Abstract
Several studies have shown that chest compressions (CC) alone may produce in addition to blood circulation, a short-term passive ventilation. However, it is not clear whether high CC quality may produce in even greater amount of ventilation volumes. The aim of this study was to evaluate whether CC, using a new feedback device, can produce a substantial and sustainable passive volumes compared to standard CC. Thirty inexperienced volunteers performed CC for 2 min on a developed thoracic lung model and using a new feedback device. Participants were randomized into two groups that performed either CC with feedback first, followed by a trial without feedback, or vice versa. Efficient compression rate (correct CC rate and depth simultaneously) was significantly higher in feedback session (43.6% versus 25.5%; P = 0.006). As well, CC rate and depth efficiency were improved with feedback. Moreover, average tidal volumes and minute volumes that occurred during CC alone were significantly improved in feedback session (79.8 ± 5 ml versus 72.9 ± 7 ml) and (8.8 l/min versus 7.9 l/min), respectively (P < 0.001). Yet, no significant difference was found between the first and the 90th second interval (9.04 l/min versus 8.68 l/min, P = 0.163) in the feedback session. Conversely, a significant difference was evident after the first 15th seconds interval without feedback (8.77 l/min initially versus 8.38 l/min; P = 0.041). This study revealed that the new CPR feedback device improved CC quality in inexperienced volunteers. As well, the passive ventilation volumes were significantly increased and sustained when the device was used.
Issue Section:
Technical Briefs
References
1.
Chandra
,
N. C.
,
Gruben
,
K. G.
,
Tsitlik
,
J. E.
,
Brower
,
R.
,
Guerci
,
A. D.
,
Halperin
,
H. H.
,
Weisfeldt
,
M. L.
, and
Permutt
,
S.
, 1994
, “
Observations of Ventilation During Resuscitation in a Canine Model
,” Circulation
,
90
(6
), pp. 3070
–3075
.10.1161/01.CIR.90.6.30702.
Geddes
,
L. A.
,
Rundell
,
A.
,
Otlewski
,
M.
, and
Pargett
,
M.
, 2008
, “
How Much Lung Ventilation is Obtained With Only Chest-Compression CPR?
,” Cardiovasc. Eng
,.
8
(3
), pp. 145
–148
.10.1007/s10558-008-9058-83.
Safar
,
P.
,
Brown
,
T. C.
,
Holtey
,
W. J.
,
Wilder
,
R. J.
, and
Kouwenhoven
,
W. B.
, 1961
, “
Ventilation and Circulation With Closed-Chest Cardiac Massage in Man
,” JAMA
,
176
(7
), pp. 574
–576
.10.1001/jama.1961.030402000100034.
Chang
,
M. P.
, and
Idris
,
A. H.
, 2017
, “
The Past, Present, and Future of Ventilation During Cardiopulmonary Resuscitation
,” Curr. Opin. Crit. Care
,
23
(3
), pp. 188
–192
.10.1097/MCC.00000000000004155.
Deakin
,
C. D.
,
Neill
,
J. F. O.
,
Tabor
,
T.
,
Hampshire
,
N.
,
Nhs
,
H.
,
Rg
,
B.
,
Hermes
,
I.
, and
Daguerre
,
J.
, 2007
, “
Does Compression-Only Cardiopulmonary Resuscitation Generate Adequate Passive Ventilation During Cardiac Arrest
?,” Resuscitation
,
75
(1
), pp. 53
–59
.10.1016/j.resuscitation.2007.04.0026.
McDannold
,
R.
,
Bobrow
,
B. J.
,
Chikani
,
V.
,
Silver
,
A.
,
Spaite
,
D. W.
, and
Vadeboncoeur
,
T.
, 2018
, “
Quantification of Ventilation Volumes Produced by Compressions During Emergency Department Cardiopulmonary Resuscitation
,” Am. J. Emerg. Med.
,
36
(9
), pp. 1640
–1644
.10.1016/j.ajem.2018.06.0577.
Cordioli
,
R. L.
,
Lyazidi
,
A.
,
Rey
,
N.
,
Granier
,
J.
,
Savary
,
D.
,
Brochard
,
L.
, and
Richard
,
J. M.
, 2016
, “
Impact of Ventilation Strategies During Chest Compression. An Experimental Study With Clinical Observations
,” J. Appl. Physiol.
,
120
(2
), pp. 196
–203
.10.1152/japplphysiol.00632.20158.
