View clinical trials related to Breast Milk Expression.
Filter by:This study evaluates the effects of providing breastfeeding mothers with Gentle-UHT donor human milk (GHM) after discharge to bridge the gap during delayed onset lactation, to support an exclusive human milk diet and continued breastfeeding through the infant's first week of life. The investigators aim to determine the safety of GHM, and if GHM provided to breastfeeding mothers of outpatient babies with early weight loss will ensure babies adequately gain weight according to age-matched controls.
The central hypothesis of this clinical trial is that, in extremely preterm infants, protein-enriched human milk diets compared to usual human milk diets during the first 2 weeks after birth increase fat-free mass (FFM)-for-age Z scores and promote maturation of the gut microbiome at term corrected age.
This study is a randomized trial comparing 2 methods of human milk fortification for preterm infants in the neonatal intensive care unit (NICU). All participating infants will receive a human milk diet comprising maternal and/or donor milk plus multi-component and modular fortifiers. In one group (control), the milk will be fortified according to routine standard of care. In the other group (intervention), the fortification will be individually targeted based on the results of point-of-care human milk analysis. Outcomes include physical growth in the NICU and after discharge, brain structure by magnetic resonance imaging at term equivalent age, and neurodevelopment at 2 years.
The purpose of this two-arm investigation is to determine if growth patterns of very low birth weight infants (VLBW) (birth weight 750-1500 grams) fed human milk (maternal or donor) supplemented with a human milk-based fortifier grow according to established guidelines and maintain adequate micronutrient levels.
This research will investigate different aspects of the 'signalling' between mother and infant during breastfeeding in a stressful situation following late preterm and early term delivery, when breastfeeding is often challenging. The researcher will conduct a single-blinded randomised controlled trial in Chinese mothers who deliver a late preterm infant (LPI; 34 0/7-36 6/7 weeks of gestation) and mothers who deliver a early term infant (ETI; 37 0/7-37 6/7) and plan to exclusively breast-feed.This study will investigate the role of the milk and infant gut microbiome as a potential 'signal' in this process. A relaxation intervention (meditation tape) will be used to reduce stress levels in mothers who are expressing breast-milk or breastfeeding their infant (born at 34 0/7-37 6/7 weeks completed gestation). This study will investigate whether lower levels of stress in the mother result in more successful and effective breastfeeding, leading to improved infant outcomes (better growth, longer sleep duration and reduced crying).
The overall goal of this research is to clarify the relationship between reported maternal stress, biological measures of maternal stress, breast milk biomarkers and milk quantity. Our primary hypothesis is that measures of maternal stress are associated with cortisol, cytokines, and other stress markers in the blood, which impacts breast milk quantity and composition and which may impact infant health.
Docosahexaenoic acid (DHA) belongs to long-chain polyunsaturated fatty acids (LCPUFAs) category and is a major building block for neuronal and retinal membranes, playing a crucial role in brain and visual development within the first months of life. Due to the lack of enzymes for the synthesis of its precursors, neonates strictly rely on dietary intakes of DHA. Antarctic krill (Euphausia superba) is a small crustacean rich in phospholipid-bound DHA, which is highly bioavailable, but whether it is effective in increasing DHA excretion in breast milk (BM) has not been investigated yet. This study aims to evaluate whether maternal supplementation with krill oil during breastfeeding increases DHA contents in breast milk BM. Mothers of infants admitted to the Neonatal Intensive Care Unit will be enrolled in this open, randomized, controlled study and randomly allocated in 2 groups. Group 1 will receive an oral krill oil-based supplement providing 250 mg/day of DHA and 70 mg/day of EPA for 30 days, whereas group 2 serves as control. BM samples from both groups will be collected at baseline (T0) and day 30 (T1) and will undergo a qualitative analysis of LCPUFAs composition by gas chromatography/mass spectrometry.
This study aims to compare immunologic parameters of 60 patients who are 1-28 days-aged, below 1500-gram body weight, born before 32 weeks of gestational age and fed with eoprotin or olive-oil fortified breast milk. Cases will receive same amount of calorie intake either with eoprotin or olive oil fortified-breast milk. If investigators identify that olive oil doesn't increase proinflammatory cytokines and grant enough weight gain in premature infants at the end of the study, investigators will suggest olive oil to replace eoprotin which is a very costly breast milk-fortifier.
The purpose of this study is to determine how the duration of manual expression affects milk volumes and levels of breastfeeding self-efficacy in mothers of premature infants. The specific aims of this study are to determine if the duration of manual expression in mothers of premature infants will result in: (a) an increase in breastfeeding self-efficacy (b) a difference in milk volume and (c) a correlation between breastfeeding self-efficacy and milk volume.
Compelling evidence exists that breast milk helps protect very premature infants from prematurity-specific morbidities. Unfortunately, mothers of premature infants often exhibit delayed lactogenesis stage II (when the milk "comes in") and decreased breast milk production. Several studies have linked earlier initiation of breast milk expression following delivery with a greater milk production. However, none conclusively determined the optimal timing of breast milk expression. As a result these mothers continue to struggle with inadequate breast milk production. This study will follow 180 mothers of premature infants for 6 weeks following delivery to test Earlier initiation of breast milk expression following delivery is associated with (1) an earlier lactogenesis stage II, (2) greater volume of breast milk production during the first 6 weeks, (3) improved short-term infant health outcomes and (4) women who deliver at an earlier gestation will have decreased milk production and a later lactogenesis stage II. Following stratification according to the gestational age of the infant (23-27 weeks vs. 28-32 weeks), eligible women will be randomly assigned to one of three groups and instructed to start mechanically expressing their r breasts, either in the first hour, 1-3 hours or 3-6 hours following delivery. The timing of lactogenesis stage II will be documented, and the volume of breast milk produced will continue to be measured for the first 6 weeks following delivery and at discharge. Infant nutritional outcomes will be measured throughout the 6-week study. The impact of the differences in timing of initiation of milk expression following delivery on timing of lactogenesis stage II, milk volume, short term nutritional outcomes, amount of breast milk feedings at discharge, and impact of gestational age on milk volume and lactogenesis stage II will be determined.