Clinical Research Directory

taVNS-Paired Breastfeeding to Improve Breastfeeding at Discharge

Investigators aim to improve the skills of premature or sick term infants in breastfeeding by boosting motor learning with transcutaneous vagus nerve stimulation. Investigators will recruit 10 premature, ≥ 35 weeks gestational age, or convalescing sick term infants admitted to the NICU at MUSC to participate in this study. Infants will receive taVNS treatments once a day with breastfeeding's for up to 14 days. Before each treatment, the researcher will determine how much electrical stimulation is needed for the infant to feel a slight tingle without discomfort, and during daily treatment paired with breastfeeding the infant will continue to receive this level of electrical stimulation, coinciding with latching and sucking, repeated over the duration of the feed. Investigators will collect information about the pre- and post-feed weights, the length of time for each feed, and observations of latch, suck, and swallow techniques by the infant from parents and the lactation consultant. Investigators will also evaluate parental satisfaction associated with their infant's ability to breastfeed after taVNS by providing parental satisfaction surveys at the beginning, after 1 and 2 weeks, and at 3 months after the end of the study to assess infants' progress in and maintenance of breastfeeding abilities. If the pairing of breastfeeding with taVNS is able to result in improved outcomes of effective breastfeeding in infants in the neonatal intensive care units, this intervention could be further utilized by NICUs to increase the rate of premature and sick term infants who are successfully able to breastfeed at the time of discharge and maintain breast feeding longer after discharge. This would allow premature infants to acquire the many benefits of breastmilk as well as contribute towards the strengthening of the maternal-infant bond that breastfeeding has been shown to enhance.

Combined Oral Motor Stimulation and Language on Preterm Infant Feeding

This is a randomized controlled trial to study an oromotor stimulation in combination with a reading curriculum in the NICU among preterm infants using oral muscle exercises, Language Environment Analysis (LENA) recordings, linguistic feedback, and a language curriculum to improve the neonatal inpatient oral feeding and language outcomes for preterm infants.

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.

Source of Human Milk Fortifier and Intestinal Oxygenation in Preterm Infants <30 Weeks Gestation

Preterm infants require higher nutritional intakes during the neonatal phase than they do at any other stage of their development. Standard volumes of human milk alone do not offer sufficient nourishment to these infants. There are multiple options for fortifying human milk, which vary depending on whether the fortifier is derived from bovine sources (B-HMF) or human sources (H-HMF). Fortifying human milk has been proven to enhance growth in preterm infants without raising the risk of necrotizing enterocolitis (NEC), though it could potentially affect feeding tolerance. Changes in blood flow and oxygen levels in the intestines are commonly observed in infants experiencing feeding intolerance. Research indicates that feeding a mother's own milk (MOM) doesn't affect splanchnic (intestinal) oxygenation, whereas it decreases when feeding bovine-derived human milk fortifiers (B-HMF) or preterm formula, indicating greater oxygen requirements in the intestines of preterm infants fed these alternatives. The goal of this clinical trial is to compare the effect of H-HMF and B-HMF on splanchnic oxygenation in infants less than 30 weeks.