost, paper-based Zika diagnostics
more
|
The outbreak of the Zika virus... highlights the need for low-cost diagnostics that can be rapidly developed, tested and deployed for use in regions vulnerable to this pandemic threat. Diagnostic tests which are currently available are either costly, unavailable in remote locations where surveillance of Zika transmission is most needed, or cannot differentiate the Zika virus from other pathogens like the dengue or chikungunya viruses.This project is implemented in collaboration with the Oswaldo Cruz Foundation, which is the national institute of infectious disease in Brazil, the National Institute for Research in Public Health in Ecuador, and the Universidad El Bosque in Colombia. It will support Canadian and Latin American researchers to develop and deploy a low-cost, paper-based diagnostic test to detect Zika virus infections in Latin America. This diagnostic test is powered by next-generation advances in synthetic biology and genetic sequencing. It has already been validated in laboratory animal models.This project will refine, expand upon, and field-validate this test in real-world clinical settings in Latin America. A multi-disciplinary research team will improve the ability of this test to detect the Zika virus, distinguish between different strains of the virus, and differentiate between the Zika virus and dengue, chikungunya and related viral infections. This project will also refine the test to make it faster, easier and cheaper to use in the field. Finally, the project will work with national laboratories in Latin America to easily and quickly collect patient samples and test for the virus at the point of care without the need for a storage and distribution cold-chain system. Through these efforts, this research stands to improve diagnostic and surveillance capacity in Latin America against the Zika virus, slow the spread of the Zika virus outbreak, and ultimately improve human health.
more
|
|
12182
|
Medical research
|
3
|
I.2.a. Health, General
|
23000
|
Developing country-based NGO
|
Fundaçao Oswaldo Cruz- FIOCRU...Z
more
|
|
|
|
656797d8212eaade2e0ee49f
|
2020
|
Canada
|
International Development Rese...arch Centre
more
|
20170084100003
|
108410
|
3
|
South America, regional
|
South America
|
Part I unallocated by income
|
ODA Grants
|
1
|
10
|
110
|
C01
|
0
|
0.005286
|
0
|
0
|
0
|
0.005286
|
0
|
|
|
|
Communicable diseases
|
Communicable diseases Other
|
100
|
DEVELOPMENT AND DEPLOYMENT OF ...LOW-COST, PAPER-BASED ZIKA DIAGNOSTICS
more
|
Development and deployment of ...low-cost, paper-based Zika diagnostics
more
|
The outbreak of the Zika virus... highlights the need for low-cost diagnostics that can be rapidly developed, tested and deployed for use in regions vulnerable to this pandemic threat. Diagnostic tests which are currently available are either costly, unavailable in remote locations where surveillance of Zika transmission is most needed, or cannot differentiate the Zika virus from other pathogens like the dengue or chikungunya viruses. This project is implemented in collaboration with the Oswaldo Cruz Foundation, which is the national institute of infectious disease in Brazil, the National Institute for Research in Public Health in Ecuador, and the Universidad El Bosque in Colombia. It will support Canadian and Latin American researchers to develop and deploy a low-cost, paper-based diagnostic test to detect Zika virus infections in Latin America. This diagnostic test is powered by next-generation advances in synthetic biology and genetic sequencing. It has already been validated in laboratory animal models. This project will refine, expand upon, and field-validate this test in real-world clinical settings in Latin America. A multi-disciplinary research team will improve the ability of this test to detect the Zika virus, distinguish between different strains of the virus, and differentiate between the Zika virus and dengue, chikungunya and related viral infections. This project will also refine the test to make it faster, easier and cheaper to use in the field. Finally, the project will work with national laboratories in Latin America to easily and quickly collect patient samples and test for the virus at the point of care without the need for a storage and distribution cold-chain system. Through these efforts, this research stands to improve diagnostic and surveillance capacity in Latin America against the Zika virus, slow the spread of the Zika virus outbreak, and ultimately improve human health.
more
|
|
12182
|
Medical research
|
3
|
I.2.a. Health, General
|
12000
|
Recipient Government
|
Instituto Nacional de Investig...acion en Salud Publica - INSPI
more
|
|
|
|
656797d8212eaade2e0ee4a0
|
2020
|
Canada
|
International Development Rese...arch Centre
more
|
20170084100002
|
108410
|
3
|
South America, regional
|
South America
|
Part I unallocated by income
|
ODA Grants
|
1
|
10
|
110
|
C01
|
0
|
0.000746
|
0
|
0
|
0
|
0.000746
|
0
|
|
|
|
Communicable diseases
|
Communicable diseases Other
|
100
|
DEVELOPMENT AND DEPLOYMENT OF ...LOW-COST, PAPER-BASED ZIKA DIAGNOSTICS
more
|
Development and deployment of ...low-cost, paper-based Zika diagnostics
more
|
The outbreak of the Zika virus... highlights the need for low-cost diagnostics that can be rapidly developed, tested and deployed for use in regions vulnerable to this pandemic threat. Diagnostic tests which are currently available are either costly, unavailable in remote locations where surveillance of Zika transmission is most needed, or cannot differentiate the Zika virus from other pathogens like the dengue or chikungunya viruses.This project is implemented in collaboration with the Oswaldo Cruz Foundation, which is the national institute of infectious disease in Brazil, the National Institute for Research in Public Health in Ecuador, and the Universidad El Bosque in Colombia. It will support Canadian and Latin American researchers to develop and deploy a low-cost, paper-based diagnostic test to detect Zika virus infections in Latin America. This diagnostic test is powered by next-generation advances in synthetic biology and genetic sequencing. It has already been validated in laboratory animal models.This project will refine, expand upon, and field-validate this test in real-world clinical settings in Latin America. A multi-disciplinary research team will improve the ability of this test to detect the Zika virus, distinguish between different strains of the virus, and differentiate between the Zika virus and dengue, chikungunya and related viral infections. This project will also refine the test to make it faster, easier and cheaper to use in the field. Finally, the project will work with national laboratories in Latin America to easily and quickly collect patient samples and test for the virus at the point of care without the need for a storage and distribution cold-chain system. Through these efforts, this research stands to improve diagnostic and surveillance capacity in Latin America against the Zika virus, slow the spread of the Zika virus outbreak, and ultimately improve human health.
more
|
|
12182
|
Medical research
|
3
|
I.2.a. Health, General
|
23000
|
Developing country-based NGO
|
Fundaçao Oswaldo Cruz- FIOCRU...Z
more
|
|
|
|
656797d8212eaade2e0ee4a1
|
2018
|
Canada
|
International Development Rese...arch Centre
more
|
20150080080001
|
108008
|
3
|
Sri Lanka
|
South & Central Asia
|
LMICs
|
ODA Grants
|
1
|
10
|
110
|
C01
|
0
|
0.0110369
|
0
|
0
|
0
|
0.0110369
|
0
|
|
0
|
|
Communicable diseases
|
Communicable diseases Other
|
100
|
LEVERAGING MOBILE NETWORK BIG ...DATA FOR DEVELOPMENTAL POLICY
more
|
Leveraging Mobile Network Big ...Data for Developmental Policy
more
|
|
|
22040
|
Information and communication ...technology (ICT)
more
|
|
II.2. Communications
|
23000
|
Developing country-based NGO
|
LirneAsia
|
|
|
|
656797d9212eaade2e0ee4a2
|
2019
|
Canada
|
International Development Rese...arch Centre
more
|
20160084091
|
108409
|
3
|
Argentina
|
South America
|
UMICs
|
ODA Grants
|
1
|
10
|
110
|
C01
|
0
|
0.035263
|
0
|
0
|
0
|
0.035263
|
0
|
|
|
|
Communicable diseases
|
Communicable diseases Other
|
100
|
ASSESSING ZIKA TRANSMISSION DY...NAMICS AND MITIGATION STRATEGIES
more
|
Assessing Zika transmission dy...namics and mitigation strategies
more
|
Since its detection in Brazil ...in May 2015, the Zika virus has spread rapidly throughout the geographical range occupied by Aedes aegypti mosquitoes in Latin America and the Caribbean (LAC). The association of Zika virus infection with microcephaly (babies born with abnormally small heads) and other neurological disorders led the World Health Organization (WHO) to declare a Public Health Emergency of International Concern in February 2016. In November 2016, in view of the decrease of the outbreak in Brazil, WHO ended the international alarm but noted that Zika transmission and its severe consequences will continue to represent a top public health challenge. Knowledge gaps remain in the ecological transmission dynamics, or the factors that affect the spread of the Zika virus at the interface of humans, mosquitoes, and their environments, and in the effectiveness and costs of interventions. Zika virus transmission presents a unique and urgent challenge that compels a multidisciplinary response. This project will develop multidisciplinary and international collaborations involving Canadian and Latin American researchers in cooperation with the University of the Andes. These partners will conduct field studies in Argentina, Colombia, and Ecuador aiming to characterize the ecological transmission dynamics of the Zika virus and to predict areas at risk in each country and across the LAC region. They will design and assess integrated Zika control strategies using computer simulation based on the data collected in the field studies, as well as other data from collaborators and the literature. They will then propose interventions in the areas of transmission in the three countries. This research will address critical Zika research priorities identified by the Pan American Health Organization, assess mosquito control measures, and provide decision-makers with a tool to rapidly determine optimal intervention strategies.
