11 Clinical Trials for Various Conditions
A randomized, blinded, controlled trial to evaluate growth velocity and clinical outcomes in infants with single ventricle physiology fed an exclusive human milk diet prior to, and throughout the post-operative period following, surgical repair. Human milk is defined as expressed human milk or donor milk and its derivatives, human milk-based fortifier and human milk caloric fortifier. The study hypothesis is that infants fed an exclusive human milk diet will have short and long term benefits, with improved wound healing, growth, and neurodevelopmental outcomes while reducing episodes of feeding intolerance and necrotizing enterocolitis (NEC).
The purpose of this study is to discover the incentives and barriers to human milk use and breast-feeding in the NICU graduate. By better understanding the incentives and barriers we believe we can define better methods for promoting higher rates and longer duration of human milk use in this medically fragile population.
Early nutrition critically influences growth, neurodevelopment and morbidity among infants born of very low birth weight (VLBW), but current one-size-fits-all feeding regimes do not optimally support these vulnerable infants. There is increasing interest in "precision nutrition" approaches, but it is unclear which Human Milk (HM) components require personalized adjustment of doses. Previous efforts have focused on macronutrients, but HM also contains essential micronutrients as well as non-nutrient bioactive components that shape the gut microbiome. Further, it is unclear if or how parental factors (e.g. body mass index, diet) and infant factors (e.g. genetics, gut microbiota, sex, acuity) influence relationships between early nutrition and growth, neurodevelopment and morbidity. Understanding these complex relationships is paramount to developing effective personalized HM feeding strategies for VLBW infants. This is the overarching goal of the proposed Optimizing Nutrition and Milk (Opti-NuM) Project. The Opti-NuM Project brings together two established research platforms with complementary expertise and resources: 1) the MaxiMoM Program\* with its clinically embedded translational neonatal feeding trial network in Toronto (Dr. Deborah O'Connor, Dr. Sharon Unger) and 2) the International Milk Composition (IMiC) Consortium, a world-renowned multidisciplinary network of HM researchers and data scientists collaborating to understand how the myriad of HM components contribute "as a whole" to infant growth and development, using systems biology and machine learning approaches. Members of the IMiC Corsortium that will work with on this study are located at the University of Manitoba (Dr. Meghan Azad), University of California (Dr. Lars Bode) and Stanford (Dr. Nima Aghaeepour).
To test the hypothesis that progressive feeding without minimal enteral feeding (MEF) compared to progressive feeding preceded by a 4-day course of MEF will result in an increased number of days alive on full enteral feeding in the first 28 days after birth in extremely preterm infants receiving human milk.
The purpose of this study is to define human milk (HM) as an ecosystem which investigators will then combine into temporal models of milk dynamics to accurately describe HM chronobiology. This study addresses 4 crucial public health gaps: 1) how breast milk changes over time and over the day, 2) how milk dynamics are related to infant sleep patterns, 3) how milk dynamics are related to infant microbiome dynamics, and 4) how all these relationships differ between infants fed directly at-the-breast vs pumped milk. These fundamental insights have been unknown until now, so that families who feed pumped breast milk are completely underserved. These results are critical to optimizing infant feeding and health outcomes for all infants receiving breast milk.
In this proposed clinical trial, the investigators will randomize 80 very preterm (VPT) infants to receive either early (between day 4 and 7) or delayed (between day 10 and 14) fortification and determine if providing early protein supplementation through early fortification results in higher FFM-for-age z scores and more diversity in the gut microbiome.
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 will explore the effects of skin-to-skin contact (SSC) between mothers and their babies on the infant intestinal microbiome, the maternal skin microbiome and the breast milk microbiome. This will be accomplished by administering an intervention education session to one group and a placebo education session to the second group in order to influence the magnitude of total SSC defined by the frequency and duration of contact time between the two groups.
Human milk is associated with substantial benefits to infants' health and development, especially in premature infants. Some mothers are unable or unwilling to provide breast milk to their infant. The use of donor human milk as an alternative to cow milk in these infants has risen dramatically in the past year. However, there have been recent reports of hyperphosphatemia and hyponatremia associated with the consumption of donor human milk products. These electrolyte imbalances can lead to concerning symptoms, including headache, nausea, vomiting, altered mental status, coma, seizures, or heart failure. It is important to recognize and appropriately treat these electrolyte disturbances associated with donor human milk to avoid potential nutritional problems.
The goal of this prospective cohort pilot study is to learn about food allergens being passed on in breast milk to breast feeding infants. The main question\[s\] it aims to answer are: * Will major allergens for milk, egg, and peanut be passed on to infants in breast milk? * Will the infants become sensitized to and develop an allergy to the food allergens found in breast milk? * Will early introduction interventions prevent the development of these food allergies? Participants will * provide breast milk sample (s) for testing for food allergens * Infants will be tested for sensitization via skin prick and blood testing * Infants will be challenge with suspected foods to determine allergy and undergo early introduction procedures
This is a voluntary research study to test use of a phone app that is intended to support breastfeeding specifically for African American and Black people. This is called a "pilot" study because the app is still in development. The goal of this research is to see if mothers use the app more when they receive text "nudges" to look at it compared to not getting those "nudges". The research project is being conducted by Lydia Furman MD. The purpose of the app (which is currently in clickable "wireframe" status, a "pre" app phase) is to support and promote breastfeeding specifically for mothers and fathers/partners who are African American or Black. Other breastfeeding apps have pictures mainly of White or Asian mothers and information that is not oriented toward African American mothers. This app aims to provide accurate and needed breastfeeding information that is culturally attuned. Up to 24 participants will be enrolled at UHCMC, including up to 20 mothers. Other participants will include up to 4 African American or Black fathers/partners whose partners are interested in breastfeeding.