The effect of stiffness and hole size on nipple compression in infant suckling

Adjerid, Khaled; Johnson, Maxwell L; Edmonds, Chloe E; Steer, K E; Gould, François D. H.; German, Rebecca Z.; Mayerl, Christopher J.

doi:10.1002/jez.2657

Cited by 6 publications

(7 citation statements)

References 58 publications

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“…For each of the stiffness ratings, nipples were designed with a large hole size (2.0 π mm 2 CSA) and a small hole size (0.5 π mm 2 CSA), corresponding to a four‐fold difference in passive flow rates (2.44 ± 0.19 mL/s for the small hole and 8.33 ± 0.00 mL/s for the large hole). Young's modulus values and passive flow rates were experimentally determined for each nipple type (Adjerid et al, 2022).…”

Section: Methodsmentioning

confidence: 99%

“…Previous research illustrates the potential for suction generation modification depending on variation in sensation (Mayerl et al, 2021). For instance, suction generation can be modified through nipple material properties, where nipple stiffness impacts the force applied to the nipple during nutritive sucking (Adjerid et al, 2022). Continued research on the effect of nipple stiffness integrated with passive flow rate is essential to understand the neurophysiology of infant feeding.…”

Section: Introductionmentioning

confidence: 99%

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Nipple properties affect sensorimotor integration during bottle feeding in an infant pig model

et al. 2023

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Infant feeding is a critical neurological milestone in development defined by the coordination of muscles, peripheral nerves, and brainstem nuclei. In infants, milk flow rate is often limited to improve feeding performance without treating the underlying deficiencies in the sucking and swallowing processes. Modification of the neuromotor response via sensory information from the nipple during bottle feeding is an unexplored avenue for physiology‐based interventions. In this study, we assessed how differences in nipple hole size and nipple stiffness affect sucking muscle activation and subsequent movement. We fabricated four bottle nipples of varying hole size and stiffness to determine how variation in nipple properties affects the sucking behavior of infant pigs. Our results demonstrate that sensory information from the nipple affects sucking motor output. Nipple hole sizes and stiffnesses with a larger milk flow rate resulted in greater muscle activity and kinematic movement. Additionally, our results suggest that sensorimotor interventions are better directed toward modulating tongue function rather than the mandible movements due to a greater response to sensory information. Understanding how sensory information influences infant feeding is instrumental in promoting effective infant feeding.

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Section: Methodsmentioning

confidence: 99%

Section: Introductionmentioning

confidence: 99%

Nipple properties affect sensorimotor integration during bottle feeding in an infant pig model

et al. 2023

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“…The pigs were monitored for their first 24 h as they were trained to feed on milk replacement formula (Solustart Pig Milk Replacement, Land o' Lakes, Arden Mills, MN) from a bottle. The pigs were trained on a nipple bottle system (Adjerid et al, 2023) using a custom‐made training nipple comprising 20A hardness silicone (Smooth‐on Inc. Macungie, PA). All animal care and experimental conditions were approved under the IACUC protocol # 17‐04‐071.…”

Section: Methodsmentioning

confidence: 99%

“…We found, by measuring the muscles that move the jaw relative to the timing of suck phase, or tongue movement, that changes in the nipple disrupted the coordination between the jaw and tongue. Preparing the proper combination of viscosity and nipple type is not straightforward, especially given the wide variety of commercially available bottle nipples (Adjerid et al, 2023). Communication regarding the totality of the feeding system, at all levels of the infant's care, will be important to ensure good outcomes for the infant.…”

Section: Suck and Swallow Performancementioning

confidence: 99%

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Exploring the interaction of viscosity and nipple design on feeding performance in an infant pig model

Howe,

Steer,

Johnson

et al. 2023

Journal of Texture Studies

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Infant feeding behaviors are modulated via sensorimotor feedback, such that sensory perturbations can significantly impact performance. Properties of the nipple and milk (e.g., nipple hole size and viscosity) are critical sources of sensory information. However, the direct effects of varying milk and nipple properties on infant motor output and the subsequent changes in feeding performance are poorly understood. In this study, we use an infant pig model to explore the interaction between nipple hole size and milk viscosity. Using high‐speed videofluoroscopy and electromyography, we measured key performance metrics including sucks per swallow and suck duration, then synchronized these data with the onset and offset of activity of jaw opening and closing muscles. The combination of a small nipple hole and thick milk resulted in negative effects on both suck and swallow performance, with reduced feeding efficiency compared to the other treatments. It also appears that this combination of viscosity and hole size disrupts the coordination between correlates of tongue and jaw movements. We did not see a difference in feeding efficiency between viscosities when infants fed on the large‐hole nipple, which may be the result of non‐Newtonian fluid mechanics. Our results emphasize the importance of considering both fluid and nipple properties when considering alterations to an infant's feeding system.

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The effect of stiffness and hole size on nipple compression in infant suckling

et al. 2022

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During infant feeding, the nipple is an important source of sensory information that affects motor outputs, including ones dealing with compression of the nipple, suction, milk bolus movement, and swallowing. Despite known differences in behavior across commercially available nipples, little is known about the in vivo effects of nipple property variation. Here we quantify the effect of differences in nipple stiffness and hole size on an easily measured metric representing infant feeding behavior: nipple compression. We bottle-fed 7-day old infant pigs (n = 6) on four custom fabricated silicone nipples. We recorded live X-ray fluoroscopic imaging data of feeding on nipples of two levels of hardness/stiffness and two hole sizes. We tested for differences in nipple compression at the nipple's maximum compression across different nipple types using a mixed model analysis of variance. Stiffer nipples and those with smaller holes were compressed less than compliant nipples and nipples with larger holes (p < 0.001). We also estimated the force applied on the nipple during feeding and found that more force was applied to the compliant nipple with disproportionately larger strains. Our results suggest that infant pigs' nipple compression depends on material type and hole size, which is likely detected by the infant pigs' initial assessment of compressibility and flow. By isolating nipple properties, we demonstrated a relationship between properties and suckling behavior.Our results suggest that sensory information affects feeding behaviors and may also inform clinical treatment of poor feeding performance.

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The effect of stiffness and hole size on nipple compression in infant suckling

Cited by 6 publications

References 58 publications

Nipple properties affect sensorimotor integration during bottle feeding in an infant pig model

Nipple properties affect sensorimotor integration during bottle feeding in an infant pig model

Exploring the interaction of viscosity and nipple design on feeding performance in an infant pig model

The effect of stiffness and hole size on nipple compression in infant suckling

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