more
|
|
12182
|
Medical research
|
3
|
I.2.a. Health, General
|
51000
|
University, college or other t...eaching institution, research institute or think-tank
more
|
Universidad de los Andes
|
|
|
|
656797d9212eaade2e0ee4a3
|
2019
|
Canada
|
International Development Rese...arch Centre
more
|
20160084121
|
108412
|
3
|
Brazil
|
South America
|
UMICs
|
ODA Grants
|
1
|
10
|
110
|
C01
|
0
|
0.0719683
|
0
|
0
|
0
|
0.0719683
|
0
|
|
|
|
Communicable diseases
|
Communicable diseases Other
|
100
|
PREVENTING ZIKA DISEASE WITH N...OVEL VECTOR CONTROL APPROACHES
more
|
Preventing Zika disease with n...ovel vector control approaches
more
|
The highest numbers of dengue ...cases in Latin America in the last few years have occurred in Brazil, Colombia, and Mexico. These countries have also faced outbreaks of chikungunya (2014-2015) and Zika (2015-2016). All three diseases are transmitted by the same mosquito vector, the aedes aegypti. The University of Ceará, Fundacion Santa Fe de Bogotá, and University of Yucatán have implemented vector control strategies to significantly reduce aedes aegypti. This proposal aims to scale up participatory interventions targeting the surveillance, prevention, and control of aedes-transmitted diseases in three municipalities, namely Fortaleza (Brazil), Armenia (Colombia), and Merida (Mexico). Multidisciplinary teams will collect epidemiological and entomological indicators at the beginning, mid-term, and end of the project in a household sample of the intervention. The project will also assess the governance outcomes, and the costs and cost-effectiveness of the scaled intervention compared to the routine vector control program. A complementary feature will be the design and implementation of an innovative surveillance system that will engage the community to improve case detection. Qualitative methods will be used to assess the acceptance of the intervention and to describe factors affecting the scaling up. State and municipal agencies, as well as NGOs, community-based organizations, and academic institutions will co-lead the scale-up of the interventions. Local and national resources have been committed to the implementation of the project. During the previous work of the principal research institutions in the three cities, strong links were developed with relevant strategic stakeholders that will facilitate implementation. The project is expected to make a significant contribution to the prevention of Zika, chikungunya and dengue disease through novel vector control and surveillance interventions that are potentially applicable in many other countries.
more
|
|
12182
|
Medical research
|
3
|
I.2.a. Health, General
|
23000
|
Developing country-based NGO
|
Fundación Santa Fe de Bogotá
|
|
|
|
656797da212eaade2e0ee4a4
|
2019
|
Canada
|
International Development Rese...arch Centre
more
|
20160084093
|
108409
|
3
|
Colombia
|
South America
|
UMICs
|
ODA Grants
|
1
|
10
|
110
|
C01
|
0
|
0.0363316
|
0
|
0
|
0
|
0.0363316
|
0
|
|
|
|
Communicable diseases
|
Communicable diseases Other
|
100
|
ASSESSING ZIKA TRANSMISSION DY...NAMICS AND MITIGATION STRATEGIES
more
|
Assessing Zika transmission dy...namics and mitigation strategies
more
|
Since its detection in Brazil ...in May 2015, the Zika virus has spread rapidly throughout the geographical range occupied by Aedes aegypti mosquitoes in Latin America and the Caribbean (LAC). The association of Zika virus infection with microcephaly (babies born with abnormally small heads) and other neurological disorders led the World Health Organization (WHO) to declare a Public Health Emergency of International Concern in February 2016. In November 2016, in view of the decrease of the outbreak in Brazil, WHO ended the international alarm but noted that Zika transmission and its severe consequences will continue to represent a top public health challenge. Knowledge gaps remain in the ecological transmission dynamics, or the factors that affect the spread of the Zika virus at the interface of humans, mosquitoes, and their environments, and in the effectiveness and costs of interventions. Zika virus transmission presents a unique and urgent challenge that compels a multidisciplinary response. This project will develop multidisciplinary and international collaborations involving Canadian and Latin American researchers in cooperation with the University of the Andes. These partners will conduct field studies in Argentina, Colombia, and Ecuador aiming to characterize the ecological transmission dynamics of the Zika virus and to predict areas at risk in each country and across the LAC region. They will design and assess integrated Zika control strategies using computer simulation based on the data collected in the field studies, as well as other data from collaborators and the literature. They will then propose interventions in the areas of transmission in the three countries. This research will address critical Zika research priorities identified by the Pan American Health Organization, assess mosquito control measures, and provide decision-makers with a tool to rapidly determine optimal intervention strategies.
more
|
|
12182
|
Medical research
|
3
|
I.2.a. Health, General
|
51000
|
University, college or other t...eaching institution, research institute or think-tank
more
|
Universidad de los Andes
|
|
|
|
656797da212eaade2e0ee4a5
|
2019
|
Canada
|
International Development Rese...arch Centre
more
|
20160084122
|
108412
|
3
|
Colombia
|
South America
|
UMICs
|
ODA Grants
|
1
|
10
|
110
|
C01
|
0
|
0.0741492
|
0
|
0
|
0
|
0.0741492
|
0
|
|
|
|
Communicable diseases
|
Communicable diseases Other
|
100
|
PREVENTING ZIKA DISEASE WITH N...OVEL VECTOR CONTROL APPROACHES
more
|
Preventing Zika disease with n...ovel vector control approaches
more
|
The highest numbers of dengue ...cases in Latin America in the last few years have occurred in Brazil, Colombia, and Mexico. These countries have also faced outbreaks of chikungunya (2014-2015) and Zika (2015-2016). All three diseases are transmitted by the same mosquito vector, the aedes aegypti. The University of Ceará, Fundacion Santa Fe de Bogotá, and University of Yucatán have implemented vector control strategies to significantly reduce aedes aegypti. This proposal aims to scale up participatory interventions targeting the surveillance, prevention, and control of aedes-transmitted diseases in three municipalities, namely Fortaleza (Brazil), Armenia (Colombia), and Merida (Mexico). Multidisciplinary teams will collect epidemiological and entomological indicators at the beginning, mid-term, and end of the project in a household sample of the intervention. The project will also assess the governance outcomes, and the costs and cost-effectiveness of the scaled intervention compared to the routine vector control program. A complementary feature will be the design and implementation of an innovative surveillance system that will engage the community to improve case detection. Qualitative methods will be used to assess the acceptance of the intervention and to describe factors affecting the scaling up. State and municipal agencies, as well as NGOs, community-based organizations, and academic institutions will co-lead the scale-up of the interventions. Local and national resources have been committed to the implementation of the project. During the previous work of the principal research institutions in the three cities, strong links were developed with relevant strategic stakeholders that will facilitate implementation. The project is expected to make a significant contribution to the prevention of Zika, chikungunya and dengue disease through novel vector control and surveillance interventions that are potentially applicable in many other countries.
more
|
|
12182
|
Medical research
|
3
|
I.2.a. Health, General
|
23000
|
Developing country-based NGO
|
Fundación Santa Fe de Bogotá
|
|
|
|
656797db212eaade2e0ee4a6
|
2019
|
Canada
|
International Development Rese...arch Centre
more
|
20160084092
|
108409
|
3
|
Ecuador
|
South America
|
UMICs
|
ODA Grants
|
1
|
10
|
110
|
C01
|
0
|
0.035263
|
0
|
0
|
0
|
0.035263
|
0
|
|
|
|
Communicable diseases
|
Communicable diseases Other
|
100
|
ASSESSING ZIKA TRANSMISSION DY...NAMICS AND MITIGATION STRATEGIES
more
|
Assessing Zika transmission dy...namics and mitigation strategies
more
|
Since its detection in Brazil ...in May 2015, the Zika virus has spread rapidly throughout the geographical range occupied by Aedes aegypti mosquitoes in Latin America and the Caribbean (LAC). The association of Zika virus infection with microcephaly (babies born with abnormally small heads) and other neurological disorders led the World Health Organization (WHO) to declare a Public Health Emergency of International Concern in February 2016. In November 2016, in view of the decrease of the outbreak in Brazil, WHO ended the international alarm but noted that Zika transmission and its severe consequences will continue to represent a top public health challenge. Knowledge gaps remain in the ecological transmission dynamics, or the factors that affect the spread of the Zika virus at the interface of humans, mosquitoes, and their environments, and in the effectiveness and costs of interventions. Zika virus transmission presents a unique and urgent challenge that compels a multidisciplinary response. This project will develop multidisciplinary and international collaborations involving Canadian and Latin American researchers in cooperation with the University of the Andes. These partners will conduct field studies in Argentina, Colombia, and Ecuador aiming to characterize the ecological transmission dynamics of the Zika virus and to predict areas at risk in each country and across the LAC region. They will design and assess integrated Zika control strategies using computer simulation based on the data collected in the field studies, as well as other data from collaborators and the literature. They will then propose interventions in the areas of transmission in the three countries. This research will address critical Zika research priorities identified by the Pan American Health Organization, assess mosquito control measures, and provide decision-makers with a tool to rapidly determine optimal intervention strategies.
