Title

Stabilizing immature breathing patterns of preterm infants using stochastic mechanosensory stimulation

UMMS Affiliation

Department of Neurology; Department of Pediatrics; Department of Physiology

Date

10-2009

Document Type

Article

Medical Subject Headings

Afferent Pathways; Algorithms; Anoxia; Apnea; Arousal; Beds; Electroencephalography; Electromyography; Equipment Design; Female; Fourier Analysis; Gestational Age; Heart Rate; Humans; Infant, Newborn; *Infant, Premature; Male; *Mechanotransduction, Cellular; *Nonlinear Dynamics; Oxygen; *Periodicity; Polysomnography; *Respiratory Mechanics; Skin Temperature; Sleep; *Stochastic Processes; Vibration

Disciplines

Pediatrics

Abstract

Breathing patterns in preterm infants consist of highly variable interbreath intervals (IBIs) that might originate from nonlinear properties of the respiratory oscillator and its input-output responses to peripheral and central signals. Here, we explore a property of nonlinear control, the potential for large improvement in the stability of breathing using low-level exogenous stochastic stimulation. Stimulation was administered to 10 preterm infants (postconceptional age: mean 33.3 wk, SD 1.7) using a mattress with embedded actuators that delivered small stochastic displacements (0.021 mm root mean square, 0.090 mm maximum, 30-60 Hz); this stimulus was subthreshold for causing arousal from sleep to wakefulness or other detectable changes in the behavioral state evaluated with polysomnography. We used a test-retest protocol with multiple 10-min intervals of stimulation, each paired with 10-min intervals of no stimulation. Stimulation induced an approximately 50% reduction (P = 0.003) in the variance of IBIs and an approximately 50% reduction (P = 0.002) in the incidence of IBIs > 5 s. The improved stability of eupneic breathing was associated with an approximately 65% reduction (P = 0.04) in the duration of O(2) desaturation. Our findings suggest that nonlinear properties of the immature respiratory control system can be harnessed using afferent stimuli to stabilize eupneic breathing, thereby potentially reducing the incidence of apnea and hypoxia.

Rights and Permissions

Citation: J Appl Physiol. 2009 Oct;107(4):1017-27. Epub 2009 Jul 16. Link to article on publisher's site

Related Resources

Link to Article in PubMed

PubMed ID

19608934