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Items: 1 to 20 of 110

1.

The effect of applied chest compression force on systemic arterial pressure and end-tidal carbon dioxide concentration during CPR in human beings.

Ornato JP, Levine RL, Young DS, Racht EM, Garnett AR, Gonzalez ER.

Ann Emerg Med. 1989 Jul;18(7):732-7.

PMID:
2500044
2.

Effect of cardiopulmonary resuscitation compression rate on end-tidal carbon dioxide concentration and arterial pressure in man.

Ornato JP, Gonzalez ER, Garnett AR, Levine RL, McClung BK.

Crit Care Med. 1988 Mar;16(3):241-5. Review.

PMID:
3125005
3.

Dose-dependent vasopressor response to epinephrine during CPR in human beings.

Gonzalez ER, Ornato JP, Garnett AR, Levine RL, Young DS, Racht EM.

Ann Emerg Med. 1989 Sep;18(9):920-6.

PMID:
2504083
4.

A study of chest compression rates during cardiopulmonary resuscitation in humans. The importance of rate-directed chest compressions.

Kern KB, Sanders AB, Raife J, Milander MM, Otto CW, Ewy GA.

Arch Intern Med. 1992 Jan;152(1):145-9.

PMID:
1728910
5.

End-tidal carbon dioxide concentration during cardiopulmonary resuscitation.

Falk JL, Rackow EC, Weil MH.

N Engl J Med. 1988 Mar 10;318(10):607-11.

PMID:
3125432
6.

Use of end-tidal carbon dioxide to predict outcome in prehospital cardiac arrest.

Wayne MA, Levine RL, Miller CC.

Ann Emerg Med. 1995 Jun;25(6):762-7.

PMID:
7755197
7.

Observations of hemodynamics during human cardiopulmonary resuscitation.

Chandra NC, Tsitlik JE, Halperin HR, Guerci AD, Weisfeldt ML.

Crit Care Med. 1990 Sep;18(9):929-34.

PMID:
2394116
8.

Expired PCO2 as a prognostic indicator of successful resuscitation from cardiac arrest.

Sanders AB, Ewy GA, Bragg S, Atlas M, Kern KB.

Ann Emerg Med. 1985 Oct;14(10):948-52.

PMID:
3929653
9.
12.

End-tidal carbon dioxide during out-of-hospital cardiac arrest resuscitation: comparison of active compression-decompression and standard CPR.

Orliaguet GA, Carli PA, Rozenberg A, Janniere D, Sauval P, Delpech P.

Ann Emerg Med. 1995 Jan;25(1):48-51.

PMID:
7802369
13.

End tidal carbon dioxide as an haemodynamic determinant of cardiopulmonary resuscitation in the rat.

von Planta M, von Planta I, Weil MH, Bruno S, Bisera J, Rackow EC.

Cardiovasc Res. 1989 Apr;23(4):364-8.

PMID:
2512010
14.

Aortic and right atrial pressures during standard and simultaneous compression and ventilation CPR in human beings.

Martin GB, Carden DL, Nowak RM, Lewinter JR, Johnston W, Tomlanovich MC.

Ann Emerg Med. 1986 Feb;15(2):125-30.

PMID:
3946853
15.

[End-tidal carbon dioxide concentration during cardiopulmonary resuscitation in patients with pre-hospital cardiac arrest].

Morisaki H, Takino Y, Kobayashi H, Ando Y, Ichikizaki K.

Masui. 1991 Jul;40(7):1048-51. Japanese.

PMID:
1920777
16.

A new device producing manual sternal compression with thoracic constraint for cardiopulmonary resuscitation.

Niemann JT, Rosborough JP, Kassabian L, Salami B.

Resuscitation. 2006 May;69(2):295-301. Epub 2006 Feb 2.

PMID:
16457933
17.

Cardiac output and end-tidal carbon dioxide.

Weil MH, Bisera J, Trevino RP, Rackow EC.

Crit Care Med. 1985 Nov;13(11):907-9.

PMID:
3931979
18.

Efficacy of chest compressions directed by end-tidal CO2 feedback in a pediatric resuscitation model of basic life support.

Hamrick JL, Hamrick JT, Lee JK, Lee BH, Koehler RC, Shaffner DH.

J Am Heart Assoc. 2014 Apr 14;3(2):e000450. doi: 10.1161/JAHA.113.000450.

19.

A comparison of chest compressions between mechanical and manual CPR by monitoring end-tidal PCO2 during human cardiac arrest.

Ward KR, Menegazzi JJ, Zelenak RR, Sullivan RJ, McSwain NE Jr.

Ann Emerg Med. 1993 Apr;22(4):669-74.

PMID:
8457093
20.

Augmentation of cerebral perfusion by simultaneous chest compression and lung inflation with abdominal binding after cardiac arrest in dogs.

Koehler RC, Chandra N, Guerci AD, Tsitlik J, Traystman RJ, Rogers MC, Weisfeldt ML.

Circulation. 1983 Feb;67(2):266-75.

PMID:
6848216

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