more
|
|
12182
|
Medical research
|
3
|
I.2.a. Health, General
|
51000
|
University, college or other t...eaching institution, research institute or think-tank
more
|
Universidad de los Andes
|
|
|
|
656797dc212eaade2e0ee4a7
|
2019
|
Canada
|
Global Affairs Canada
|
2018200033
|
P000536001
|
3
|
Haiti
|
Caribbean & Central America
|
LDCs
|
ODA Grants
|
1
|
10
|
110
|
B03
|
0
|
0.28636
|
0
|
0
|
0
|
0.28636
|
0
|
|
|
|
Communicable diseases
|
Communicable diseases Other
|
100
|
WATER, SANITATION AND HYGIENE ...(WASH) IN THE ARTIBONITE AND CENTRE DEPARTMENTS OF HAITI/ASSAINISSEMENT, HYGIÈNE ET APPROVISIONNEMENT EN EAU POTABLE EN
more
|
Water, Sanitation and Hygiene ...(WASH) in the Artibonite and Centre Departments of Haiti/Assainissement, hygiène et approvisionnement en eau potable en Artibonite et Centre en Haïti
more
|
This project aims to reduce th...e number of deaths caused by diarrheal diseases by reducing health risks in the most vulnerable areas of the Artibonite and Centre departments of Haiti. The project aims to improve access to drinking water for 240,000 people in the communities of the Artibonite and Centre departments of Haiti. The project seeks to improve hygiene and sanitation in 140 schools and 30 health facilities, as well as to strengthen the Haitian government's capacity to coordinate sustainable sanitation and health services for the most vulnerable populations in 150 localities. The project works closely with Haitian government partners in water and sanitation, health and education, both at the national and departmental levels. This project is part of Canada's Maternal, Newborn and Child Health commitment. /Ce projet vise à réduire le nombre de morts causées par des maladies diarrhéiques en diminuant les risques sanitaires dans les zones les plus vulnérables des départements de l'Artibonite et du Centre. Le choléra demeure une menace très présente dans ces régions et la diarrhée est la cause de mortalité la plus commune auprès des enfants de moins de cinq ans. Le projet vise à améliorer l'accès de 240 000 personnes à l'eau potable dans les collectivités du département de l'Artibonite et du Centre en Haïti. Le projet cherche à améliorer l'hygiène et l'assainissement dans 140 écoles et 30 établissements de santé, ainsi qu'à renforcer la capacité du gouvernement haïtien à coordonner des services d'assainissement et de santé durables pour les populations les plus vulnérables dans 150 localités. Le projet œuvre en étroite collaboration avec les partenaires gouvernementaux haïtiens en eau et assainissement, en santé et en éducation, tant aux niveaux national que départemental. Ce projet fait partie de l'engagement du Canada à l'égard de la santé des mères, des nouveau-nés et des enfants.
more
|
|
12250
|
Infectious disease control
|
3
|
I.2.b. Basic Health
|
41122
|
United Nations Children's Fund
|
UNICEF - United Nations Childr...en's Fund
more
|
|
|
|
656797dc212eaade2e0ee4a8
|
2019
|
Canada
|
Global Affairs Canada
|
2017201231
|
P002536001
|
3
|
Haiti
|
Caribbean & Central America
|
LDCs
|
ODA Grants
|
1
|
10
|
110
|
C01
|
0
|
0.301432
|
0
|
0
|
0
|
0.301432
|
0
|
|
|
|
Communicable diseases
|
Communicable diseases Other
|
100
|
HAITI - EMERGENCY CHOLERA RESP...ONSE - MÉDECINS DU MONDE CANADA - 2017-2018/HAÏTI - INTERVENTION D'URGENCE RELATIVE AU CHOLÉRA - MÉDECINS DU MONDE CANAD
more
|
Haiti - Emergency Cholera Resp...onse - Médecins du Monde Canada - 2017-2018/Haïti - Intervention d'urgence relative au choléra - Médecins du Monde Canada 2017-2018
more
|
Haiti - Emergency Cholera Resp...onse - Médecins du Monde Canada - 2017-2018 / Haïti - Intervention d'urgence relative au choléra - Médecins du Monde Canada 2017-2018
more
|
|
72010
|
Material relief assistance and... services
more
|
1
|
VIII.1. Emergency Response
|
22000
|
Donor country-based NGO
|
Doctors of the World Canada
|
|
|
|
656797dd212eaade2e0ee4a9
|
2019
|
Canada
|
Global Affairs Canada
|
2019200604
|
P007425001
|
1
|
Haiti
|
Caribbean & Central America
|
LDCs
|
ODA Grants
|
1
|
10
|
110
|
C01
|
0.37679
|
0.37679
|
0
|
0
|
0.37679
|
0.37679
|
0
|
0.37679
|
|
|
Communicable diseases
|
Communicable diseases Other
|
100
|
HAITI - EMERGENCY CHOLERA RESP...ONSE - DOCTORS OF THE WORLD CANADA 2019/HAÏTI - INTERVENTION D'URGENCE RELATIVE AU CHOLÉRA - MÉDECINS DU MONDE CANADA 20
more
|
Haiti - Emergency Cholera Resp...onse - Doctors of the World Canada 2019/Haïti - Intervention d'urgence relative au choléra - Médecins du Monde Canada 2019
more
|
March 2019 - An estimated 2.6 ...million people in Haiti will require humanitarian assistance in 2019, most of them affected by acute food insecurity. The ongoing cholera outbreak also remains a major threat to hundreds of thousands of families. In addition, economic fragility and socio-political tensions are affecting the population's ability to access basic services and have contributed to perpetuating a humanitarian crisis. With GAC support, Doctors of the World Canada is helping to reduce morbidity and mortality related to the cholera epidemic. Project activities include: 1) providing support for emergency response to cholera outbreaks and the deployment of emergency medical teams; 2) strengthening the capacity of health authorities for the prevention and quality management of diarrheal diseases; 3) strengthening the epidemiological surveillance and early warning system for outbreaks. /Mars 2019 - Environ 2,6 millions de personnes en Haïti nécessiteront de l'aide humanitaire en 2019, majoritairement affectées par l'insécurité alimentaire aigüe. L'épidémie de choléra qui perdure demeure également une importante menace pour des centaines de milliers de familles. De plus, la fragilité économique et les tensions socio-politiques affectent la capacité de la population à accéder aux services de base et ont contribué à perpétuer une situation de crise humanitaire Avec l'appui d'Affaires mondiales Canada, Médecins du Monde Canada contribue à réduire la morbidité et la mortalité liées à l'épidémie de choléra. Les activités du projet comprennent : 1) fournir un appui à la réponse d'urgence aux flambées de choléra et au déploiement des équipes médicales d'urgence; 2) renforcer les capacités des autorités sanitaires pour la prévention et une prise en charge de qualité des maladies diarrhéiques; 3) renforcer le système de surveillance épidémiologique et d'alerte précoce aux flambées.
more
|
|
72010
|
Material relief assistance and... services
more
|
1
|
VIII.1. Emergency Response
|
22000
|
Donor country-based NGO
|
Doctors of the World Canada
|
|
|
|
656797dd212eaade2e0ee4aa
|
2019
|
Canada
|
Global Affairs Canada
|
2019200605
|
P007426001
|
1
|
Haiti
|
Caribbean & Central America
|
LDCs
|
ODA Grants
|
1
|
10
|
110
|
C01
|
0.527506
|
0.527506
|
0
|
0
|
0.527506
|
0.527506
|
0
|
0.527506
|
|
|
Communicable diseases
|
Communicable diseases Other
|
100
|
HAITI - EMERGENCY CHOLERA RESP...ONSE - SOLIDARITÉS INTERNATIONAL 2019/HAÏTI - INTERVENTION D'URGENCE RELATIVE AU CHOLÉRA - SOLIDARITÉS INTERNATIONAL 201
more
|
Haiti - Emergency Cholera Resp...onse - Solidarités International 2019/Haïti - Intervention d'urgence relative au choléra - Solidarités International 2019
more
|
March 2019 - An estimated 2.6 ...million people in Haiti will require humanitarian assistance in 2019, most of them affected by acute food insecurity. The ongoing cholera outbreak also remains a major threat to hundreds of thousands of families. In addition, economic fragility and socio-political tensions are affecting the population's ability to access basic services and have contributed to perpetuating a humanitarian crisis situation. With the support of GAC Canada, Solidarités International is working in collaboration with ACTED and Action contre la Faim (ACF). The project contributes to improving the immediate response to cases of diarrheal diseases. Project activities include: 1) providing support to the emergency response to cholera outbreaks; 2) installation of temporary water chlorination points in outbreak areas; 3) disinfecting affected households and distributing cholera prevention kits; 4) promoting awareness and training affected and at-risk populations, including community leaders, on disease prevention activities in the areas of drinking water, sanitation and hygiene. /Mars 2019 - Environ 2,6 millions de personnes en Haïti nécessiteront de l'aide humanitaire en 2019, majoritairement affectées par l'insécurité alimentaire aigüe. L'épidémie de choléra qui perdure demeure également une importante menace pour des centaines de milliers de familles. De plus, la fragilité économique et les tensions socio-politiques affectent la capacité de la population à accéder aux services de base et ont contribué à perpétuer une situation de crise humanitaire. Avec l'appui d'Affaires mondiales Canada, Solidarités International travaille en collaboration avec ACTED et Action contre la Faim (ACF). Le projet contribue à améliorer la réponse immédiate aux cas de maladies diarrhéiques. Les activités du projet comprennent : 1) fournir un appui à la réponse d'urgence aux flambées de choléra; 2) installation de points temporaires de chloration de l'eau dans les zones de flambées; 3) désinfecter des foyers affectés et distribuer des kits de prévention du choléra; 4) sensibiliser et former les populations affectées et à risque, incluant les leaders communautaires, sur des activités préventives de maladies en matière d'eau potable, d'assainissement et d'hygiène.
