A comparison of two methods of noninvasive ventilatory support in weaning from mechanical ventilation Source: Annual Congress 2009 - New trends in noninvasive ventilation for acute respiratory failure Year: 2009
Non-invasive assessment of weaning from mechanical ventilation by means of the forced oscillation technique Source: Eur Respir J 2006; 28: Suppl. 50, 346s Year: 2006
Effect of non-linear leaks on the monitoring accuracy of home mechanical ventilators: A bench study Source: Annual Congress 2013 –Long-term NIV: children, neuromuscular patients and technical aspects Year: 2013
New method of high frequency jet non-invasive assisted ventilation Source: International Congress 2014 – Key factors that ensure noninvasive ventilation success Year: 2014
Voluntary movements of various kinds, performed in order to manipulate a mechanical ventilation device, create similar ventilation of lungs Source: Eur Respir J 2007; 30: Suppl. 51, 182s Year: 2007
Mechanical ventilation with advanced closed-loop systems Source: Eur Respir Mon 2012; 55: 217-228 Year: 2012
High frequency jet ventilation via facial mask: an unusual method of noninvasive ventilatory support Source: Eur Respir J 2005; 26: Suppl. 49, 444s Year: 2005
Comparisons of predictive performance of breathing pattern variabilities measured during T-piece, automatic tube compensation and pressure support ventilation for weaning ICU patients from mechanical ventilation Source: Annual Congress 2011 - Mechanical ventilation and lung injury: new advances Year: 2011
Recommended approaches to minimize aerosol dispersion of COVID during noninvasive ventilatory support can deteriorate ventilator performances: a benchmark comparative study Source: Virtual Congress 2021 – New trends in non-invasive respiratory support Year: 2021
Impact of patient ventilator asynchrony (PVA) on the sleep quality of patients using home mechanical ventilation (HMV) Source: International Congress 2014 – Key factors that ensure noninvasive ventilation success Year: 2014
Prediction of successful weaning from mechanical ventilation by continuous ultrasound monitoring of diaphragm excursion Source: Virtual Congress 2021 – Respiratory failure in COVID19 and beyond Year: 2021
Noninvasive ventilation after intubation and mechanical ventilation Source: Eur Respir J 2002; 19: 959-965 Year: 2002
NIV for acute respiratory failure: modes of ventilation and ventilators Source: Eur Respir Mon; 2008: 41: 154–172 Year: 2008
Mask pressure effects on the nasal bridge during noninvasive ventilation: Impact of mask design, ventilator settings and body position Source: International Congress 2016 – New insights into noninvasive ventilation: between the dream and reality Year: 2016
The change of respiratory and circulation parameter during the weaning of sequential invasive-noninvasive mechanical ventilation Source: Eur Respir J 2001; 18: Suppl. 33, 184s Year: 2001
Variability of tidal volume in assisted mechanical ventilation in ARDS: a bench study Source: International Congress 2017 – New insights into acute critical care Year: 2017
Noninvasive ventilation: modes of ventilation Source: ISSN=1025-448x, ISBN=1-904097-17-0, page=67 Year: 2001
Accuracy of ventilators for intermediate care to deliver tidal volume. A bench study Source: International Congress 2015 – Acute critical care: novelties in critical care Year: 2015
Open access spreadsheet application for learning spontaneous breathing mechanics and mechanical ventilation Source: Breathe, 17 (2) 210012; 10.1183/20734735.0012-2021 Year: 2021
Non-invasive ventilation: muscular unloading during spontaneous and auto-adaptive controlled ventilation in healthy individuals Source: Annual Congress 2007 - Physiological effects of noninvasive ventilation Year: 2007