Abstract
The quantitative monitoring of breathing, sucking, and swallowing is required to predict newborns’ neurodevelopmental outcomes. In particular, the coordination of breathing timing with respect to sucking cycle is crucial. In this work, we present the characterization of a low-cost flowmeter designed for noninvasive recording of breathing pattern during bottle feeding. The transducer is designed to be integrated on a commercial feeding bottle also instrumented with a system for sucking monitoring. The flowmeter consists of two transistors (hot bodies) supplied at constant current, which are placed in a duct used to convey the inspiratory and expiratory flow coming from the newborn’s nostrils. The transducer design, its static calibration, and its response time are discussed. Moreover, a custom-made active lung simulator was used to perform a feasibility assessment of the proposed flowmeter for respiratory monitoring of neonatal respiratory patterns. The flowmeter has a discrimination threshold <0.5 L·min−1and a response time of347±12 ms. The breathing period estimated by the proposed transducer was compared with the one measured by a high performance flowmeter, used as reference: the mean absolute error was <11%. Results highlighted the ability of the device to track respiratory patterns at frequencies typical of neonatal breathing.
Highlights
Coordination of sucking, swallowing, and breathing represents a key competency necessary to develop an efficient and effective nutritive sucking (NS)
A modified neural control of feeding and swallowing may significantly alter the structure and function of the developing brain, delay the attainment of oral-motor skills such as nutritive sucking (NS), and negatively impact the transition to oral feeds [2, 3]. This is true in preterm and low-birth-weight newborns, who often present problems with autonomous feeding that may be related to the immaturity of their Central Nervous System (CNS) [1,2,3,4,5,6]
This breathing device (BD) was interfaced with a nostril simulator made by two pipes of 5 mm diameter and 15 mm length; the distance between their centers was 8.5 mm according to anatomical data [25,26,27]
Summary
The coordination of breathing timing with respect to sucking cycle is crucial. We present the characterization of a low-cost flowmeter designed for noninvasive recording of breathing pattern during bottle feeding. The transducer is designed to be integrated on a commercial feeding bottle instrumented with a system for sucking monitoring. The transducer design, its static calibration, and its response time are discussed. A custom-made active lung simulator was used to perform a feasibility assessment of the proposed flowmeter for respiratory monitoring of neonatal respiratory patterns. The flowmeter has a discrimination threshold
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