more
|
|
72010
|
Material relief assistance and... services
more
|
1
|
VIII.1. Emergency Response
|
22000
|
Donor country-based NGO
|
Solidarités International
|
|
|
|
656797df212eaade2e0ee4ab
|
2019
|
Canada
|
International Development Rese...arch Centre
more
|
20160084123
|
108412
|
3
|
Mexico
|
Caribbean & Central America
|
UMICs
|
ODA Grants
|
1
|
10
|
110
|
C01
|
0
|
0.0719683
|
0
|
0
|
0
|
0.0719683
|
0
|
|
|
|
Communicable diseases
|
Communicable diseases Other
|
100
|
PREVENTING ZIKA DISEASE WITH N...OVEL VECTOR CONTROL APPROACHES
more
|
Preventing Zika disease with n...ovel vector control approaches
more
|
The highest numbers of dengue ...cases in Latin America in the last few years have occurred in Brazil, Colombia, and Mexico. These countries have also faced outbreaks of chikungunya (2014-2015) and Zika (2015-2016). All three diseases are transmitted by the same mosquito vector, the aedes aegypti. The University of Ceará, Fundacion Santa Fe de Bogotá, and University of Yucatán have implemented vector control strategies to significantly reduce aedes aegypti. This proposal aims to scale up participatory interventions targeting the surveillance, prevention, and control of aedes-transmitted diseases in three municipalities, namely Fortaleza (Brazil), Armenia (Colombia), and Merida (Mexico). Multidisciplinary teams will collect epidemiological and entomological indicators at the beginning, mid-term, and end of the project in a household sample of the intervention. The project will also assess the governance outcomes, and the costs and cost-effectiveness of the scaled intervention compared to the routine vector control program. A complementary feature will be the design and implementation of an innovative surveillance system that will engage the community to improve case detection. Qualitative methods will be used to assess the acceptance of the intervention and to describe factors affecting the scaling up. State and municipal agencies, as well as NGOs, community-based organizations, and academic institutions will co-lead the scale-up of the interventions. Local and national resources have been committed to the implementation of the project. During the previous work of the principal research institutions in the three cities, strong links were developed with relevant strategic stakeholders that will facilitate implementation. The project is expected to make a significant contribution to the prevention of Zika, chikungunya and dengue disease through novel vector control and surveillance interventions that are potentially applicable in many other countries.
more
|
|
12182
|
Medical research
|
3
|
I.2.a. Health, General
|
23000
|
Developing country-based NGO
|
Fundación Santa Fe de Bogotá
|
|
|
|
656797df212eaade2e0ee4ac
|
2019
|
Canada
|
International Development Rese...arch Centre
more
|
20190090712
|
109071
|
1
|
Mexico
|
Caribbean & Central America
|
UMICs
|
ODA Grants
|
1
|
10
|
110
|
C01
|
0.201959
|
0.104898
|
0
|
0
|
0.201959
|
0.104898
|
0
|
0.201959
|
|
|
Communicable diseases
|
Communicable diseases Other
|
100
|
ENABLING BUSINESS AND TECHNOLO...GIES TO CONTRIBUTE TO THE CONTROL OF MOSQUITO-BORNE DISEASES IN LATIN AMERICA
more
|
Enabling Business and Technolo...gies to Contribute to the Control of Mosquito-Borne Diseases in Latin America
more
|
Aedes mosquito-transmitted ill...nesses, namely dengue, chikungunya, and Zika, have become a major burden of disease in Latin America and the Caribbean, where vector control programs have not been able to reduce the risk of disease transmission.IDRC and the Sao Paulo Research Foundation have partnered to promote and assess the role of small businesses in the development of new Aedes mosquito control technologies. Two research studies will take place in Mexico, where 60% of the territory, representing more than 50 million people, presents favorable conditions for the incidence of the Aedes mosquito. These studies will generate scientific evidence to support house screening as an effective and affordable vector tool in the city of Merida. It will also assess the efficacy, acceptability, and biosecurity of a paint that has the effect of prolonged residual insecticide in the city of Pochutla. Local partners Universidad Autónoma de Yucatán and CodeQuim, a vector control company, will implement the project. Senior researchers, small businesses, decision-makers and community representatives will be involved in both studies. Cost-effectiveness studies will assess the affordability of the proposed vector control tools. Subject to results, both the house screening and insecticide paint are promising tools to be applied in the context of integrated vector management. They are expected to contribute to national and/or state-level public health efforts to reduce the risk of Aedes-transmitted diseases and to be replicated in other Mexican cities. The project will document lessons learned about the role of small business in enhancing community access to vector control tools and assess the factors that influence their capacity to develop and speed up the time-to-market of Aedes control technologies.
more
|
|
12250
|
Infectious disease control
|
3
|
I.2.b. Basic Health
|
51000
|
University, college or other t...eaching institution, research institute or think-tank
more
|
Universidad Autónoma de Yucat...án
more
|
|
|
|
656797df212eaade2e0ee4ad
|
2019
|
Canada
|
International Development Rese...arch Centre
more
|
20190090711
|
109071
|
1
|
Mexico
|
Caribbean & Central America
|
UMICs
|
ODA Grants
|
1
|
10
|
110
|
C01
|
0.201432
|
0.0618636
|
0
|
0
|
0.201432
|
0.0618636
|
0
|
0.201432
|
|
|
Communicable diseases
|
Communicable diseases Other
|
100
|
ENABLING BUSINESS AND TECHNOLO...GIES TO CONTRIBUTE TO THE CONTROL OF MOSQUITO-BORNE DISEASES IN LATIN AMERICA
more
|
Enabling Business and Technolo...gies to Contribute to the Control of Mosquito-Borne Diseases in Latin America
more
|
Aedes mosquito-transmitted ill...nesses, namely dengue, chikungunya, and Zika, have become a major burden of disease in Latin America and the Caribbean, where vector control programs have not been able to reduce the risk of disease transmission.IDRC and the Sao Paulo Research Foundation have partnered to promote and assess the role of small businesses in the development of new Aedes mosquito control technologies. Two research studies will take place in Mexico, where 60% of the territory, representing more than 50 million people, presents favorable conditions for the incidence of the Aedes mosquito. These studies will generate scientific evidence to support house screening as an effective and affordable vector tool in the city of Merida. It will also assess the efficacy, acceptability, and biosecurity of a paint that has the effect of prolonged residual insecticide in the city of Pochutla. Local partners Universidad Autónoma de Yucatán and CodeQuim, a vector control company, will implement the project. Senior researchers, small businesses, decision-makers and community representatives will be involved in both studies. Cost-effectiveness studies will assess the affordability of the proposed vector control tools. Subject to results, both the house screening and insecticide paint are promising tools to be applied in the context of integrated vector management. They are expected to contribute to national and/or state-level public health efforts to reduce the risk of Aedes-transmitted diseases and to be replicated in other Mexican cities. The project will document lessons learned about the role of small business in enhancing community access to vector control tools and assess the factors that influence their capacity to develop and speed up the time-to-market of Aedes control technologies.
more
|
|
12250
|
Infectious disease control
|
3
|
I.2.b. Basic Health
|
51000
|
University, college or other t...eaching institution, research institute or think-tank
more
|
CODEQUIM', SOCIEDAD ANÓNIMA D...E CAPITAL VARIABLE
more
|
|
|
|
656797e1212eaade2e0ee4ae
|
2019
|
Canada
|
International Development Rese...arch Centre
more
|
20170084101
|
108410
|
3
|
South America, regional
|
South America
|
Part I unallocated by income
|
ODA Grants
|
1
|
10
|
110
|
C01
|
0
|
0.0582253
|
0
|
0
|
0
|
0.0582253
|
0
|
|
|
|
Communicable diseases
|
Communicable diseases Other
|
100
|
DEVELOPMENT AND DEPLOYMENT OF ...LOW-COST, PAPER-BASED ZIKA DIAGNOSTICS
more
|
Development and deployment of ...low-cost, paper-based Zika diagnostics
more
|
The outbreak of the Zika virus... highlights the need for low-cost diagnostics that can be rapidly developed, tested and deployed for use in regions vulnerable to this pandemic threat. Diagnostic tests which are currently available are either costly, unavailable in remote locations where surveillance of Zika transmission is most needed, or cannot differentiate the Zika virus from other pathogens like the dengue or chikungunya viruses.This project is implemented in collaboration with the Oswaldo Cruz Foundation, which is the national institute of infectious disease in Brazil; the National Institute for Research in Public Health in Ecuador; and the Universidad El Bosque in Colombia. It will support Canadian and Latin American researchers to develop and deploy a low-cost, paper-based diagnostic test to detect Zika virus infections in Latin America. This diagnostic test is powered by next-generation advances in synthetic biology and genetic sequencing. It has already been validated in laboratory animal models.This project will refine, expand upon, and field-validate this test in real-world clinical settings in Latin America. A multi-disciplinary research team will improve the ability of this test to detect the Zika virus, distinguish between different strains of the virus, and differentiate between the Zika virus and dengue, chikungunya and related viral infections. This project will also refine the test to make it faster, easier and cheaper to use in the field. Finally, the project will work with national laboratories in Latin America to easily and quickly collect patient samples and test for the virus at the point of care without the need for a storage and distribution cold-chain system. Through these efforts, this research stands to improve diagnostic and surveillance capacity in Latin America against the Zika virus, slow the spread of the Zika virus outbreak, and ultimately improve human health.
