TY - JOUR
T1 - Understanding biological mechanisms underlying adverse birth outcomes in developing countries
T2 - Protocol for a prospective cohort (AMANHI bio-banking) study
AU - AMANHI (Alliance for Maternal and Newborn Health Improvement) Bio-banking Study group)
AU - Baqui, Abdullah H.
AU - Khanam, Rasheda
AU - Rahman, Mohammad Sayedur
AU - Ahmed, Aziz
AU - Rahman, Hasna Hena
AU - Moin, Mamun Ibne
AU - Ahmed, Salahuddin
AU - Jehan, Fyezah
AU - Nisar, Imran
AU - Hussain, Atiya
AU - Ilyas, Muhammad
AU - Hotwani, Aneeta
AU - Sajid, Muhammad
AU - Qureshi, Shahida
AU - Zaidi, Anita
AU - Sazawal, Sunil
AU - Ali, Said M.
AU - Deb, Saikat
AU - Juma, Mohammed Hamad
AU - Dhingra, Usha
AU - Dutta, Arup
AU - Ame, Shaali Makame
AU - Hayward, Caroline
AU - Rudan, Igor
AU - Zangenberg, Mike
AU - Russell, Donna
AU - Yoshida, Sachiyo
AU - Polašek, Ozren
AU - Manu, Alexander
AU - Bahl, Rajiv
N1 - Funding Information:
Funding: The AMANHI mortality study was funded by the Bill & Melinda Gates Foundation through a grant to the World Health Organization. The funders have played no role in the drafting of the manuscript and the decision to submit for publication.
PY - 2017/11/1
Y1 - 2017/11/1
N2 - Objectives The AMANHI study aims to seek for biomarkers as predictors of important pregnancy-related outcomes, and establish a biobank in developing countries for future research as new methods and technologies become available. Methods AMANHI is using harmonised protocols to enrol 3000 women in early pregnancies (8-19 weeks of gestation) for population-based follow-up in pregnancy up to 42 days postpartum in Bangladesh, Pakistan and Tanzania, with collection taking place between August 2014 and June 2016. Urine pregnancy tests will be used to confirm reported or suspected pregnancies for screening ultrasound by trained sonographers to accurately date the pregnancy. Trained study field workers will collect very detailed phenotypic and epidemiological data from the pregnant woman and her family at scheduled home visits during pregnancy (enrolment, 24-28 weeks, 32-36 weeks & 38+ weeks) and postpartum (days 0-6 or 42-60). Trained phlebotomists will collect maternal and umbilical blood samples, centrifuge and obtain aliquots of serum, plasma and the buffy coat for storage. They will also measure HbA1C and collect a dried spot sample of whole blood. Maternal urine samples will also be collected and stored, alongside placenta, umbilical cord tissue and membrane samples, which will both be frozen and prepared for histology examination. Maternal and newborn stool (for microbiota) as well as paternal and newborn saliva samples (for DNA extraction) will also be collected. All samples will be stored at -80°C in the biobank in each of the three sites. These samples will be linked to numerous epidemiological and phenotypic data with unique study identification numbers. Importance of the study AMANHI biobank proves that biobanking is feasible to implement in LMICs, but recognises that biobank creation is only the first step in addressing current global challenges.
AB - Objectives The AMANHI study aims to seek for biomarkers as predictors of important pregnancy-related outcomes, and establish a biobank in developing countries for future research as new methods and technologies become available. Methods AMANHI is using harmonised protocols to enrol 3000 women in early pregnancies (8-19 weeks of gestation) for population-based follow-up in pregnancy up to 42 days postpartum in Bangladesh, Pakistan and Tanzania, with collection taking place between August 2014 and June 2016. Urine pregnancy tests will be used to confirm reported or suspected pregnancies for screening ultrasound by trained sonographers to accurately date the pregnancy. Trained study field workers will collect very detailed phenotypic and epidemiological data from the pregnant woman and her family at scheduled home visits during pregnancy (enrolment, 24-28 weeks, 32-36 weeks & 38+ weeks) and postpartum (days 0-6 or 42-60). Trained phlebotomists will collect maternal and umbilical blood samples, centrifuge and obtain aliquots of serum, plasma and the buffy coat for storage. They will also measure HbA1C and collect a dried spot sample of whole blood. Maternal urine samples will also be collected and stored, alongside placenta, umbilical cord tissue and membrane samples, which will both be frozen and prepared for histology examination. Maternal and newborn stool (for microbiota) as well as paternal and newborn saliva samples (for DNA extraction) will also be collected. All samples will be stored at -80°C in the biobank in each of the three sites. These samples will be linked to numerous epidemiological and phenotypic data with unique study identification numbers. Importance of the study AMANHI biobank proves that biobanking is feasible to implement in LMICs, but recognises that biobank creation is only the first step in addressing current global challenges.
UR - http://www.scopus.com/inward/record.url?scp=85039054611&partnerID=8YFLogxK
U2 - 10.7189/jogh.07.021202
DO - 10.7189/jogh.07.021202
M3 - Article
C2 - 29163938
AN - SCOPUS:85039054611
SN - 2047-2978
VL - 7
JO - Journal of Global Health
JF - Journal of Global Health
IS - 2
M1 - 021202
ER -