Clinical Research Directory

Macronutrients in Lactating NICU Parents - Impact of Kangaroo Care

The goal of this clinical trial is to learn about the impact of Kangaroo Care (holding your baby skin-to-skin on your chest) in lactating parents with babies in the Neonatal Intensive Care Unit (NICU) that cannot directly breastfeed.

Nutritional Intervention for Biliary Atresia

Infants with biliary atresia (Biliary atresia, BA) have an increased risk of malnutrition due to insufficient dietary intake to maintain normal growth, impaired intestinal absorption, increased metabolic rate, and damage to some liver macronutrient metabolic pathways. The medium-chain triglyceride formula (MCT) in enteral nutrition has advantages: (1) It has a fast metabolism in the liver and possesses the advantage of being an innate energy source; (2) It can share metabolic pathways with some other fatty acids (DHA, EPA), and can promote the synthesis of phospholipids, etc. Therefore, EN containing the MCT formula is regarded as an important approach to alleviate growth retardation in BA children and improve the nutritional status of patients. This study aims to observe the effect of intensified enteral feeding with a high MCT formula during the perioperative period compared to traditional oral feeding on the prognosis of children with biliary atresia. The method adopted is a prospective, two-arm, open-label, multicenter, and interventional real-world study.

Targeting Human Milk Fortification to Improve Preterm Infant Growth and Brain Development

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.

Role of Body Composition in Large for Gestational Age Infants (LGA) With Oral Feeding Difficulty

Large for Gestational Age (LGA) infants have excess fat-mass (FM) proportion secondary to prolonged in utero exposure to an energy-rich environment. Our preliminary data suggest that excess FM proportion can be associated with oral feeding delay and a potentially modifiable therapeutic target to improve oral feeding outcomes. The objective of this study is to determine the impact of a short-term Fat-free mass (FFM)-indexed feeding on the oral intake volumes in LGA infants with oral feeding difficulties.

Early DHA/ARA Supplementation in Growth-restricted Very Preterm Infants: A Randomized Clinical Trial

Growth-restricted very preterm infants (VPT) are born without adequate fat mass (FM) deposits and low docosahexaenoic acid (DHA) concentrations. They often experience further declines in DHA concentrations during the initial three weeks post-birth while advancing enteral feeds and receiving lipid supplementation predominantly through parenteral nutrition. These suboptimal enteral and parenteral nutrition practices significantly heighten the risk of faltering postnatal growth. One promising approach to mitigate these issues is enteral DHA supplementation. However, it remains unclear whether the early administration of DHA through enteral supplementation could lead to a more substantial increase in head growth without affecting FM accretion in growth-restricted VPT infants. To address this question, we propose a masked randomized clinical trial involving 152 VPT infants.

Bern Birth Cohort / Trajectory of Microbiota Maturation in Healthy Bern Infants - a Network Approach

Background: Intestinal microbiota composition is fundamental to human health and undergoes critical changes within the first two years of life. Factors probably influencing the microbiota are the maternal microbiota and the general environment in Switzerland. However, the development of the intestinal microbiota is incompletely understood. Gaining knowledge of the trajectory of microbiota maturation is likely key to the understanding of the pathogenesis of many pathologies in childhood. Aims: The investigators aim for a deep understanding of the maturation of the healthy infant intestinal microbiota regarding composition, diversity and metabolic activities. The investigators aim for identifying parameters affecting microbiota maturation and effects of the microbiota on infant outcome. Methods: The investigators will recruit 250 pregnant mothers who will be followed as mother-baby pairs until 10 years of age. Infants will be followed clinically to determine adequate growth and development as well as pathology including abdominal pain. Epidemiological parameter and infant nutrition will be assessed. The investigators will collect biological samples such as stool, maternal milk, vaginal swaps and skin swaps. Species composition and diversity will be assessed by 16S sequencing. Metagenomic shotgun sequencing and bacterial messenger ribonucleic acid (mRNA) analysis will inform about metabolic potential and metabolic activity of the microbiota. Mass spectrometry will assess the small molecule content of stool and maternal milk samples. Network analysis will be used to assess the complex relationships between bacteria metabolic activities and small molecular content. Expected results: The investigators expect an increase in complexity and metabolic potential and activity with age. Microbiota parameters will differ according to nutrition and might predict infant outcomes such as growth and abdominal pain. Systematic analysis of sequential maternal and infant bacteria samples from stool, skin and maternal milk will help characterizing bacterial transfer from mother to infant Conclusion: The investigators propose an observational study of healthy Bern mother baby pairs with clinical characterisation and biological sampling. Advanced analysis tools will be used to characterise the microbiota and address mechanistic questions.

Preemie Milk Analyser Validation Study

This study aims to test and validate the Preemie Ecosystem- a new device and associated software package for measuring the nutrient (fat, protein and carbohydrate) content of the breast milk of the mothers of premature babies. This is potentially useful, as premature babies have higher nutritional requirements than babies born at term near their due date. At the moment, a nutritional supplement called breast milk fortifier is added to breast milk in standard amounts to improve its nutritional content and help premature babies grow. However, we know that each mother's breast milk is different, and varies from day to day, so each mother's milk may require more or less of such supplements in order to meet European recommendations for the nutrient intake. The aim of this study is to first test and validate the accuracy of the Preemie device for measuring the nutritional content of mother's breast milk, using milk donated to the local donor milk bank and from mothers of babies currently on the neonatal unit. Next, once this is complete, the aim is to demonstrate it is feasible to use the Preemie device to enable fortification of mother's milk on an individualised basis for a small group of premature babies. The growth and nutrient intakes of these babies will be compared to another group who are cared for using the standard fortification approach. The results of this study will be used to gain "Conformité Européenne" (CE) certification of the Preemie device and software.