Journal Information
Vol. 28. Issue 8.
Pages 383-387 (November - December 1992)
Vol. 28. Issue 8.
Pages 383-387 (November - December 1992)
Full text access
Monitorización del CO2 espirado en la evaluación del paciente con insuficiencia respiratoria aguda
Visits
5566
Ll. Blanch, R. Fernández, A. Artigas
Servei de Medicina Intensiva. Hospital de Sabadell. Sabadell
This item has received
Article information
Full text is only aviable in PDF
Bibliografía
[1.]
J.V. Snyder, J.L. Elliot, A. Grenvik.
Capnography.
Respiratory monitoring in intensive care, pp. 100-121
[3.]
D. Hess.
Capnometry and capnography: technical aspects, physiologic aspects, and clinical applications.
Respir Care, 35 (1990), pp. 557-576
[4.]
M.J. Tobin.
Respiratory monitoring in the intensive care unit.
Am Rev Respir Dis, 138 (1988), pp. 1625-1642
[5.]
Ll. Blanch.
Capnography.
Pulmonary function studies in mechanically ventilated patients. Update in intensive care and emergency medicine vol. 13, pp. 251-266
[6.]
J.W.W. Gothard, C.M. Busst, M.A. Branthwaite, N.J.H. Davies, D.M. Denison.
Applications of respiratory mass spectrometry to intensive care.
Anaesthesia, 35 (1980), pp. 890-895
[7.]
N.K. Burki, R.K. Albert.
Noninvasive monitoring of arterial blood gases.
Chest, 83 (1983), pp. 666-670
[8.]
G.C. Carlon, C. Ray, S. Miodownik, I. Kopec, J.S. Groeger.
Capnography in mechanically ventilated patients.
Crit Care Med, 16 (1988), pp. 550-556
[9.]
J.F. Nunn, D.W. Hill.
Respiratory dead space and arterial to end-tidal CO2 tension difference in anesthetized man.
J Appl Physiol, 15 (1960), pp. 383-389
[10.]
S.G.E. Lindhal, A.P. Yates, D.J. Hatch.
Relationship between invasive and noninvasive measurement of gas exchange in anesthetized infants and children.
Anesthesiology, 66 (1987), pp. 168-175
[11.]
R. Whitessel, C. Asiddao, D. Gollman, et al.
Relationship between arterial and peak expired carbon dioxide pressure during anesthesia and factors influencing the difference.
Anesth Analg, 60 (1981), pp. 508-512
[12.]
F. Perrin, D. Perrot, L. Holzapfel, et al.
Simultaneous variations of PaCO2 and PACO2 in assisted ventilation.
Br J Anaesth, 55 (1983), pp. 525-530
[13.]
D.B. Raemer, D. Francis, J.H. Phiplip, et al.
Variation in PCO2 between arterial blood and peak expired gas during anesthesia.
Anesth Analg, 62 (1983), pp. 1065-1069
[14.]
R.A. Hoffman, B.P. Krieger, M.R. Kramer, et al.
End-tidal carbon dioxide in critically ill patients during changes in mechanical ventilation.
Am Rev Respir Dis, 140 (1989), pp. 1265-1268
[15.]
C. Chopin, P. Fesard, J. Mangalaboyi, et al.
Use of capnography in diagnosis of pulmonary embolism during acute respiratory failure of chronic obstructive pulmonary disease.
Crit Care Med, 18 (1990), pp. 353-357
[16.]
L.L. Blanch, R. Fernandez, S. Benito, J. Mancebo, A. Net.
Effect of PEEP on the arterial minus end-tidal carbón dioxide gradient.
Chest, 92 (1987), pp. 451-454
[17.]
J.K. Stoller.
Respiratory effects of positive end-expiratory pressure.
Respir Care, 33 (1988), pp. 454-463
[18.]
R.L. Coffey, R.K. Albert, H.T. Robertson.
Mechanisms of physiological dead space response to PEEP after acute oleic acid lung injury.
J Appl Physiol, 55 (1983), pp. 1550-1557
[19.]
P.E. Pepe, J.J. Marini.
Occult positive end-expiratory pressure in mechanically ventilated patients with airflow obstruction.
Am Rev Dis, 126 (1982), pp. 166-170
[20.]
S.B. Gottfried, A. Rossi, J. Milic-Emili.
Dynamic hyperinflation, intrinsic PEEP, and the mechanically ventilated patient.
Intensive & Critical Care Digest, 5 (1986), pp. 30-33
[21.]
Blanch Ll, Fernandez R, Romero PV. Hiperinsuflación pulmonar dinámica en el enfermo crítico. Med Clin (Barc) (en prensa). in press.
[22.]
L.L. Blanch, R. Fernandez, A. Artigas.
The effects of autoPEEP on the PaCO2-PetCO2, gradient and expired CO2 slope in critically ill patients during total ventilatory support.
J Crit Care, 6 (1991), pp. 202-210
[23.]
J.F. Nunn.
Applied respiratory physiology.
3.a, Butterworths, (1987),
[24.]
T.C. Smith, J.J. Marini.
Impact of PEEP on lung mechanics and work of breathing in severe airflow obstruction.
J Appl Physiol, 65 (1988), pp. 1488-1499
[25.]
R. Fernandez, F. Baigorri, L.L. Blanch, A. Marín, A. Artigas.
AutoPEEP favoured by weakness of the posterior wall of the trachea.
Chest, 102 (1992), pp. 655-656
[26.]
L. Dal Vecchio, G. Polese, R. Poggi, A. Rossi.
Intrinsic positive end-expiratory pressure in stable patients with chronic obstructive pulmonar disease.
Eur Respir J, 3 (1990), pp. 74-80
[27.]
M. Bernasconi, R. Brandolese, R. Poggi, E. Manzin, A. Rossi.
Dose-response effects and time course of effects of inhaled fenoterol on respiratory mechanics and arterial oxygen tension in mechanically ventilated patients with chronic airflow obstruction.
Intensive Care Med, 16 (1990), pp. 108-114
[28.]
A. Fernández, A. Lázaro, A. García, C. Aragón, E. Cerda.
Bronchodilators in patients with chronic obstructive pulmonary disease on mechanical ventilation.
Am Rev Respir Dis, 141 (1990), pp. 164-168
[29.]
P.C. Gay, J.R. Rodarte, M. Tayyab, R.D. Hubmayr.
Evaluation of bronchodilator responsiveness in mechanically ventilated patients.
Am Rev Respir Dis, 136 (1987), pp. 880-885
[30.]
C.C. Davis, N.L. Jones, B.J. Sealey.
Measurements of cardiac output in seriously ill patients using a CO2 rebreathing method.
Chest, 73 (1978), pp. 167-172
[31.]
L.L. Blanch, S. Benito, J. Mancebo, N. Calaf, I. Caviedes, A. Net.
Determinación del gasto cardíaco por reinhalación de CO2.
Med Intensiva, 10 (1986), pp. 61-65
[32.]
L.L. Blanch, R. Fernandez, S. Benito, J. Mancebo, N. Calaf, A. Net.
Accuracy of an indirect carbon dioxide Fick method in determination of the cardiac output in critically ill mechanically ventilated patients.
Intensive Care Med, 14 (1988), pp. 131-135
[33.]
J.D. Truwit, J.J. Marini.
Evaluation of thoracic mechanics in the ventilated patients. Part 1: Primary measurements.
J Crit Care, 3 (1988), pp. 133-150
Copyright © 1992. Sociedad Española de Neumología y Cirugía Torácica