more
|
|
12182
|
Medical research
|
3
|
I.2.a. Health, General
|
12000
|
Recipient Government
|
Instituto Nacional de Investig...acion en Salud Publica - INSPI
more
|
|
|
|
656797e1212eaade2e0ee4af
|
2019
|
Canada
|
International Development Rese...arch Centre
more
|
20170084102
|
108410
|
3
|
South America, regional
|
South America
|
Part I unallocated by income
|
ODA Grants
|
1
|
10
|
110
|
C01
|
0
|
0.0502788
|
0
|
0
|
0
|
0.0502788
|
0
|
|
|
|
Communicable diseases
|
Communicable diseases Other
|
100
|
DEVELOPMENT AND DEPLOYMENT OF ...LOW-COST, PAPER-BASED ZIKA DIAGNOSTICS
more
|
Development and deployment of ...low-cost, paper-based Zika diagnostics
more
|
The outbreak of the Zika virus... highlights the need for low-cost diagnostics that can be rapidly developed, tested and deployed for use in regions vulnerable to this pandemic threat. Diagnostic tests which are currently available are either costly, unavailable in remote locations where surveillance of Zika transmission is most needed, or cannot differentiate the Zika virus from other pathogens like the dengue or chikungunya viruses.This project is implemented in collaboration with the Oswaldo Cruz Foundation, which is the national institute of infectious disease in Brazil; the National Institute for Research in Public Health in Ecuador; and the Universidad El Bosque in Colombia. It will support Canadian and Latin American researchers to develop and deploy a low-cost, paper-based diagnostic test to detect Zika virus infections in Latin America. This diagnostic test is powered by next-generation advances in synthetic biology and genetic sequencing. It has already been validated in laboratory animal models.This project will refine, expand upon, and field-validate this test in real-world clinical settings in Latin America. A multi-disciplinary research team will improve the ability of this test to detect the Zika virus, distinguish between different strains of the virus, and differentiate between the Zika virus and dengue, chikungunya and related viral infections. This project will also refine the test to make it faster, easier and cheaper to use in the field. Finally, the project will work with national laboratories in Latin America to easily and quickly collect patient samples and test for the virus at the point of care without the need for a storage and distribution cold-chain system. Through these efforts, this research stands to improve diagnostic and surveillance capacity in Latin America against the Zika virus, slow the spread of the Zika virus outbreak, and ultimately improve human health.
more
|
|
12182
|
Medical research
|
3
|
I.2.a. Health, General
|
51000
|
University, college or other t...eaching institution, research institute or think-tank
more
|
Universidad El Bosque
|
|
|
|
656797e4212eaade2e0ee4b0
|
2020
|
Canada
|
Global Affairs Canada
|
20192008360005
|
P007310001
|
3
|
Cambodia
|
Far East Asia
|
LDCs
|
ODA Grants
|
1
|
10
|
110
|
D01
|
2.1E-5
|
0.001238
|
0
|
0
|
2.1E-5
|
0.001238
|
0
|
|
|
2.1E-5
|
Communicable diseases
|
Communicable diseases Other
|
100
|
VETERINARIANS WITHOUT BORDERS ...- VOLUNTEER COOPERATION 2020-2027/VÉTÉRINAIRES SANS FRONTIÈRES - COOPÉRATION VOLONTAIRE 2020-2027
more
|
Veterinarians without Borders ...- Volunteer Cooperation 2020-2027/Vétérinaires Sans Frontières - Coopération volontaire 2020-2027
more
|
This project supports 190 volu...nteer placements and aims to improve the economic and social well-being of the poorest, most marginalized people, particularly women and girls, through animal, human and environmental health contributing to the Sustainable Development Goals. In addition to increasing engagement of Canadians in international development and key global issues, this project works to increase the performance of 10 developing country partners to deliver more inclusive, innovative, and environmentally sustainable development initiatives that advance gender equality. The project also works to use the skills of Canadian volunteers to support smallholder farmers, primarily women, to reduce poverty by improving family income and nutrition principally through improved production of livestock and crops. By working with local women's organizations and associations, as well as local partners that work with and support the identified women's groups, the project aims to help women assume greater leadership and control over their livelihoods. Project activities include: (1) recruiting and providing gender sensitive training to Canadian volunteers, (2) selecting and training women as community animal health workers in 93 communities, (3) conducting gender equality, gendered environmental and organizational capacity assessments with country partners, (4) developing policies on gender equality, animal health and the environment with partners, and providing gender sensitivity training to farming communities and staff of partner organizations, as well as delivering seminars to improve livelihoods of rural farmers through animal husbandry and production training, and (5) integrating innovative practices (telemedicine, gender equitable-family model, bio-gas harvesting) to reduce the workload burden for women. / Ce projet soutient 190 placements de volontaires et vise à améliorer le bien-être économique et social des personnes les plus pauvres et les plus marginalisées, en particulier les femmes et les filles, grâce à la santé animale, humaine et environnementale, et en appui aux objectifs du développement durable. En plus d'accroître la participation des Canadiennes et des Canadiens au développement international et aux grands enjeux mondiaux, ce projet vise à accroître la performance de dix partenaires de pays en développement dans la mise en œuvre d'initiatives de développement plus inclusives, novatrices et durables sur le plan environnemental et qui font progresser l'égalité des genres. Le projet utilise les compétences de volontaires canadiens pour aider les petits exploitants agricoles, principalement des femmes, à réduire leur niveau de pauvreté en améliorant le revenu familial et leur nutrition, et principalement par l'amélioration de la production du bétail et des cultures. En travaillant avec les organisations et associations locales de femmes, ainsi qu'avec les partenaires locaux qui travaillent avec les groupes de femmes, le projet aide égale
more
|
|
12250
|
Infectious disease control
|
8,5,3,2,17,12
|
I.2.b. Basic Health
|
22000
|
Donor country-based NGO
|
Veterinarians Without Borders
|
|
|
|
656797e5212eaade2e0ee4b1
|
2020
|
Canada
|
Global Affairs Canada
|
20202003400001
|
P008992002
|
1
|
Democratic Republic of the Con...go
more
|
South of Sahara
|
LDCs
|
ODA Grants
|
1
|
10
|
110
|
C01
|
0.14912
|
0.14912
|
0
|
0
|
0.14912
|
0.14912
|
0
|
0.14912
|
|
|
Communicable diseases
|
Communicable diseases Other
|
100
|
EMERGENCY FUNDING - CANADIAN R...ED CROSS 2020 APPEALS/FINANCEMENT D`URGENCE - APPELS 2020 DE LA CROIX-ROUGE CANADIENNE
more
|
Emergency Funding - Canadian R...ed Cross 2020 Appeals/Financement d`urgence - Appels 2020 de la Croix-Rouge canadienne
more
|
The International Federation o...f Red Cross and Red Crescent Societies (IFRC) is one of the three pillars of the Red Cross Movement. The IFRC coordinates and works with national societies around the world to provide relief assistance to affected people, following a natural disaster or man-made disaster primarily in non-conflict situations. With GAC's support, several IFRC Appeals aim to provide urgent and life-saving assistance to vulnerable people in Bangladesh, the Democratic Republic of Congo (DRC) and South America. Project activities include: (1) supporting the provision of basic services to Venezuelans in countries affected by the crisis, including first aid services, psychosocial support and the distribution of information materials to crisis-affected and in-transit people, (2) increasing access to protection, health care and material relief assistance to refugees and host communities in Cox's Bazar, Bangladesh, and (3) establishing and maintaining infection prevention and control measures in health facilities in the DRC.
more
|
|
72050
|
Relief co-ordination and suppo...rt services
more
|
3,1
|
VIII.1. Emergency Response
|
22000
|
Donor country-based NGO
|
Canadian Red Cross
|
|
|
|
656797e6212eaade2e0ee4b2
|
2020
|
Canada
|
International Development Rese...arch Centre
more
|
20190093020003
|
109302
|
3
|
Developing countries, unspecif...ied
more
|
Regional and Unspecified
|
Part I unallocated by income
|
ODA Grants
|
1
|
10
|
110
|
C01
|
0.051171
|
0.019244
|
0
|
0
|
0.051171
|
0.019244
|
0
|
0.051171
|
|
|
Communicable diseases
|
Communicable diseases Other
|
100
|
DEVELOPMENT OF RAPID DIAGNOSTI...CS FOR DRUG-RESISTANT BLOODSTREAM INFECTIONS
more
|
Development of rapid diagnosti...cs for drug-resistant bloodstream infections
more
|
Globally, bloodstream infectio...ns are a significant cause of clinical morbidity and mortality estimated to cause several hundred thousand deaths annually worldwide. The considerable time it takes to identify and test for antibiotic-resistant infections results in critical delays to administer appropriate antimicrobial therapy and it has a detrimental effect on the clinical outcome of patients. With advances to cutting-edge molecular diagnostic technologies like mass spectrometry, the time required to identify an infectious agent has been drastically reduced. However, cost and availability issues have prevented clinicians from applying these technologies towards improving the clinical management of blood infections. This project aims to develop and evaluate new diagnostics technology that will allow clinicians to identify a pathogen and produce a clinical profile of its susceptibility to clinical therapies in less than one hour. Once developed and validated, the project will undertake real-world testing in clinical laboratories. The project will involve an international and multidisciplinary team of collaborators from Thailand, France, Poland, and Canada, with expertise in proteogenomics, bacteriology, molecular epidemiology, and clinical microbiology. The project is establishing a partnership with a Canadian private sector company that will provide technical, commercial, and legal expertise to support the downstream licensing and commercialization of the technology. This is one of five IDRC-funded projects developed through the Joint Programming Initiative on Antimicrobial Resistance (JPIAMR), an international platform that coordinates global funding to support collaborative research and action on antimicrobial resistance. Through the JPIAMR, IDRC has partnered with 18 other donor agencies to fund innovative research projects on diagnostics and surveillance strategies, tools, and technologies that can be used to detect and monitor antimicrobial resistance in human, animal, and environmental settings, particularly in low and middle-income countries.
