Literature DB >> 18512045

Subject-ventilator synchrony during neural versus pneumatically triggered non-invasive helmet ventilation.

Onnen Moerer1, Jennifer Beck, Lukas Brander, Roberta Costa, Michael Quintel, Arthur S Slutsky, Fabrice Brunet, Christer Sinderby.   

Abstract

OBJECTIVE: Patient-ventilator synchrony during non-invasive pressure support ventilation with the helmet device is often compromised when conventional pneumatic triggering and cycling-off were used. A possible solution to this shortcoming is to replace the pneumatic triggering with neural triggering and cycling-off-using the diaphragm electrical activity (EA(di)). This signal is insensitive to leaks and to the compliance of the ventilator circuit.
DESIGN: Randomized, single-blinded, experimental study.
SETTING: University Hospital. PARTICIPANTS AND
SUBJECTS: Seven healthy human volunteers.
INTERVENTIONS: Pneumatic triggering and cycling-off were compared to neural triggering and cycling-off during NIV delivered with the helmet. MEASUREMENTS AND
RESULTS: Triggering and cycling-off delays, wasted efforts, and breathing comfort were determined during restricted breathing efforts (<20% of voluntary maximum EA(di)) with various combinations of pressure support (PSV) (5, 10, 20 cm H(2)O) and respiratory rates (10, 20, 30 breath/min). During pneumatic triggering and cycling-off, the subject-ventilator synchrony was progressively more impaired with increasing respiratory rate and levels of PSV (p < 0.001). During neural triggering and cycling-off, effect of increasing respiratory rate and levels of PSV on subject-ventilator synchrony was minimal. Breathing comfort was higher during neural triggering than during pneumatic triggering (p < 0.001).
CONCLUSIONS: The present study demonstrates in healthy subjects that subject-ventilator synchrony, trigger effort, and breathing comfort with a helmet interface are considerably less impaired during increasing levels of PSV and respiratory rates with neural triggering and cycling-off, compared to conventional pneumatic triggering and cycling-off.

Entities:  

Mesh:

Year:  2008        PMID: 18512045      PMCID: PMC2517084          DOI: 10.1007/s00134-008-1163-z

Source DB:  PubMed          Journal:  Intensive Care Med        ISSN: 0342-4642            Impact factor:   17.440


  37 in total

Review 1.  Neural control of mechanical ventilation in respiratory failure.

Authors:  C Sinderby; P Navalesi; J Beck; Y Skrobik; N Comtois; S Friberg; S B Gottfried; L Lindström
Journal:  Nat Med       Date:  1999-12       Impact factor: 53.440

2.  Effectiveness of mask and helmet interfaces to deliver noninvasive ventilation in a human model of resistive breathing.

Authors:  Fabrizio Racca; Lorenzo Appendini; Cesare Gregoretti; Elisa Stra; Antonio Patessio; Claudio F Donner; V Marco Ranieri
Journal:  J Appl Physiol (1985)       Date:  2005-06-16

3.  Enhancement of signal quality in esophageal recordings of diaphragm EMG.

Authors:  C A Sinderby; J C Beck; L H Lindström; A E Grassino
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4.  Influence of two different interfaces for noninvasive ventilation compared to invasive ventilation on the mechanical properties and performance of a respiratory system: a lung model study.

Authors:  Onnen Moerer; Sven Fischer; Michael Hartelt; Bahar Kuvaki; Michael Quintel; Peter Neumann
Journal:  Chest       Date:  2006-06       Impact factor: 9.410

5.  The effect of breath termination criterion on breathing patterns and the work of breathing during pressure support ventilation.

Authors:  H Tokioka; T Tanaka; T Ishizu; T Fukushima; T Iwaki; Y Nakamura; Y Kosogabe
Journal:  Anesth Analg       Date:  2001-01       Impact factor: 5.108

6.  Physiological effects of flow and pressure triggering during non-invasive mechanical ventilation in patients with chronic obstructive pulmonary disease.

Authors:  S Nava; N Ambrosino; C Bruschi; M Confalonieri; C Rampulla
Journal:  Thorax       Date:  1997-03       Impact factor: 9.139

7.  Prolonged neural expiratory time induced by mechanical ventilation in infants.

Authors:  Jennifer Beck; Marisa Tucci; Guillaume Emeriaud; Jacques Lacroix; Christer Sinderby
Journal:  Pediatr Res       Date:  2004-01-22       Impact factor: 3.756

8.  Randomized, prospective trial of noninvasive positive pressure ventilation in acute respiratory failure.

Authors:  N Kramer; T J Meyer; J Meharg; R D Cece; N S Hill
Journal:  Am J Respir Crit Care Med       Date:  1995-06       Impact factor: 21.405

