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This article has Open Peer Review reports available.

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Bench experiments comparing simulated inspiratory effort when breathing helium-oxygen mixtures to that during positive pressure support with air

  • Andrew R Martin1, 4Email author,
  • Ira M Katz1, 2,
  • Katharina Jenöfi1,
  • Georges Caillibotte1,
  • Laurent Brochard3 and
  • Joëlle Texereau1
BMC Pulmonary Medicine201212:62

DOI: 10.1186/1471-2466-12-62

Received: 9 February 2012

Accepted: 20 September 2012

Published: 3 October 2012

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Open Peer Review reports

Pre-publication versions of this article and author comments to reviewers are available by contacting info@biomedcentral.com.

Original Submission
9 Feb 2012 Submitted Original manuscript
Resubmission - Version 2
Submitted Manuscript version 2
8 May 2012 Reviewed Reviewer Report - Manuel Sanchez Luna
16 May 2012 Reviewed Reviewer Report - Tomasz Golczewski
26 Jun 2012 Author responded Author comments - Andrew Martin
Resubmission - Version 3
26 Jun 2012 Submitted Manuscript version 3
23 Aug 2012 Reviewed Reviewer Report - Stefano Nava
14 Sep 2012 Author responded Author comments - Andrew Martin
Resubmission - Version 4
14 Sep 2012 Submitted Manuscript version 4
Publishing
20 Sep 2012 Editorially accepted
3 Oct 2012 Article published 10.1186/1471-2466-12-62

How does Open Peer Review work?

Open peer review is a system where authors know who the reviewers are, and the reviewers know who the authors are. If the manuscript is accepted, the named reviewer reports are published alongside the article. Pre-publication versions of the article and author comments to reviewers are available by contacting info@biomedcentral.com. All previous versions of the manuscript and all author responses to the reviewers are also available.

You can find further information about the peer review system here.

Authors’ Affiliations

(1)
Medical Gases Group, Air Liquide Santé International, Centre de Recherche Claude-Delorme
(2)
Department of Mechanical Engineering, Lafayette College
(3)
Medical Intensive Care Unit, University Hospital, University of Geneva
(4)
Current affiliation: Medical Gases, Delaware Research and Technology Center, American Air Liquide

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