more
|
|
12250
|
Infectious disease control
|
3
|
I.2.b. Basic Health
|
51000
|
University, college or other t...eaching institution, research institute or think-tank
more
|
Mahidol University
|
|
|
|
656797e6212eaade2e0ee4b3
|
2020
|
Canada
|
International Development Rese...arch Centre
more
|
20190093020002
|
109302
|
3
|
Developing countries, unspecif...ied
more
|
Regional and Unspecified
|
Part I unallocated by income
|
ODA Grants
|
1
|
10
|
110
|
C01
|
0.043595
|
0.016396
|
0
|
0
|
0.043595
|
0.016396
|
0
|
0.043595
|
|
|
Communicable diseases
|
Communicable diseases Other
|
100
|
DEVELOPMENT OF RAPID DIAGNOSTI...CS FOR DRUG-RESISTANT BLOODSTREAM INFECTIONS
more
|
Development of rapid diagnosti...cs for drug-resistant bloodstream infections
more
|
Globally, bloodstream infectio...ns are a significant cause of clinical morbidity and mortality estimated to cause several hundred thousand deaths annually worldwide. The considerable time it takes to identify and test for antibiotic-resistant infections results in critical delays to administer appropriate antimicrobial therapy and it has a detrimental effect on the clinical outcome of patients. With advances to cutting-edge molecular diagnostic technologies like mass spectrometry, the time required to identify an infectious agent has been drastically reduced. However, cost and availability issues have prevented clinicians from applying these technologies towards improving the clinical management of blood infections. This project aims to develop and evaluate new diagnostics technology that will allow clinicians to identify a pathogen and produce a clinical profile of its susceptibility to clinical therapies in less than one hour. Once developed and validated, the project will undertake real-world testing in clinical laboratories. The project will involve an international and multidisciplinary team of collaborators from Thailand, France, Poland, and Canada, with expertise in proteogenomics, bacteriology, molecular epidemiology, and clinical microbiology. The project is establishing a partnership with a Canadian private sector company that will provide technical, commercial, and legal expertise to support the downstream licensing and commercialization of the technology. This is one of five IDRC-funded projects developed through the Joint Programming Initiative on Antimicrobial Resistance (JPIAMR), an international platform that coordinates global funding to support collaborative research and action on antimicrobial resistance. Through the JPIAMR, IDRC has partnered with 18 other donor agencies to fund innovative research projects on diagnostics and surveillance strategies, tools, and technologies that can be used to detect and monitor antimicrobial resistance in human, animal, and environmental settings, particularly in low and middle-income countries.
more
|
|
12250
|
Infectious disease control
|
3
|
I.2.b. Basic Health
|
51000
|
University, college or other t...eaching institution, research institute or think-tank
more
|
Mahidol University
|
|
|
|
656797e6212eaade2e0ee4b4
|
2020
|
Canada
|
International Development Rese...arch Centre
more
|
20190093030009
|
109303
|
3
|
Developing countries, unspecif...ied
more
|
Regional and Unspecified
|
Part I unallocated by income
|
ODA Grants
|
1
|
10
|
110
|
C01
|
0.026514
|
0.003691
|
0
|
0
|
0.026514
|
0.003691
|
0
|
0.026514
|
|
|
Communicable diseases
|
Communicable diseases Other
|
100
|
IMPROVING TOOLS TO ENABLE COMP...REHENSIVE SURVEILLANCE OF ANTIMICROBIAL RESISTANCE IN HUMANS, ANIMALS AND THE ENVIRONMENT
more
|
Improving tools to enable comp...rehensive surveillance of antimicrobial resistance in humans, animals and the environment
more
|
A number of countries and inte...rnational organizations have stressed the need for integrated surveillance systems to comprehensively detect and monitor antimicrobial resistance (AMR), particularly in animal and environmental reservoirs. The World Health Organization has responded with the development of the Tricycle Protocol, a basic protocol for the surveillance of antibiotic-resistant E. coli in healthy human populations (pregnant women), infected patients (bloodstream infections), in the animal sector (focusing on poultry), and in natural environments (targeting raw human and animal wastewater and surface water).This project aims to strengthen the Tricycle Protocol by expanding the scope of AMR surveillance to include additional bacterial strains of significant public health concern. The project also proposes to integrate whole-genome sequencing technologies into the Tricycle Protocol. Doing so will greatly strengthen the epidemiological power of this surveillance system and allow for faster and more effective detection, investigation, and tracking of antimicrobial resistant bacteria. This is one of five IDRC-funded projects developed through the Joint Programming Initiative on Antimicrobial Resistance (JPIAMR), an international platform that coordinates global funding to support collaborative research and action on antimicrobial resistance. Through the JPIAMR, IDRC has partnered with 18 other donor agencies to fund innovative research on diagnostics and surveillance strategies, tools, and technologies that can be used to detect and monitor antimicrobial resistance in human, animal, and environmental settings, particularly in low and middle-income countries.
more
|
|
12182
|
Medical research
|
3
|
I.2.a. Health, General
|
23000
|
Developing country-based NGO
|
Institute for Medical Research.../Institiut Penyelidikan Perubatan
more
|
|
|
|
656797e6212eaade2e0ee4b5
|
2020
|
Canada
|
International Development Rese...arch Centre
more
|
20190093030010
|
109303
|
3
|
Developing countries, unspecif...ied
more
|
Regional and Unspecified
|
Part I unallocated by income
|
ODA Grants
|
1
|
10
|
110
|
C01
|
0.023442
|
0.003169
|
0
|
0
|
0.023442
|
0.003169
|
0
|
0.023442
|
|
|
Communicable diseases
|
Communicable diseases Other
|
100
|
IMPROVING TOOLS TO ENABLE COMP...REHENSIVE SURVEILLANCE OF ANTIMICROBIAL RESISTANCE IN HUMANS, ANIMALS AND THE ENVIRONMENT
more
|
Improving tools to enable comp...rehensive surveillance of antimicrobial resistance in humans, animals and the environment
more
|
A number of countries and inte...rnational organizations have stressed the need for integrated surveillance systems to comprehensively detect and monitor antimicrobial resistance (AMR), particularly in animal and environmental reservoirs. The World Health Organization has responded with the development of the Tricycle Protocol, a basic protocol for the surveillance of antibiotic-resistant E. coli in healthy human populations (pregnant women), infected patients (bloodstream infections), in the animal sector (focusing on poultry), and in natural environments (targeting raw human and animal wastewater and surface water).This project aims to strengthen the Tricycle Protocol by expanding the scope of AMR surveillance to include additional bacterial strains of significant public health concern. The project also proposes to integrate whole-genome sequencing technologies into the Tricycle Protocol. Doing so will greatly strengthen the epidemiological power of this surveillance system and allow for faster and more effective detection, investigation, and tracking of antimicrobial resistant bacteria. This is one of five IDRC-funded projects developed through the Joint Programming Initiative on Antimicrobial Resistance (JPIAMR), an international platform that coordinates global funding to support collaborative research and action on antimicrobial resistance. Through the JPIAMR, IDRC has partnered with 18 other donor agencies to fund innovative research on diagnostics and surveillance strategies, tools, and technologies that can be used to detect and monitor antimicrobial resistance in human, animal, and environmental settings, particularly in low and middle-income countries.
more
|
|
12182
|
Medical research
|
3
|
I.2.a. Health, General
|
12000
|
Recipient Government
|
National Institute of Health
|
|
|
|
656797e6212eaade2e0ee4b6
|
2020
|
Canada
|
International Development Rese...arch Centre
more
|
20190093030007
|
109303
|
3
|
Developing countries, unspecif...ied
more
|
Regional and Unspecified
|
Part I unallocated by income
|
ODA Grants
|
1
|
10
|
110
|
C01
|
0.022584
|
0.003139
|
0
|
0
|
0.022584
|
0.003139
|
0
|
0.022584
|
|
|
Communicable diseases
|
Communicable diseases Other
|
100
|
IMPROVING TOOLS TO ENABLE COMP...REHENSIVE SURVEILLANCE OF ANTIMICROBIAL RESISTANCE IN HUMANS, ANIMALS AND THE ENVIRONMENT
more
|
Improving tools to enable comp...rehensive surveillance of antimicrobial resistance in humans, animals and the environment
more
|
A number of countries and inte...rnational organizations have stressed the need for integrated surveillance systems to comprehensively detect and monitor antimicrobial resistance (AMR), particularly in animal and environmental reservoirs. The World Health Organization has responded with the development of the Tricycle Protocol, a basic protocol for the surveillance of antibiotic-resistant E. coli in healthy human populations (pregnant women), infected patients (bloodstream infections), in the animal sector (focusing on poultry), and in natural environments (targeting raw human and animal wastewater and surface water).This project aims to strengthen the Tricycle Protocol by expanding the scope of AMR surveillance to include additional bacterial strains of significant public health concern. The project also proposes to integrate whole-genome sequencing technologies into the Tricycle Protocol. Doing so will greatly strengthen the epidemiological power of this surveillance system and allow for faster and more effective detection, investigation, and tracking of antimicrobial resistant bacteria. This is one of five IDRC-funded projects developed through the Joint Programming Initiative on Antimicrobial Resistance (JPIAMR), an international platform that coordinates global funding to support collaborative research and action on antimicrobial resistance. Through the JPIAMR, IDRC has partnered with 18 other donor agencies to fund innovative research on diagnostics and surveillance strategies, tools, and technologies that can be used to detect and monitor antimicrobial resistance in human, animal, and environmental settings, particularly in low and middle-income countries.
