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Vol. 27. Issue 1.
Pages 8-12 (January - February 1991)
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Vol. 27. Issue 1.
Pages 8-12 (January - February 1991)
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Pulsioximetría durante la fibrobroncoscopia en pacientes con EPOC: su relación con el grado de obstrucción funcional
Pulsioximetry during fibrobronchoscopy in patients with COPD (chronic obstructive pulmonary disease): its relationship with the degree of functional obstruction
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J.A. Carretero Gracia, P. Val Adán, J.A. Domingo Morera, C. Sánchez Bellido, J.A. Pasamar Bonilla, J. Garcés Aranda
Hospital Royo Villanova, Zaragoza
J.M. Domingo Morera*
* Facultad de Medicina. Zaragoza
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Se ha monitorizado la saturación de oxígeno (SaO2) mediante pulsioximetría durante la práctica de una fibrobroncoscopia (FB) en 33 pacientes con EPOC y 12 controles para estudiar la relación entre la desaturación durante la misma y el patrón espirométrico obtenido previamente. Los pacientes con EPOC se clasificaron según su grado de obstrucción al flujo aéreo en dos grupos: 1) Pacientes con obstrucción de grado leve o moderado (FEV1≥ 50% pred.) y 2) pacientes con obstrucción de grado severo o muy severo (FEV1 < 50% pred.) La SaO2 basal de ambos grupos y de los controles osciló entre 94 y 95 °/o. Las SaO2 mínimas que alcanzaron fueron, respectivamente, 91,2% y 85,7%, siendo la de los controles 88%. Al final de la FB sólo el grupo con FEV1 < 50% pred mantenía una SaO2 similar a la mínima alcanzada, mientras que tanto el grupo 1 como el grupo control recuperaron valores de SaO2 similares a los iniciales. Consideramos conveniente identificar a estos pacientes con vistas a darles un aporte suplementario de oxígeno durante la FB.

Oxygen saturation (O2 Sa) measured by pulsioximetry was monitorized during bronchial endoscopy in 33 patients with chronic obstructive pulmonary disease (COPD) and in 12 Controls in order to correlate the levels of O2Sa with the spirometric pattern. According to the degree of air flow obstruction patients with COPD were classified into two groups: 1) patients with slight or moderate air flow obstruction (FEV1 ≥ 50% pred.), and 2) patients with severe air flow obstruction (FEV1 < 50% pred.)Baseline O2Sa in both groups of patients and in Controls ranged 94 and 95%. Minimal values for O2Sa were 91.2% in group 1, 85.7% in group 2, and 88% in Controls. At the end of bronchial endoscopy group 1 and Controls recovered baseline O2Sa values whereas in patients of group 2 O2Sa remained at the low range. We conclude that patients with severe air flow obstruction should be identifled in order to receive supplementary oxygen supply during bronchial endoscopy.

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Bibliografía
[1.]
S. Ikeda.
The flexible bronchofiberscope.
Keio Med J, 17 (1968), pp. 1-6
[2.]
M.A. Sackner.
Flexible bronchofiberoscopy.
Am Rev Respir Dis, 111 (1975), pp. 62-88
[3.]
S. Ikeda.
Flexible broncofiberscopy.
Ann Otol Rhinol Laryngol, 79 (1970), pp. 916-923
[4.]
P.M. Surrat, J.F. Smiddy, B. Gruber.
Deaths and complications associated with fiberoptic bronchoscopy.
Chest, 69 (1976), pp. 747-751
[5.]
W.J. