Iron deficiency anemia secondary to inadequate dietary iron intake

While dietary iron was significantly correlated with Enterobacteriaceae abundance as a covariate, no feeding group showed a significant increase in potentially pathogenic enteric bacteria, and median

Effect: null; Enterobacteriaceae correlated with dietary iron (P = 0.03); Enterobacteriaceae median abundances decreased non-significantly by 5.5%, 10.3%, and

While dietary iron was significantly correlated with Enterobacteriaceae abundance as a covariate, no feeding group showed a significant increase in potentially pathogenic enteric bacteria, and median

Effect: null; Enterobacteriaceae correlated with dietary iron (P = 0.03); Enterobacteriaceae median abundances decreased non-significantly by 5.5%, 10.3%, and

While dietary iron was significantly correlated with Enterobacteriaceae abundance as a covariate, no feeding group showed a significant increase in potentially pathogenic enteric bacteria, and median

Effect: null; Enterobacteriaceae correlated with dietary iron (P = 0.03); Enterobacteriaceae median abundances decreased non-significantly by 5.5%, 10.3%, and

While dietary iron was significantly correlated with Enterobacteriaceae abundance as a covariate, no feeding group showed a significant increase in potentially pathogenic enteric bacteria, and median

Effect: null; Enterobacteriaceae correlated with dietary iron (P = 0.03); Enterobacteriaceae median abundances decreased non-significantly by 5.5%, 10.3%, and

While dietary iron was significantly correlated with Enterobacteriaceae abundance as a covariate, no feeding group showed a significant increase in potentially pathogenic enteric bacteria, and median

Effect: null; Enterobacteriaceae correlated with dietary iron (P = 0.03); Enterobacteriaceae median abundances decreased non-significantly by 5.5%, 10.3%, and

While dietary iron was significantly correlated with Enterobacteriaceae abundance as a covariate, no feeding group showed a significant increase in potentially pathogenic enteric bacteria, and median

Effect: null; Enterobacteriaceae correlated with dietary iron (P = 0.03); Enterobacteriaceae median abundances decreased non-significantly by 5.5%, 10.3%, and

While dietary iron was significantly correlated with Enterobacteriaceae abundance as a covariate, no feeding group showed a significant increase in potentially pathogenic enteric bacteria, and median

Effect: null; Enterobacteriaceae correlated with dietary iron (P = 0.03); Enterobacteriaceae median abundances decreased non-significantly by 5.5%, 10.3%, and

While dietary iron was significantly correlated with Enterobacteriaceae abundance as a covariate, no feeding group showed a significant increase in potentially pathogenic enteric bacteria, and median

Effect: null; Enterobacteriaceae correlated with dietary iron (P = 0.03); Enterobacteriaceae median abundances decreased non-significantly by 5.5%, 10.3%, and

While dietary iron was significantly correlated with Enterobacteriaceae abundance as a covariate, no feeding group showed a significant increase in potentially pathogenic enteric bacteria, and median

Effect: null; Enterobacteriaceae correlated with dietary iron (P = 0.03); Enterobacteriaceae median abundances decreased non-significantly by 5.5%, 10.3%, and

While dietary iron was significantly correlated with Enterobacteriaceae abundance as a covariate, no feeding group showed a significant increase in potentially pathogenic enteric bacteria, and median

Effect: null; Enterobacteriaceae correlated with dietary iron (P = 0.03); Enterobacteriaceae median abundances decreased non-significantly by 5.5%, 10.3%, and

While dietary iron was significantly correlated with Enterobacteriaceae abundance as a covariate, no feeding group showed a significant increase in potentially pathogenic enteric bacteria, and median

Effect: null; Enterobacteriaceae correlated with dietary iron (P = 0.03); Enterobacteriaceae median abundances decreased non-significantly by 5.5%, 10.3%, and

While dietary iron was significantly correlated with Enterobacteriaceae abundance as a covariate, no feeding group showed a significant increase in potentially pathogenic enteric bacteria, and median

Effect: null; Enterobacteriaceae correlated with dietary iron (P = 0.03); Enterobacteriaceae median abundances decreased non-significantly by 5.5%, 10.3%, and

While dietary iron was significantly correlated with Enterobacteriaceae abundance as a covariate, no feeding group showed a significant increase in potentially pathogenic enteric bacteria, and median

Effect: null; Enterobacteriaceae correlated with dietary iron (P = 0.03); Enterobacteriaceae median abundances decreased non-significantly by 5.5%, 10.3%, and

While dietary iron was significantly correlated with Enterobacteriaceae abundance as a covariate, no feeding group showed a significant increase in potentially pathogenic enteric bacteria, and median