more
|
|
12182
|
Medical research
|
3
|
I.2.a. Health, General
|
23000
|
Developing country-based NGO
|
Institute for Medical Research.../Institiut Penyelidikan Perubatan
more
|
|
|
|
656797e6212eaade2e0ee4b7
|
2020
|
Canada
|
International Development Rese...arch Centre
more
|
20190093030008
|
109303
|
3
|
Developing countries, unspecif...ied
more
|
Regional and Unspecified
|
Part I unallocated by income
|
ODA Grants
|
1
|
10
|
110
|
C01
|
0.019967
|
0.002699
|
0
|
0
|
0.019967
|
0.002699
|
0
|
0.019967
|
|
|
Communicable diseases
|
Communicable diseases Other
|
100
|
IMPROVING TOOLS TO ENABLE COMP...REHENSIVE SURVEILLANCE OF ANTIMICROBIAL RESISTANCE IN HUMANS, ANIMALS AND THE ENVIRONMENT
more
|
Improving tools to enable comp...rehensive surveillance of antimicrobial resistance in humans, animals and the environment
more
|
A number of countries and inte...rnational organizations have stressed the need for integrated surveillance systems to comprehensively detect and monitor antimicrobial resistance (AMR), particularly in animal and environmental reservoirs. The World Health Organization has responded with the development of the Tricycle Protocol, a basic protocol for the surveillance of antibiotic-resistant E. coli in healthy human populations (pregnant women), infected patients (bloodstream infections), in the animal sector (focusing on poultry), and in natural environments (targeting raw human and animal wastewater and surface water).This project aims to strengthen the Tricycle Protocol by expanding the scope of AMR surveillance to include additional bacterial strains of significant public health concern. The project also proposes to integrate whole-genome sequencing technologies into the Tricycle Protocol. Doing so will greatly strengthen the epidemiological power of this surveillance system and allow for faster and more effective detection, investigation, and tracking of antimicrobial resistant bacteria. This is one of five IDRC-funded projects developed through the Joint Programming Initiative on Antimicrobial Resistance (JPIAMR), an international platform that coordinates global funding to support collaborative research and action on antimicrobial resistance. Through the JPIAMR, IDRC has partnered with 18 other donor agencies to fund innovative research on diagnostics and surveillance strategies, tools, and technologies that can be used to detect and monitor antimicrobial resistance in human, animal, and environmental settings, particularly in low and middle-income countries.
more
|
|
12182
|
Medical research
|
3
|
I.2.a. Health, General
|
12000
|
Recipient Government
|
National Institute of Health
|
|
|
|
656797e6212eaade2e0ee4b8
|
2020
|
Canada
|
International Development Rese...arch Centre
more
|
20190093040004
|
109304
|
3
|
Developing countries, unspecif...ied
more
|
Regional and Unspecified
|
Part I unallocated by income
|
ODA Grants
|
1
|
10
|
110
|
C01
|
0.095825
|
0.02166
|
0
|
0
|
0.095825
|
0.02166
|
0
|
0.095825
|
|
|
Communicable diseases
|
Communicable diseases Other
|
100
|
ESTABLISHING A MONITORING BASE...LINE FOR ANTIBIOTIC RESISTANCE IN HUMAN, ANIMAL AND NATURAL ENVIRONMENTS
more
|
Establishing a monitoring base...line for antibiotic resistance in human, animal and natural environments
more
|
There is growing recognition t...hat more research is necessary to understand the role of human-made and natural environments in the global emergence and spread of antimicrobial resistance (AMR). There are few tools to understand where and how AMR can emerge from environments such as bodies of water, sewage, or environments affected by industrial pollution. Although there have been some studies in select environments, the research lacks comparability because of the absence of standardized detection and analytical tools. Moreover, there is little understanding of the genetic mechanisms that drive AMR in environmental settings. This project will develop innovative and standardized tools to detect AMR in natural and human-made environments. This includes using metagenomics to identify target genes that can be prioritized for surveillance, and designing an AMR monitoring framework that can be implemented and adapted to various settings in low and middle-income countries. This research will generate important knowledge that can help to limit the emergence and spread of AMR, particularly from environments where little is currently known. This is one of five IDRC-funded projects developed through the Joint Programming Initiative on Antimicrobial Resistance (JPIAMR), an international platform that coordinates global funding to support collaborative research and action on antimicrobial resistance. Through the JPIAMR, IDRC has partnered with 18 other donor agencies to fund innovative research projects on diagnostics and surveillance strategies, tools, and technologies that can be used to detect and monitor antimicrobial resistance in human, animal, and environmental settings, particularly in low and middle-income countries.
more
|
|
12182
|
Medical research
|
3
|
I.2.a. Health, General
|
51000
|
University, college or other t...eaching institution, research institute or think-tank
more
|
Quaid-i-Azam University
|
|
|
|
656797e7212eaade2e0ee4b9
|
2020
|
Canada
|
International Development Rese...arch Centre
more
|
20190093040002
|
109304
|
3
|
Developing countries, unspecif...ied
more
|
Regional and Unspecified
|
Part I unallocated by income
|
ODA Grants
|
1
|
10
|
110
|
C01
|
0.081628
|
0.018454
|
0
|
0
|
0.081628
|
0.018454
|
0
|
0.081628
|
|
|
Communicable diseases
|
Communicable diseases Other
|
100
|
ESTABLISHING A MONITORING BASE...LINE FOR ANTIBIOTIC RESISTANCE IN HUMAN, ANIMAL AND NATURAL ENVIRONMENTS
more
|
Establishing a monitoring base...line for antibiotic resistance in human, animal and natural environments
more
|
There is growing recognition t...hat more research is necessary to understand the role of human-made and natural environments in the global emergence and spread of antimicrobial resistance (AMR). There are few tools to understand where and how AMR can emerge from environments such as bodies of water, sewage, or environments affected by industrial pollution. Although there have been some studies in select environments, the research lacks comparability because of the absence of standardized detection and analytical tools. Moreover, there is little understanding of the genetic mechanisms that drive AMR in environmental settings. This project will develop innovative and standardized tools to detect AMR in natural and human-made environments. This includes using metagenomics to identify target genes that can be prioritized for surveillance, and designing an AMR monitoring framework that can be implemented and adapted to various settings in low and middle-income countries. This research will generate important knowledge that can help to limit the emergence and spread of AMR, particularly from environments where little is currently known. This is one of five IDRC-funded projects developed through the Joint Programming Initiative on Antimicrobial Resistance (JPIAMR), an international platform that coordinates global funding to support collaborative research and action on antimicrobial resistance. Through the JPIAMR, IDRC has partnered with 18 other donor agencies to fund innovative research projects on diagnostics and surveillance strategies, tools, and technologies that can be used to detect and monitor antimicrobial resistance in human, animal, and environmental settings, particularly in low and middle-income countries.
more
|
|
12182
|
Medical research
|
3
|
I.2.a. Health, General
|
51000
|
University, college or other t...eaching institution, research institute or think-tank
more
|
Quaid-i-Azam University
|
|
|
|
656797e7212eaade2e0ee4ba
|
2020
|
Canada
|
International Development Rese...arch Centre
more
|
20190093040003
|
109304
|
3
|
Developing countries, unspecif...ied
more
|
Regional and Unspecified
|
Part I unallocated by income
|
ODA Grants
|
1
|
10
|
110
|
C01
|
0.094013
|
0.008895
|
0
|
0
|
0.094013
|
0.008895
|
0
|
0.094013
|
|
|
Communicable diseases
|
Communicable diseases Other
|
100
|
ESTABLISHING A MONITORING BASE...LINE FOR ANTIBIOTIC RESISTANCE IN HUMAN, ANIMAL AND NATURAL ENVIRONMENTS
more
|
Establishing a monitoring base...line for antibiotic resistance in human, animal and natural environments
more
|
There is growing recognition t...hat more research is necessary to understand the role of human-made and natural environments in the global emergence and spread of antimicrobial resistance (AMR). There are few tools to understand where and how AMR can emerge from environments such as bodies of water, sewage, or environments affected by industrial pollution. Although there have been some studies in select environments, the research lacks comparability because of the absence of standardized detection and analytical tools. Moreover, there is little understanding of the genetic mechanisms that drive AMR in environmental settings. This project will develop innovative and standardized tools to detect AMR in natural and human-made environments. This includes using metagenomics to identify target genes that can be prioritized for surveillance, and designing an AMR monitoring framework that can be implemented and adapted to various settings in low and middle-income countries. This research will generate important knowledge that can help to limit the emergence and spread of AMR, particularly from environments where little is currently known. This is one of five IDRC-funded projects developed through the Joint Programming Initiative on Antimicrobial Resistance (JPIAMR), an international platform that coordinates global funding to support collaborative research and action on antimicrobial resistance. Through the JPIAMR, IDRC has partnered with 18 other donor agencies to fund innovative research projects on diagnostics and surveillance strategies, tools, and technologies that can be used to detect and monitor antimicrobial resistance in human, animal, and environmental settings, particularly in low and middle-income countries.