Tsui
,
B. C. H.
,
Horne
,
S.
,
Tsui
,
J.
, and
Corry
,
G. N.
, 2015
, “
Generation of Tidal Volume Via Gentle Chest Pressure in Children Over One Year Old
,” Resuscitation
,
92
, pp. 148
–153
.10.1016/j.resuscitation.2015.02.0219.
Baldi
,
E.
,
Cornara
,
S.
,
Contri
,
E.
,
Epis
,
F.
,
Fina
,
D.
,
Zelaschi
,
B.
,
Dossena
,
C.
,
Fichtner
,
F.
,
Tonani
,
M.
,
Di Maggio
,
M.
,
Zambaiti
,
E.
, and
Somaschini
,
A.
, 2017
, “
Real-Time Visual Feedback During Training Improves Laypersons' CPR Quality: A Randomized Controlled Manikin Study
,” CJEM
, 19(6), pp. 1
–8
. 10.1017/cem.2016.41010.
Buléon
,
C.
,
Delaunay
,
J.
,
Parienti
,
J. J.
,
Halbout
,
L.
,
Arrot
,
X.
,
Gérard
,
J. L.
, and
Hanouz
,
J. L.
, 2016
, “
Impact of a Feedback Device on Chest Compression Quality During Extended Manikin CPR: A Randomized Crossover Study
,” Am. J. Emerg. Med.
,
34
(9
), pp. 1754
–1760
.10.1016/j.ajem.2016.05.07711.
Wee
,
J. C. P.
,
Nandakumar
,
M.
,
Chan
,
Y. H.
,
Yeo
,
R. S. L.
,
Kaur
,
K.
,
Anantharaman
,
V.
,
Yap
,
S.
, and
Ong
,
M. E. H.
, 2014
, “
Effect of Using an Audiovisual CPR Feedback Device on Chest Compression Rate and Depth
,” Ann. Acad. Med. Singapore
,
43
(1
), pp. 33
–38
.https://www.ncbi.nlm.nih.gov/pubmed/2455746312.
Ben Taleb
,
L.
,
Essoukaki
,
E.
,
Lyazidi
,
A.
,
Mouhsen
,
A.
,
Assir
,
A.
,
Rattal
,
M.
, and
Harmouchi
,
M.
, 2018
, “
Design of a New Feedback Device for Cardiopulmonary Resuscitation
,” IEEE 4th Middle East Conference on Biomedical Engineering
(MECBME
),
Tunis, Tunisia
, Mar. 28–30, pp. 90
–95
.10.1109/mecbme.2018.840241213.
Ben Taleb
,
L.
,
Essoukaki
,
E.
,
Harmouchi
,
M.
,
Rattal
,
M.
,
Mouhsen
,
A.
, and
Lyazidi
,
A.
, 2019
, “
Simulateur de Réanimation Cardio-Pulmonaire
,” MA 41470 B1.14.
Davis
,
K. J.
,
Johannigman
,
J. A.
,
Johnson
,
R. C. J.
, and
Branson
,
R. D.
, 1995
, “
Lung Compliance Following Cardiac Arrest
,” Acad. Emerg. Med.
,
2
(10
), pp. 874
–878
.10.1111/j.1553-2712.1995.tb03100.x15.
Ornato
,
J. P.
,
Bryson
,
B. L.
,
Donovan
,
P. J.
,
Farquharson
,
R. R.
, and
Jaeger
,
C.
, 1983
, “
Measurement of Ventilation During Cardiopulmonary Resuscitation
,” Crit. Care Med.
,
11
(2
), pp. 79
–82
.10.1097/00003246-198302000-0000416.
Cloete
,
G.
,
Dellimore
,
K. H.
, and
Scheffer
,
C.
, 2011
, “
Comparison of Experimental Chest Compression Data to a Theoretical Model for the Mechanics of Constant Peak Displacement Cardiopulmonary Resuscitation
,” Acad. Emerg. Med.
,
18
(11
), pp. 1167
–1176
.10.1111/j.1553-2712.2011.01213.x17.
Gruben
,
K. G.
,
Halperin
,
H. R.
,
Popel
,
A. S.
, and
Tsitlik
,
J. E.
, 1999
, “
Canine Sternal Force-Displacement Relationship During Cardiopulmonary Resuscitation
,” IEEE Trans. Biomed. Eng.
