Notes:

Page 22

Volume 5

Journal of Pediatric Care

ISSN: 2471-805X

JOINT EVENT

Neonatology 2019

Pediatrics Surgery 2019

April 23-24, 2019

April 23-24, 2019 London, UK

&

23

rd

Edition of International Conference on

Neonatology and Perinatology

4

th

International Conference on

Pediatrics and Pediatric Surgery

High-frequency oscillatory ventilation: What is new?

Prashanth Gouda

National University of Science and Technology, Oman

H

igh-frequency oscillatory ventilation (HFOV) was developed as a new technique of ventilation technique in

late seventies, twenty years after the invention of the first artificial respirator. In this mode of ventilation, tidal

volumes are smaller than anatomical dead space and respiratory rate is supra-physiological. Animal models showed

that HFOV was able to achieve adequate gas exchange with lower inflation pressure at the alveoli with a relatively

constant volume above the functional residual capacity leading to significant mitigation of preterm lung injury in the

form of volutrauma, barotrauma and atelectrauma. However, early clinical trials failed to demonstrate consistently,

favorable results in terms of pulmonary outcome when compared to standard modes of ventilation. Subsequent

emergence of volume guarantee (VG) in combination with HFOV made it possible to play with frequency and

tidal volume. The addition of VG setting to the ventilator can help to optimize ventilation (stable carbon dioxide

removal) as well as oxygenation. Currently, attempts are being made to determine the highest frequency and the

lowest tidal volume according to gestational age and birth weight to define a new lung protection strategy. Indeed

HFOV with or without VG is increasingly used in preterm infants with respiratory failure. Current evidence suggests

that early HFOV could reduce lung injury in combination with an open lung strategy. Nasal HFOV has come up as

the newest mode of high-frequency ventilation in neonates. The latest evidence suggests that following surfactant

administration, nasal HFOV could be superior to nasal CPAP in preterm infants with moderate to severe RDS

without increase in adverse effects.

Biography

Prashanth Gouda has completed his Graduation in Medicine at Rajiv Gandhi University Bangalore and Postgraduate studies at King George Medical University,

Lucknow, India. He has served at several reputed medical institutions and research centers in India including KLE University and PGIMER Chandigarh. Currently,

he serves as the Faculty of Pediatrics in College of Medicine and Health Sciences at National University of Science and Technology, Muscat, Oman. He has

published more than 40 papers in various journals and has been serving in reputed international pediatrics and neonatology journals as Editorial Board Member

and Referee.

prashanth@nu.edu.om

Prashanth Gouda, J Pediatr Care 2019, Volume 5

DOI: 10.21767/2471-805X-C1-020