more
|
|
12182
|
Medical research
|
3
|
I.2.a. Health, General
|
51000
|
University, college or other t...eaching institution, research institute or think-tank
more
|
Fudan University
|
|
|
|
656797e7212eaade2e0ee4bb
|
2020
|
Canada
|
International Development Rese...arch Centre
more
|
20190093040001
|
109304
|
3
|
Developing countries, unspecif...ied
more
|
Regional and Unspecified
|
Part I unallocated by income
|
ODA Grants
|
1
|
10
|
110
|
C01
|
0.080085
|
0.007583
|
0
|
0
|
0.080085
|
0.007583
|
0
|
0.080085
|
|
|
Communicable diseases
|
Communicable diseases Other
|
100
|
ESTABLISHING A MONITORING BASE...LINE FOR ANTIBIOTIC RESISTANCE IN HUMAN, ANIMAL AND NATURAL ENVIRONMENTS
more
|
Establishing a monitoring base...line for antibiotic resistance in human, animal and natural environments
more
|
There is growing recognition t...hat more research is necessary to understand the role of human-made and natural environments in the global emergence and spread of antimicrobial resistance (AMR). There are few tools to understand where and how AMR can emerge from environments such as bodies of water, sewage, or environments affected by industrial pollution. Although there have been some studies in select environments, the research lacks comparability because of the absence of standardized detection and analytical tools. Moreover, there is little understanding of the genetic mechanisms that drive AMR in environmental settings. This project will develop innovative and standardized tools to detect AMR in natural and human-made environments. This includes using metagenomics to identify target genes that can be prioritized for surveillance, and designing an AMR monitoring framework that can be implemented and adapted to various settings in low and middle-income countries. This research will generate important knowledge that can help to limit the emergence and spread of AMR, particularly from environments where little is currently known. This is one of five IDRC-funded projects developed through the Joint Programming Initiative on Antimicrobial Resistance (JPIAMR), an international platform that coordinates global funding to support collaborative research and action on antimicrobial resistance. Through the JPIAMR, IDRC has partnered with 18 other donor agencies to fund innovative research projects on diagnostics and surveillance strategies, tools, and technologies that can be used to detect and monitor antimicrobial resistance in human, animal, and environmental settings, particularly in low and middle-income countries.
more
|
|
12182
|
Medical research
|
3
|
I.2.a. Health, General
|
51000
|
University, college or other t...eaching institution, research institute or think-tank
more
|
Fudan University
|
|
|
|
656797e7212eaade2e0ee4bc
|
2020
|
Canada
|
Global Affairs Canada
|
20192008360008
|
P007310001
|
3
|
Developing countries, unspecif...ied
more
|
Regional and Unspecified
|
Part I unallocated by income
|
ODA Grants
|
1
|
10
|
110
|
D01
|
1.0E-6
|
4.8E-5
|
0
|
0
|
1.0E-6
|
4.8E-5
|
0
|
|
|
1.0E-6
|
Communicable diseases
|
Communicable diseases Other
|
100
|
VETERINARIANS WITHOUT BORDERS ...- VOLUNTEER COOPERATION 2020-2027/VÉTÉRINAIRES SANS FRONTIÈRES - COOPÉRATION VOLONTAIRE 2020-2027
more
|
Veterinarians without Borders ...- Volunteer Cooperation 2020-2027/Vétérinaires Sans Frontières - Coopération volontaire 2020-2027
more
|
This project supports 190 volu...nteer placements and aims to improve the economic and social well-being of the poorest, most marginalized people, particularly women and girls, through animal, human and environmental health contributing to the Sustainable Development Goals. In addition to increasing engagement of Canadians in international development and key global issues, this project works to increase the performance of 10 developing country partners to deliver more inclusive, innovative, and environmentally sustainable development initiatives that advance gender equality. The project also works to use the skills of Canadian volunteers to support smallholder farmers, primarily women, to reduce poverty by improving family income and nutrition principally through improved production of livestock and crops. By working with local women's organizations and associations, as well as local partners that work with and support the identified women's groups, the project aims to help women assume greater leadership and control over their livelihoods. Project activities include: (1) recruiting and providing gender sensitive training to Canadian volunteers, (2) selecting and training women as community animal health workers in 93 communities, (3) conducting gender equality, gendered environmental and organizational capacity assessments with country partners, (4) developing policies on gender equality, animal health and the environment with partners, and providing gender sensitivity training to farming communities and staff of partner organizations, as well as delivering seminars to improve livelihoods of rural farmers through animal husbandry and production training, and (5) integrating innovative practices (telemedicine, gender equitable-family model, bio-gas harvesting) to reduce the workload burden for women. / Ce projet soutient 190 placements de volontaires et vise à améliorer le bien-être économique et social des personnes les plus pauvres et les plus marginalisées, en particulier les femmes et les filles, grâce à la santé animale, humaine et environnementale, et en appui aux objectifs du développement durable. En plus d'accroître la participation des Canadiennes et des Canadiens au développement international et aux grands enjeux mondiaux, ce projet vise à accroître la performance de dix partenaires de pays en développement dans la mise en œuvre d'initiatives de développement plus inclusives, novatrices et durables sur le plan environnemental et qui font progresser l'égalité des genres. Le projet utilise les compétences de volontaires canadiens pour aider les petits exploitants agricoles, principalement des femmes, à réduire leur niveau de pauvreté en améliorant le revenu familial et leur nutrition, et principalement par l'amélioration de la production du bétail et des cultures. En travaillant avec les organisations et associations locales de femmes, ainsi qu'avec les partenaires locaux qui travaillent avec les groupes de femmes, le projet aide égale
more
|
|
12250
|
Infectious disease control
|
8,5,3,2,17,12
|
I.2.b. Basic Health
|
22000
|
Donor country-based NGO
|
Veterinarians Without Borders
|
|
|
|
656797e7212eaade2e0ee4bd
|
2020
|
Canada
|
Global Affairs Canada
|
20192008360004
|
P007310001
|
3
|
Developing countries, unspecif...ied
more
|
Regional and Unspecified
|
Part I unallocated by income
|
ODA Grants
|
1
|
10
|
110
|
D01
|
1.0E-6
|
4.1E-5
|
0
|
0
|
1.0E-6
|
4.1E-5
|
0
|
|
|
1.0E-6
|
Communicable diseases
|
Communicable diseases Other
|
100
|
VETERINARIANS WITHOUT BORDERS ...- VOLUNTEER COOPERATION 2020-2027/VÉTÉRINAIRES SANS FRONTIÈRES - COOPÉRATION VOLONTAIRE 2020-2027
more
|
Veterinarians without Borders ...- Volunteer Cooperation 2020-2027/Vétérinaires Sans Frontières - Coopération volontaire 2020-2027
more
|
This project supports 190 volu...nteer placements and aims to improve the economic and social well-being of the poorest, most marginalized people, particularly women and girls, through animal, human and environmental health contributing to the Sustainable Development Goals. In addition to increasing engagement of Canadians in international development and key global issues, this project works to increase the performance of 10 developing country partners to deliver more inclusive, innovative, and environmentally sustainable development initiatives that advance gender equality. The project also works to use the skills of Canadian volunteers to support smallholder farmers, primarily women, to reduce poverty by improving family income and nutrition principally through improved production of livestock and crops. By working with local women's organizations and associations, as well as local partners that work with and support the identified women's groups, the project aims to help women assume greater leadership and control over their livelihoods. Project activities include: (1) recruiting and providing gender sensitive training to Canadian volunteers, (2) selecting and training women as community animal health workers in 93 communities, (3) conducting gender equality, gendered environmental and organizational capacity assessments with country partners, (4) developing policies on gender equality, animal health and the environment with partners, and providing gender sensitivity training to farming communities and staff of partner organizations, as well as delivering seminars to improve livelihoods of rural farmers through animal husbandry and production training, and (5) integrating innovative practices (telemedicine, gender equitable-family model, bio-gas harvesting) to reduce the workload burden for women. / Ce projet soutient 190 placements de volontaires et vise à améliorer le bien-être économique et social des personnes les plus pauvres et les plus marginalisées, en particulier les femmes et les filles, grâce à la santé animale, humaine et environnementale, et en appui aux objectifs du développement durable. En plus d'accroître la participation des Canadiennes et des Canadiens au développement international et aux grands enjeux mondiaux, ce projet vise à accroître la performance de dix partenaires de pays en développement dans la mise en œuvre d'initiatives de développement plus inclusives, novatrices et durables sur le plan environnemental et qui font progresser l'égalité des genres. Le projet utilise les compétences de volontaires canadiens pour aider les petits exploitants agricoles, principalement des femmes, à réduire leur niveau de pauvreté en améliorant le revenu familial et leur nutrition, et principalement par l'amélioration de la production du bétail et des cultures. En travaillant avec les organisations et associations locales de femmes, ainsi qu'avec les partenaires locaux qui travaillent avec les groupes de femmes, le projet aide égale
more
|
|
12250
|
Infectious disease control
|
8,5,3,2,17,12
|
I.2.b. Basic Health
|
22000
|
Donor country-based NGO
|
Veterinarians Without Borders
|
|
|
