Abstract
Infant birth weight affects neuromotor and biomechanical swallowing performance in infant pig models. Preterm infants are generally born low birth weight and suffer from delayed development and neuromotor deficits. These deficits include critical life skills such as swallowing and breathing. It is unclear whether these neuromotor and biomechanical deficits are a result of low birth weight or preterm birth. In this study we ask: are preterm infants simply low birth weight infants or do preterm infants differ from term infants in weight gain and swallowing behaviors independent of birth weight? We use a validated infant pig model to show that preterm and term infants gain weight differently and that birth weight is not a strong predictor of functional deficits in preterm infant swallowing. We found that preterm infants gained weight at a faster rate than term infants and with nearly three times the variation. Additionally, we found that the number of sucks per swallow, swallow duration, and the delay of the swallows relative to the suck cycles were not impacted by birth weight. These results suggest that any correlation of developmental or swallowing deficits with reduced birth weight are likely linked to underlying physiological immaturity of the preterm infant.
Highlights
Birth weight is an important predictor of neuromotor and physiological performance in early perinatal development of mammals [1,2,3,4]
All animal experiments described in this manuscript were approved by the Northeast Ohio Medical University (NEOMED) Institutional Animal Care and Use Committee protocol #1704-071
When using corrected age (TD0, PTD7), birth weights were similar at day 17 (TD17, PTD24) body weight was greater in preterm infants than in term infants
Summary
Birth weight is an important predictor of neuromotor and physiological performance in early perinatal development of mammals [1,2,3,4]. Studies have examined the relationship between birth weight and locomotor performance of neuromuscular systems within the first days of postnatal development. Vanden Hole and colleagues focused on detailed relationships of muscular development and force generation as a function of birth weight using newborn infant pigs [1, 3]. They found that lower birth weight in these mammalian infant resulted in a reduced chemical, neuromuscular, and biomechanical.
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