6533b856fe1ef96bd12b1d80

RESEARCH PRODUCT

Impact of Donor Human Milk in the Preterm Very Low Birth Weight Gut Transcriptome Profile by Use of Exfoliated Intestinal Cells

Eva SernaJulia KuligowskiAnna Parra-llorcaMaria Carmen ColladoMáximo VentoIsabel Torres-cuevasSheila Lorente-pozoMaría CernadaAna García-roblesMaría Gormaz

subject

Male0301 basic medicineDonor milkGene Expressionintestinal cellsmedicine.disease_causeTranscriptome0302 clinical medicinemother’s milkGene expressionInfant Very Low Birth Weightoxidative stressgeneticsProspective StudiesIntestinal Mucosa2. Zero hungerPrincipal Component AnalysisNutrition and DieteticsCaseinsIntestinal cells3. Good healthdonor milkGestationFemalemedicine.symptomPrematuritylcsh:Nutrition. Foods and food supplyInfant PrematureGestational Agelcsh:TX341-641InflammationBiologyArticleAndrology03 medical and health sciences030225 pediatricsMother’s milkGeneticsmedicineHumansGeneInflammationMilk HumanprematurityInfant NewbornNADPH OxidasesEpithelial CellsNeutrophil cytosolic factor 1Low birth weight030104 developmental biologyMilk BanksOxidative stressinflammationCyclooxygenase 1LactalbuminTranscriptomeOxidative stressFood Science

description

[Background] Own mother’s milk (OMM) is the optimal nutrition for preterm infants. However, pasteurized donor human milk (DHM) is a valid alternative. We explored the differences of the transcriptome in exfoliated epithelial intestinal cells (EEIC) of preterm infants receiving full feed with OMM or DHM.

yearjournalcountryeditionlanguage
2019-11-05Nutrients
https://doi.org/10.3390/nu11112677