by VentinovaMedical | Feb 13, 2018
Calderon et al. Expiratory ventilation assistance (EVA) through a 14G catheter (2mm) in a Totally Obstructed Airway (TOA). Poster SAM 2013 In a bench study Dr. Calderon and colleagues compared passive expiration with EVA using Ventrain in a TOA model. They...
by VentinovaMedical | Feb 13, 2018
Hamaekers et al. A bench study of ventilation via two self-assembled jet devices and the Oxygen Flow Modulator in simulated upper airway obstruction. Anaesthesia. 2009 Dec;64(12):1353-8 To reduce the risk of air trapping and to increase oxygenation efficacy an...
by VentinovaMedical | Feb 13, 2018
Hamaekers et al. The importance of flow and pressure release in emergency jet ventilation devices. Paediatr Anaesth. 2009 May;19(5):452-7 The importance of flow and pressure release in jet ventilation devices was demonstrated by Prof. Enk and his co-workers in a bench...
by VentinovaMedical | Feb 13, 2018
Hamaekers et al. Achieving an adequate minute volume through a 2 mm transtracheal catheter in simulated upper airway obstruction using a modified industrial ejector. Br J Anaesth. 2010 The ineffectiveness and danger of using transtracheal jet ventilation in cases of...
by VentinovaMedical | Feb 13, 2018
Hamaekers et al. Ventilation through a small-bore catheter: optimizing expiratory ventilation assistance. Br J Anaesth. 2011 A functional model of Ventrain, based on EVA technology was build by Prof. Enk: the DE5. In laboratory tests, the workgroup of Prof. Enk showed...
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