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Home NEWS Science News Technology

Nasal Smell Stimulation Reduces Apnea in Premature Infants: Study

Bioengineer by Bioengineer
July 14, 2026
in Technology
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Nasal Smell Stimulation Reduces Apnea in Premature Infants: Study
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New Study Reveals Nasal Olfactory Stimulation Could Mitigate Apnea in Premature Infants

Apnea of prematurity, a condition characterized by pauses in breathing among premature infants, remains a persistent challenge in neonatal care. In a groundbreaking randomized cross-over trial published recently, researchers have demonstrated that nasal olfactory stimulation may offer a novel therapeutic approach to reduce the frequency and duration of apnea episodes in these vulnerable newborns.

The study, led by Gähwiler et al., explores the intriguing link between olfactory activation and respiratory regulation in preterm infants. By delivering specific nasal odors, the researchers aimed to harness the complex neurobiological pathways that connect the olfactory system to brainstem regions responsible for respiratory rhythm generation. This innovative intervention targets the underlying neural circuitry without relying on pharmacological agents, which often carry risks in this delicate population.

In this cross-over trial design, each preterm infant served as their own control, receiving periods of olfactory stimulation alternated with no stimulation. This methodology ensured rigorous comparison while minimizing inter-individual variability. The odors used were carefully selected for their safety and minimal risk of overstimulation.

Results revealed a statistically significant decrease in apnea frequency and duration during periods when nasal olfactory stimulation was applied. The authors hypothesize that olfactory inputs may activate serotonergic and cholinergic neurons in the brainstem, enhancing respiratory drive and stabilizing the autonomic nervous system. Such neuromodulatory effects could represent a previously underappreciated avenue for apnea management.

Beyond efficacy, the study also documents the practical advantages of this sensory-based intervention. Nasal olfactory stimulation is non-invasive, easily administered, and avoids the side effects associated with pharmacotherapy or invasive respiratory support. These factors could make it a valuable adjunct or alternative in neonatal intensive care units worldwide.

The researchers emphasize that while their findings are promising, further work is necessary to refine stimulation protocols, identify optimal odorants, and assess long-term outcomes on neurodevelopmental trajectories. Moreover, mechanistic studies to delineate the precise neural pathways engaged by olfactory stimulation will enhance translational potential.

This study opens up exciting possibilities for sensory-based therapies in neonatal medicine. As we deepen our understanding of how early sensory experiences shape brain function and physiology, interventions like nasal olfactory stimulation could redefine standards of care for premature infants struggling with apnea.

In sum, Gähwiler and colleagues have provided compelling evidence that activating the olfactory system via nasal stimulation can modulate breathing patterns and reduce apnea episodes in preterm babies. This research heralds a shift towards innovative, non-pharmacological strategies that harness the body’s intrinsic neurobiology for therapeutic benefit.

Subject of Research: Apnea of prematurity and nasal olfactory stimulation as an intervention.

Article Title: The effect of nasal olfactory stimulation on apnea of prematurity: a randomized cross-over trial.

Article References:
Gähwiler, K., Rüegger, C.M., Dirler, C. et al. The effect of nasal olfactory stimulation on apnea of prematurity: a randomized cross-over trial. Pediatr Res (2026). https://doi.org/10.1038/s41390-026-05285-w

Image Credits: AI Generated

DOI: 10.1038/s41390-026-05285-w

Tags: apnea of prematurityinnovative neonatal therapynasal olfactory stimulationneonatal respiratory regulationneurobiological pathways in infantsnon-pharmacological apnea treatmentolfactory system and brainstem connectivitypremature infantsrandomized cross-over trial in neonatesreduction of apnea episodes in preemiesrespiratory rhythm modulation in preterm babiessafety of nasal odor stimulation

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