,
46
(7
), pp. 788
–796
.10.1109/10.77118818.
Kılıç
,
D.
,
Göksu
,
E.
,
Kılıç
,
T.
, and
Buyurgan
,
C. S.
, 2017
, “
Resuscitation Quality of Rotating Chest Compression Providers at One-Minute vs. Two-Minute Intervals: A Mannequin Study
,” Am. J. Emerg. Med.
, 36(5), pp. 829–833.10.1016/j.ajem.2017.10.03519.
Kleinman
,
M. E.
,
Brennan
,
E. E.
,
Goldberger
,
Z. D.
,
Swor
,
R. A.
,
Terry
,
M.
,
Bobrow
,
B. J.
,
Gazmuri
,
R. J.
,
Travers
,
A. H.
, and
Rea
,
T.
, 2015
, “
Part 5: Adult Basic Life Support and Cardiopulmonary Resuscitation Quality: 2015 American Heart Association Guidelines Update for Cardiopulmonary Resuscitation and Emergency Cardiovascular Care
,” Circulation
,
132
(18 suppl 2
), pp. S414
–S435
.10.1161/CIR.000000000000025920.
Tanaka
,
S.
,
White
,
A. E.
,
Sagisaka
,
R.
,
Chong
,
G.
,
Ng
,
E.
,
Seow
,
J.
,
Mj
,
N. A.
,
Tanaka
,
H.
, and
Ong
,
M. E. H.
, 2017
, “
Comparison of Quality of Chest Compressions During Training of Laypersons Using Push Heart and Little Anne Manikins Using Blinded CPRcards
,” Int. J. Emerg. Med.
,
10
(20
), pp. 1
–7
.10.1186/s12245-017-0147-621.
Kirkbright
,
S.
,
Finn
,
J.
,
Tohira
,
H.
,
Bremner
,
A.
,
Jacobs
,
I.
, and
Celenza
,
A.
, 2014
, “
Audiovisual Feedback Device Use by Health Care Professionals During CPR: A Systematic Review and Meta-Analysis of Randomised and Non-Randomised Trials
,” Resuscitation
,
85
(4
), pp. 460
–471
.10.1016/j.resuscitation.2013.12.01222.
Skorning
,
M.
,
Beckers
,
S. K.
,
Brokmann
,
J. C.
,
Rörtgen
,
D.
,
Bergrath
,
S.
,
Veiser
,
T.
,
Heussen
,
N.
, and
Rossaint
,
R.
, 2010
, “
New Visual Feedback Device Improves Performance of Chest Compressions by Professionals in Simulated Cardiac Arrest
,” Resuscitation
,
81
(1
), pp. 53
–58
.10.1016/j.resuscitation.2009.10.00523.
Noordergraaf
,
G. J.
,
Drinkwaard
,
B.
,
van Berkom
,
P. F. J.
,
van Hemert
,
H. P.
,
Venema
,
A.
,
Scheffer
,
G. J.
, and
Noordergraaf
,
A.
, 2006
, “
The Quality of Chest Compressions by Trained Personnel: The Effect of Feedback, Via the CPREzy, in a Randomized Controlled Trial Using a Manikin Model
,” Resuscitation
,
69
(2
), pp. 241
–252
.10.1016/j.resuscitation.2005.08.00824.
Buléon
,
C.
,
Parienti
,
J.
,
Halbout
,
L.
,
Arrot
,
X.
,
Régent
,
H. D. F.
,
Chelarescu
,
D.
,
Fellahi
,
J.
,
Gérard
,
J.
, and
Hanouz
,
J.
, 2013
, “
American Journal of Emergency Medicine Improvement in Chest Compression Quality Using a Feedback Device (CPRmeter): A Simulation Randomized Crossover Study
,” Am. J. Emerg. Med.
,
31
(10
), pp. 1457
–1461
.10.1016/j.ajem.2013.07.02925.
Woollard
,
M.
,
Whitfield
,
R.
,
Newcombe
,
R. G.
,
Colquhoun
,
M.
,
Vetter
,
N.
, and
Chamberlain
,
D.
, 2006
, “
Optimal Refresher Training Intervals for AED and CPR Skills: A Randomised Controlled Trial
,” Resuscitation
,
71
(2
), pp. 237
–247
.10.1016/j.resuscitation.2006.04.00526.
Perkins
,
G. D.
,
Augr
,
C.
,
Rogers
,
H.
,
Allan
,
M.
