4 Clinical Trials for Various Conditions
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).
The purpose of the study is to understand how cooking might affect the health of pregnant women and their babies. The goal of the research is to determine whether, interventions in decreasing exposure to smoke from cook stoves can bring about a significant change in the indoor air pollution levels and health of communities in Ghana. Hypothesis 1. Use of improved cook stoves starting by the third trimester pregnancy will lead to a significant increase in average birth weight in newborns. Hypothesis 2. Use of improved cook stoves will lead to a significant reduction in the rate of severe acute lower respiratory disease during the first 12 months of life.
This study hopes to determine whether nitric oxide along with oxygen during the first 20 minutes of life in infants needing help with breathing will reduce the percentage and total exposure to oxygen during that time frame. Although the use of oxygen in management of breathing is an important part of supporting baby immediately after delivery, there is more evidence that too much exposure to oxygen may lead to potential problems for your baby later. Oxygen exposure can be harmful to premature babies developing lungs.
The purpose of this study is to determine the safety and effectiveness of the Babylog VN500 in high frequency oscillatory ventilation (HFOV) mode as a method for treating very low birth weight (VLBW) neonates requiring invasive respiratory support in the treatment of respiratory distress.