Development of CPAP Overlay Interfaces for Efficient Administration of Aerosol Surfactant Therapy to Preterm Infants

doi:10.1208/s12249-024-02987-4

. 2025 Jan 16;26(1):34.

doi: 10.1208/s12249-024-02987-4.

Development of CPAP Overlay Interfaces for Efficient Administration of Aerosol Surfactant Therapy to Preterm Infants

Hasan Jubaer¹, Sarah Strickler¹, Dale Farkas¹, Caleb Dalton², Mohammad A M Momin², Kelley M Dodson³, Michael Hindle², Worth Longest^{4

5}

Affiliations

¹ Department of Mechanical and Nuclear Engineering, Virginia Commonwealth University, Richmond, VA, United States of America.
² Department of Pharmaceutics, Virginia Commonwealth University, Richmond, VA, United States of America.
³ Department of Otolaryngology, Virginia Commonwealth University, Richmond, VA, United States of America.
⁴ Department of Mechanical and Nuclear Engineering, Virginia Commonwealth University, Richmond, VA, United States of America. pwlongest@vcu.edu.
⁵ Department of Pharmaceutics, Virginia Commonwealth University, Richmond, VA, United States of America. pwlongest@vcu.edu.

PMID: 39821052
DOI: 10.1208/s12249-024-02987-4

Development of CPAP Overlay Interfaces for Efficient Administration of Aerosol Surfactant Therapy to Preterm Infants

Hasan Jubaer et al. AAPS PharmSciTech. 2025.

. 2025 Jan 16;26(1):34.

doi: 10.1208/s12249-024-02987-4.

Authors

Hasan Jubaer¹, Sarah Strickler¹, Dale Farkas¹, Caleb Dalton², Mohammad A M Momin², Kelley M Dodson³, Michael Hindle², Worth Longest^{4

5}

Affiliations

¹ Department of Mechanical and Nuclear Engineering, Virginia Commonwealth University, Richmond, VA, United States of America.
² Department of Pharmaceutics, Virginia Commonwealth University, Richmond, VA, United States of America.
³ Department of Otolaryngology, Virginia Commonwealth University, Richmond, VA, United States of America.
⁴ Department of Mechanical and Nuclear Engineering, Virginia Commonwealth University, Richmond, VA, United States of America. pwlongest@vcu.edu.
⁵ Department of Pharmaceutics, Virginia Commonwealth University, Richmond, VA, United States of America. pwlongest@vcu.edu.

PMID: 39821052
DOI: 10.1208/s12249-024-02987-4

Abstract

The administration of surfactant aerosol therapy to preterm infants receiving continuous positive airway pressure (CPAP) respiratory support is highly challenging due to small flow passages, relatively high ventilation flow rates, rapid breathing and small inhalation volumes. To overcome these challenges, the objective of this study was to implement a validated computational fluid dynamics (CFD) model and develop an overlay nasal prong interface design for use with CPAP respiratory support that enables high efficiency powder aerosol delivery to the lungs of preterm infants when needed (i.e., on-demand) and can remain in place without increasing the work of breathing compared with a baseline CPAP interface. Realistic in vitro experiments were first conducted to generate baseline validation data, and then the CFD model, once validated, was used to explore key design parameters across a range of preterm infant nose-throat geometries and aerosol delivery conditions. The most important factors for efficient aerosol delivery were shown to be (i) maintaining the aerosol delivery flow rate below the tracheal flow rate (to minimize CPAP line loss) and (ii) concentrating the aerosol within the first portion of the inhalation waveform. An optimized design was shown to deliver approximately 37-60% of the nominal dose through the system and to the lungs with low intersubject variability (1050-2200 g infants) across two modes of device actuation (automated and manual) with room for further improvement. Ergonomic curvatures and streamlining of the prong geometries were also found to reduce work of breathing and flow resistance compared with a commercial alternative.

Keywords: CFD; CPAP interface; pharmaceutical aerosol delivery; preterm infants; surfactant aerosol therapy.

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Conflict of interest statement

Declarations. AI technology (Gemini and ChatGPT) was employed to correct typos. Conflict of Interests: Virginia Commonwealth University is currently pursuing patent protection of DPI devices, patient interfaces and dry powder formulations described in this study, which if licensed and commercialized, may provide a future financial interest to the authors. MH is a member of the Editorial Board of AAPS PharmSciTech.