, and
Thickett
,
D. R.
, 2005
, “
CPREzy TM: An Evaluation During Simulated Cardiac Arrest on a Hospital Bed
,” Resuscitation
,
64
(1
), pp. 103
–108
.10.1016/j.resuscitation.2004.08.01127.
Nolan
,
J. P.
, 2014
, “
High-Quality Cardiopulmonary Resuscitation
,” Curr. Opin. Crit. Care
,
20
(3
), pp. 277
–233
.10.1097/MCC.000000000000008328.
Donohoe
,
R. T.
,
Hambly
,
C.
,
Innes
,
J.
,
Bloomingdale
,
M.
,
Subido
,
C.
,
Romines
,
S.
, and
Eisenberg
,
M. S.
, 2010
, “
CPR With Chest Compression Alone or With Rescue Breathing
,” N. Engl. J. Med.
,
363
(5
), pp. 423
–433
.10.1056/NEJMoa090899329.
Cordioli
,
R.
,
Suppan
,
L.
,
Rey
,
N.
,
Granier
,
J.
,
Savary
,
D.
,
Akoumianaki
,
E.
,
Niquille
,
M.
,
Lyazidi
,
A.
,
Brochard
,
L.
, and
Richard
,
J.
, 2013
, “
Ventilation Lors du Massage Thoracique Avec Une Simple Pression Positive Continue: Simulation Avec un Modèle Réaliste
,” Ann. Fr. Anesth. Reanim.
,
32
, p. A157
.10.1016/j.annfar.2013.07.30630.
Wutzler
,
A.
,
Bannehr
,
M.
,
Ulmenstein
,
S. V.
,
Loehr
,
L.
,
Förster
,
J.
,
Kühnle
,
Y.
,
Finn
,
A.
,
Storm
,
C.
, and
Haverkamp
,
W.
, 2015
, “
Performance of Chest Compressions With the Use of a New Audio–Visual Feedback Device: A Randomized Manikin Study in Health Care Professionals
,” Resuscitation
,
87
, pp. 81
–85
.10.1016/j.resuscitation.2014.10.00431.
Cordioli
,
R. L.
,
Brochard
,
L.
,
Suppan
,
L.
,
Lyazidi
,
A.
,
Templier
,
F.
,
Khoury
,
A.
,
Delisle
,
S.
,
Savary
,
D.
, and
Richard
,
J.-C.
, 2018
, “
How Ventilation is Delivered During Cardiopulmonary Resuscitation: An International Survey
,” Respir. Care
, 63(10), pp. 1293–1301. 10.4187/respcare.0596432.
Essoukaki
,
E.
,
Rattal
,
M.
,
Ben Taleb
,
L.
,
Harmouchi
,
M.
,
Assir
,
A.
,
Mouhsen
,
A.
, and
Lyazidi
,
A.
, 2018
, “
Modeling and Simulation of a New Artificial Breathing System
,” IEEE 4th Middle East Conference on Biomedical Engineering
(MECBME
),
Tunis, Tunisia
, Mar. 28–30, pp. 45
–50
.10.1109/mecbme.2018.840240433.
Essoukaki
,
E.
,
Rattal
,
M.
,
Ben Taleb
,
L.
,
Harmouchi
,
M.
,
Assir
,
A.
,
Mouhsen
,
A.
, and
Lyazidi
,
A.
, 2018
, “
Design of a New Artificial Breathing System for Simulating the Human Respiratory Activities
,” J. Med. Eng. Technol.
, 42(1), pp. 52
–58
.10.1080/03091902.2018.143018534.
Langhelle
,
A.
,
Sunde
,
K.
,
Wik
,
L.
, and
Steen
,
P. A.
, 2000
, “
Airway Pressure With Chest Compressions Versus Heimlich Manoeuvre in Recently Dead Adults With Complete Airway Obstruction
,” Resuscitation
,
44
(2
), pp. 105
–108
.10.1016/S0300-9572(00)00161-135.
Essoukaki
,
E.
,
Ben Taleb
,
L.
,
Mouhsen
,
A.
,
Harmouchi
,
M.
,
Rattal
,
M.
,
Lyazidi
,
A.
, and
Mouhsen
,
A.
, 2017
, “
Conception et Réalisation D'un Nouveau Modèle du Poumon Artificiel Actif
,” MA 38842 A1.Copyright © 2020 by ASME
You do not currently have access to this content.