Effect: null; Enterobacteriaceae correlated with dietary iron (P = 0.03); Enterobacteriaceae median abundances decreased non-significantly by 5.5%, 10.3%, and

While dietary iron was significantly correlated with Enterobacteriaceae abundance as a covariate, no feeding group showed a significant increase in potentially pathogenic enteric bacteria, and median

Effect: null; Enterobacteriaceae correlated with dietary iron (P = 0.03); Enterobacteriaceae median abundances decreased non-significantly by 5.5%, 10.3%, and

While dietary iron was significantly correlated with Enterobacteriaceae abundance as a covariate, no feeding group showed a significant increase in potentially pathogenic enteric bacteria, and median

Effect: null; Enterobacteriaceae correlated with dietary iron (P = 0.03); Enterobacteriaceae median abundances decreased non-significantly by 5.5%, 10.3%, and

While dietary iron was significantly correlated with Enterobacteriaceae abundance as a covariate, no feeding group showed a significant increase in potentially pathogenic enteric bacteria, and median

Effect: null; Enterobacteriaceae correlated with dietary iron (P = 0.03); Enterobacteriaceae median abundances decreased non-significantly by 5.5%, 10.3%, and

While dietary iron was significantly correlated with Enterobacteriaceae abundance as a covariate, no feeding group showed a significant increase in potentially pathogenic enteric bacteria, and median

Effect: null; Enterobacteriaceae correlated with dietary iron (P = 0.03); Enterobacteriaceae median abundances decreased non-significantly by 5.5%, 10.3%, and

While dietary iron was significantly correlated with Enterobacteriaceae abundance as a covariate, no feeding group showed a significant increase in potentially pathogenic enteric bacteria, and median

Effect: null; Enterobacteriaceae correlated with dietary iron (P = 0.03); Enterobacteriaceae median abundances decreased non-significantly by 5.5%, 10.3%, and

While dietary iron was significantly correlated with Enterobacteriaceae abundance as a covariate, no feeding group showed a significant increase in potentially pathogenic enteric bacteria, and median

Effect: null; Enterobacteriaceae correlated with dietary iron (P = 0.03); Enterobacteriaceae median abundances decreased non-significantly by 5.5%, 10.3%, and

While dietary iron was significantly correlated with Enterobacteriaceae abundance as a covariate, no feeding group showed a significant increase in potentially pathogenic enteric bacteria, and median

Effect: null; Enterobacteriaceae correlated with dietary iron (P = 0.03); Enterobacteriaceae median abundances decreased non-significantly by 5.5%, 10.3%, and

While dietary iron was significantly correlated with Enterobacteriaceae abundance as a covariate, no feeding group showed a significant increase in potentially pathogenic enteric bacteria, and median

Effect: null; Enterobacteriaceae correlated with dietary iron (P = 0.03); Enterobacteriaceae median abundances decreased non-significantly by 5.5%, 10.3%, and

While dietary iron was significantly correlated with Enterobacteriaceae abundance as a covariate, no feeding group showed a significant increase in potentially pathogenic enteric bacteria, and median

Effect: null; Enterobacteriaceae correlated with dietary iron (P = 0.03); Enterobacteriaceae median abundances decreased non-significantly by 5.5%, 10.3%, and

While dietary iron was significantly correlated with Enterobacteriaceae abundance as a covariate, no feeding group showed a significant increase in potentially pathogenic enteric bacteria, and median

Effect: null; Enterobacteriaceae correlated with dietary iron (P = 0.03); Enterobacteriaceae median abundances decreased non-significantly by 5.5%, 10.3%, and

While dietary iron was significantly correlated with Enterobacteriaceae abundance as a covariate, no feeding group showed a significant increase in potentially pathogenic enteric bacteria, and median

Effect: null; Enterobacteriaceae correlated with dietary iron (P = 0.03); Enterobacteriaceae median abundances decreased non-significantly by 5.5%, 10.3%, and

While dietary iron was significantly correlated with Enterobacteriaceae abundance as a covariate, no feeding group showed a significant increase in potentially pathogenic enteric bacteria, and median

Effect: null; Enterobacteriaceae correlated with dietary iron (P = 0.03); Enterobacteriaceae median abundances decreased non-significantly by 5.5%, 10.3%, and

While dietary iron was significantly correlated with Enterobacteriaceae abundance as a covariate, no feeding group showed a significant increase in potentially pathogenic enteric bacteria, and median

Effect: null; Enterobacteriaceae correlated with dietary iron (P = 0.03); Enterobacteriaceae median abundances decreased non-significantly by 5.5%, 10.3%, and