9.  Noninvasive positive pressure ventilation delivered by helmet vs. standard face mask.

Authors:  Davide Chiumello; Paolo Pelosi; Eleonora Carlesso; Paolo Severgnini; Michele Aspesi; Chiara Gamberoni; Massimo Antonelli; Giorgio Conti; Maurizio Chiaranda; Luciano Gattinoni
Journal:  Intensive Care Med       Date:  2003-06-12       Impact factor: 17.440

10.  Acute respiratory failure in the elderly: etiology, emergency diagnosis and prognosis.

Authors:  Patrick Ray; Sophie Birolleau; Yannick Lefort; Marie-Hélène Becquemin; Catherine Beigelman; Richard Isnard; Antonio Teixeira; Martine Arthaud; Bruno Riou; Jacques Boddaert
Journal:  Crit Care       Date:  2006-05-24       Impact factor: 9.097
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  28 in total

1.  Noninvasive ventilation through a helmet in postextubation hypoxemic patients: physiologic comparison between neurally adjusted ventilatory assist and pressure support ventilation.

Authors:  Gianmaria Cammarota; Carlo Olivieri; Roberta Costa; Rosanna Vaschetto; Davide Colombo; Emilia Turucz; Federico Longhini; Francesco Della Corte; Giorgio Conti; Paolo Navalesi
Journal:  Intensive Care Med       Date:  2011-10-18       Impact factor: 17.440

2.  Neurally adjusted ventilatory assist: letting the respiratory center take over control of ventilation.

Authors:  Marcelo Gama de Abreu; F Javier Belda
Journal:  Intensive Care Med       Date:  2013-06-21       Impact factor: 17.440

3.  Neural trigger and cycling off during helmet pressure support ventilation: the epitome of the perfect patient ventilator interaction?

Authors:  Frédéric Vargas
Journal:  Intensive Care Med       Date:  2008-05-30       Impact factor: 17.440

4.  Non-invasive mechanical ventilation in hypoxemic respiratory failure: Just a matter of the interface?

Authors:  Onnen Moerer; Lars-Olav Harnisch
Journal:  J Thorac Dis       Date:  2016-09       Impact factor: 2.895

5.  Neurally triggered breaths reduce trigger delay and improve ventilator response times in ventilated infants with bronchiolitis.

Authors:  Katherine C Clement; Tracy L Thurman; Shirley J Holt; Mark J Heulitt
Journal:  Intensive Care Med       Date:  2011-09-23       Impact factor: 17.440

6.  Work of breathing using different interfaces in spontaneous positive pressure ventilation: helmet, face-mask, and endotracheal tube.

Authors:  Shinya Oda; Kei Otaki; Nozomi Yashima; Misato Kurota; Sachiko Matsushita; Airi Kumasaka; Hutaba Kurihara; Kaneyuki Kawamae
Journal:  J Anesth       Date:  2016-04-09       Impact factor: 2.078

Review 7.  [Neurally adjusted ventilatory assist (NAVA). A new mode of assisted mechanical ventilation].

Authors:  O Moerer; J Barwing; M Quintel
Journal:  Anaesthesist       Date:  2008-10       Impact factor: 1.041

8.  Predicting non-invasive ventilation failure in children from the SpO₂/FiO₂ (SF) ratio.

Authors:  Juan Mayordomo-Colunga; Martí Pons; Yolanda López; M José Solana; Corsino Rey; Pablo Martínez-Camblor; Antonio Rodríguez-Núñez; Jesús López-Herce; Alberto Medina; Clara Abadesso; M Angeles García-Teresa; Mirella Gáboli; Milagros García-López; María González-Sánchez; Paula Madurga-Revilla; Amelia González-Calvar; Eider Oñate
Journal:  Intensive Care Med       Date:  2013-03-27       Impact factor: 17.440

9.  Neurally adjusted ventilatory assist (NAVA) improves patient-ventilator interaction during non-invasive ventilation delivered by face mask.

Authors:  Lise Piquilloud; Didier Tassaux; Emilie Bialais; Bernard Lambermont; Thierry Sottiaux; Jean Roeseler; Pierre-François Laterre; Philippe Jolliet; Jean-Pierre Revelly
Journal:  Intensive Care Med       Date:  2012-08-03       Impact factor: 17.440

10.  High flow biphasic positive airway pressure by helmet--effects on pressurization, tidal volume, carbon dioxide accumulation and noise exposure.

Authors:  Onnen Moerer; Peter Herrmann; José Hinz; Paolo Severgnini; Edoardo Calderini; Michael Quintel; Paolo Pelosi
Journal:  Crit Care       Date:  2009-06-05       Impact factor: 9.097
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