BACKGROUND: Despite the growing interest in the early-origins-of-later-disease hypothesis, little is known about the metabolic underpinnings linking infant weight gain and childhood obesity. OBJECTIVE: To discover biomarkers reflective of weight change in the first 6 months and overweight/obesity at age 6 years via a targeted metabolomics approach. DESIGN: This analysis comprised 726 infants from a European multicenter randomized trial (Childhood Obesity Programme, CHOP) for whom plasma blood samples at age 6 months and anthropometric data up to the age of 6 years were available. 'Rapid growth' was defined as a positive difference in weight within the first 6 months of life standardized to WHO growth standards. Weight change was regressed on each of 168 metabolites (acylcarnitines, lysophosphatidylcholines, sphingomyelins, and amino acids). Metabolites significant after Bonferroni's correction were tested as predictors of later overweight/obesity. RESULTS: Among the overall 19 significant metabolites, 4 were associated with rapid growth and 15 were associated with a less-than-ideal weight change. After adjusting for feeding group, only the lysophosphatidylcholine LPCaC14:0 remained significantly associated with rapid weight gain (β = 0.18). Only LPCaC14:0 at age 6 months was predictive of overweight/obesity at age 6 years (OR 1.33; 95% CI 1.04-1.69). CONCLUSION:LPCa14:0 is strongly related to rapid growth in infancy and childhood overweight/obesity. This suggests that LPCaC14:0 levels may represent a metabolically programmed effect of infant weight gain on the later obesity risk. However, these results require confirmation by independent cohorts.
RCT Entities:
BACKGROUND: Despite the growing interest in the early-origins-of-later-disease hypothesis, little is known about the metabolic underpinnings linking infantweight gain and childhood obesity. OBJECTIVE: To discover biomarkers reflective of weight change in the first 6 months and overweight/obesity at age 6 years via a targeted metabolomics approach. DESIGN: This analysis comprised 726 infants from a European multicenter randomized trial (Childhood Obesity Programme, CHOP) for whom plasma blood samples at age 6 months and anthropometric data up to the age of 6 years were available. 'Rapid growth' was defined as a positive difference in weight within the first 6 months of life standardized to WHO growth standards. Weight change was regressed on each of 168 metabolites (acylcarnitines, lysophosphatidylcholines, sphingomyelins, and amino acids). Metabolites significant after Bonferroni's correction were tested as predictors of later overweight/obesity. RESULTS: Among the overall 19 significant metabolites, 4 were associated with rapid growth and 15 were associated with a less-than-ideal weight change. After adjusting for feeding group, only the lysophosphatidylcholine LPCaC14:0 remained significantly associated with rapid weight gain (β = 0.18). Only LPCaC14:0 at age 6 months was predictive of overweight/obesity at age 6 years (OR 1.33; 95% CI 1.04-1.69). CONCLUSION: LPCa14:0 is strongly related to rapid growth in infancy and childhood overweight/obesity. This suggests that LPCaC14:0 levels may represent a metabolically programmed effect of infantweight gain on the later obesity risk. However, these results require confirmation by independent cohorts.
Authors: Jessica L Saben; Clark R Sims; Lindsay Pack; Renny Lan; Elisabet Børsheim; Aline Andres Journal: Pediatr Obes Date: 2021-12-16 Impact factor: 3.910
Authors: Christian Hellmuth; Olaf Uhl; Hans Demmelmair; Maria Grunewald; Renata Auricchio; Gemma Castillejo; Ilma R Korponay-Szabo; Isabel Polanco; María Roca; Sabine L Vriezinga; Katharina J Werkstetter; Berthold Koletzko; M Luisa Mearin; Franca F Kirchberg Journal: PLoS One Date: 2018-06-01 Impact factor: 3.240
Authors: Manja Fleddermann; Hans Demmelmair; Christian Hellmuth; Veit Grote; Branka Trisic; Tatjana Nikolic; Berthold Koletzko Journal: PLoS One Date: 2018-07-05 Impact factor: 3.240
Authors: Francisco Madrid-Gambin; Melanie Föcking; Sophie Sabherwal; Meike Heurich; Jane A English; Aoife O'Gorman; Tommi Suvitaival; Linda Ahonen; Mary Cannon; Glyn Lewis; Ismo Mattila; Caitriona Scaife; Sean Madden; Tuulia Hyötyläinen; Matej Orešič; Stanley Zammit; Gerard Cagney; David R Cotter; Lorraine Brennan Journal: Biol Psychiatry Date: 2019-01-30 Impact factor: 13.382