Metabolomics in plasma of Malawian children 7 years after surviving severe acute malnutrition: “ChroSAM” a cohort study
Bourdon, C, Lelijveld, N, Thompson, D, Dalvi, PS, Gonzales, GB, Wang, D, Misagh, A, Wine, E, Chimwezi, E, Wells, JC, Kerac, M, Bandsma, R and Nyirenda, M.
2019.
Metabolomics in plasma of Malawian children 7 years after surviving severe acute malnutrition: “ChroSAM” a cohort study.
[Online].
EBio Medicine.
Available from:
https://doi.org/10.1016/j.ebiom.2019.06.041
Bourdon, C, Lelijveld, N, Thompson, D, Dalvi, PS, Gonzales, GB, Wang, D, Misagh, A, Wine, E, Chimwezi, E, Wells, JC, Kerac, M, Bandsma, R and Nyirenda, M.
Metabolomics in plasma of Malawian children 7 years after surviving severe acute malnutrition: “ChroSAM” a cohort study
[Internet].
EBio Medicine;
2019.
Available from:
https://doi.org/10.1016/j.ebiom.2019.06.041
Bourdon, C, Lelijveld, N, Thompson, D, Dalvi, PS, Gonzales, GB, Wang, D, Misagh, A, Wine, E, Chimwezi, E, Wells, JC, Kerac, M, Bandsma, R and Nyirenda, M
(2019).
Metabolomics in plasma of Malawian children 7 years after surviving severe acute malnutrition: “ChroSAM” a cohort study.
[Data Collection].
EBio Medicine.
https://doi.org/10.1016/j.ebiom.2019.06.041
Description
More children are now surviving severe acute malnutrition (SAM), but evidence suggests that early-life malnutrition is associated with increased risk of long-term cardio-metabolic disorders. To better understand potential mechanisms, we studied the metabolite profiles of children seven years after treatment for SAM.
Bourdon, C, Lelijveld, N, Thompson, D, Dalvi, PS, Gonzales, GB, Wang, D, Misagh, A, Wine, E, Chimwezi, E, Wells, JC, Kerac, M, Bandsma, R and Nyirenda, M