Cited by

Development of an Infant Air-Jet Dry Powder Aerosol Delivery System (iDP-ADS) Including a New Multifunctional Bifurcating Two-Prong Nasal Interface.
Strickler SC, Farkas DR, Momin MAM, Vargas L, Aladwani G, Hindle M, Longest W. Strickler SC, et al. Pharm Res. 2025 Feb;42(2):365-384. doi: 10.1007/s11095-024-03814-y. Epub 2025 Feb 10. Pharm Res. 2025. PMID: 39930310 Free PMC article.

References

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[1] Perin J, Mulick A, Yeung D, Villavicencio F, Lopez G, Strong KL, et al. Global, regional, and national causes of under-5 mortality in 2000–19: an updated systematic analysis with implications for the Sustainable Development Goals. Lancet Child Adolescent Health. 2022;6(2):106–15. https://doi.org/10.1016/S2352-4642(21)00311-4 . - DOI - PubMed

[2] Perin J, Mulick A, Yeung D, Villavicencio F, Lopez G, Strong KL, et al. Global, regional, and national causes of under-5 mortality in 2000–19: an updated systematic analysis with implications for the Sustainable Development Goals. Lancet Child Adolescent Health. 2022;6(2):106–15. https://doi.org/10.1016/S2352-4642(21)00311-4 . - DOI - PubMed

[3] Chawanpaiboon S, Vogel JP, Moller A-B, Lumbiganon P, Petzold M, Hogan D, et al. Global, regional, and national estimates of levels of preterm birth in 2014: a systematic review and modelling analysis. Lancet Glob Health. 2019;7(1):e37–46. https://doi.org/10.1016/S2214-109X(18)30451-0 . - DOI - PubMed

[4] Chawanpaiboon S, Vogel JP, Moller A-B, Lumbiganon P, Petzold M, Hogan D, et al. Global, regional, and national estimates of levels of preterm birth in 2014: a systematic review and modelling analysis. Lancet Glob Health. 2019;7(1):e37–46. https://doi.org/10.1016/S2214-109X(18)30451-0 . - DOI - PubMed

[5] Sweet David G, Carnielli V, Greisen G, Hallman M, Ozek E, te Pas A, et al. European consensus guidelines on the management of respiratory distress syndrome – 2019 update. Neonatology. 2019;115(4):432–50. https://doi.org/10.1159/000499361 . - DOI - PubMed

[6] Sweet David G, Carnielli V, Greisen G, Hallman M, Ozek E, te Pas A, et al. European consensus guidelines on the management of respiratory distress syndrome – 2019 update. Neonatology. 2019;115(4):432–50. https://doi.org/10.1159/000499361 . - DOI - PubMed

[7] Donda K, Vijayakanthi N, Dapaah-Siakwan F, Bhatt P, Rastogi D, Rastogi S. Trends in epidemiology and outcomes of respiratory distress syndrome in the United States. Pediatr Pulmonol. 2019;54(4):405–14. https://doi.org/10.1002/ppul.24241 . - DOI - PubMed

[8] Donda K, Vijayakanthi N, Dapaah-Siakwan F, Bhatt P, Rastogi D, Rastogi S. Trends in epidemiology and outcomes of respiratory distress syndrome in the United States. Pediatr Pulmonol. 2019;54(4):405–14. https://doi.org/10.1002/ppul.24241 . - DOI - PubMed

[9] Bancalari E, Jain D. Bronchopulmonary dysplasia: 50 years after the original description. Neonatology. 2019;115(4):384–91. https://doi.org/10.1159/000497422 . - DOI - PubMed

[10] Bancalari E, Jain D. Bronchopulmonary dysplasia: 50 years after the original description. Neonatology. 2019;115(4):384–91. https://doi.org/10.1159/000497422 . - DOI - PubMed

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Development of CPAP Overlay Interfaces for Efficient Administration of Aerosol Surfactant Therapy to Preterm Infants

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Development of CPAP Overlay Interfaces for Efficient Administration of Aerosol Surfactant Therapy to Preterm Infants

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