Your search keyword '"Dorottya Czovek"' showing total 2 results

1. Using intra-breath oscillometry in obesity hypoventilation syndrome to detect tidal expiratory flow limitation: a potential marker to optimize CPAP therapy

Author

Szabolcs Baglyas, Luca Valkó, Vivien Móró, Eszter Podmaniczky, Dorottya Czövek, Gergely Makan, Zoltán Gingl, János Gál, Zoltán Hantos, and András Lorx

Subjects

Body position, Continuous positive airway pressure, Expiratory flow limitation, Obesity hypoventilation syndrome, Oscillometry, Diseases of the respiratory system, RC705-779

Abstract

Abstract Background Continuous positive airway pressure (CPAP) therapy has profound effects in obesity hypoventilation syndrome (OHS). Current therapy initiation focuses on upper airway patency rather than the assessment of altered respiratory mechanics due to increased extrapulmonary mechanical load. Methods We aimed to examine the viability of intra-breath oscillometry in optimizing CPAP therapy for OHS. We performed intra-breath oscillometry at 10 Hz in the sitting and supine positions, followed by measurements at increasing CPAP levels (none-5-10-15-20 cmH2O) in awake OHS patients. We plotted intra-breath resistance and reactance (Xrs) values against flow (V’) and volume (V) to identify tidal expiratory flow limitation (tEFL). Results Thirty-five patients (65.7% male) completed the study. We found a characteristic looping of the Xrs vs V’ plot in all patients in the supine position revealing tEFL: Xrs fell with decreasing flow at end-expiration. Intra-breath variables representing expiratory decrease of Xrs became more negative in the supine position [end-expiratory Xrs (mean ± SD): -1.9 ± 1.8 cmH2O·s·L− 1 sitting vs. -4.2 ± 2.2 cmH2O·s·L− 1 supine; difference between end-expiratory and end-inspiratory Xrs: -1.3 ± 1.7 cmH2O·s·L− 1 sitting vs. -3.6 ± 2.0 cmH2O·s·L− 1 supine, p

Published

2023

2. Respiratory Oscillometry in Newborn Infants: Conventional and Intra-Breath Approaches

Author

Bence L. Radics, Zita Gyurkovits, Gergely Makan, Zoltán Gingl, Dorottya Czövek, and Zoltán Hantos

Subjects

infant oscillometry, respiratory resistance, respiratory reactance, respiratory compliance, nasal resistance, intra-breath method, Pediatrics, RJ1-570

Abstract

BackgroundOscillometry has been employed widely as a non-invasive and standardized measurement of respiratory function in children and adults; however, limited information is available on infants.AimsTo establish the within-session variability of respiratory impedance (Zrs), to characterize the degree and profile of intra-breath changes in Zrs and to assess their impact on conventional oscillometry in newborns.Methods109 healthy newborns were enrolled in the study conducted in the first 5 postpartum days during natural sleep. A custom-made wave-tube oscillometry setup was used, with an 8–48 Hz pseudorandom and a 16 Hz sinusoidal signal used for spectral and intra-breath oscillometry, respectively. A resistance-compliance-inertance (R-C-L) model was fitted to average Zrs spectra obtained from successive 30-s recordings. Intra-breath measures, such as resistance (Rrs) and reactance (Xrs) at the end-expiratory, end-inspiratory and maximum-flow points were estimated from three 90-s recordings. All natural and artifact-free breaths were included in the analysis.ResultsWithin-session changes in the mean R, C and L values, respectively, were large (mean coefficients of variation: 10.3, 20.3, and 26.6%); the fluctuations of the intra-breath measures were of similar degree (20–24%). Intra-breath analysis also revealed large swings in Rrs and Xrs within the breathing cycle: the peak-to-peak changes amounted to 93% (range: 32–218%) and 41% (9–212%), respectively, of the zero-flow Zrs magnitude.DiscussionIntra-breath tracking of Zrs provides new insight into the determinants of the dynamics of respiratory system, and highlights the biasing effects of mechanical non-linearities on the average Zrs data obtained from the conventional spectral oscillometry.

Published

2022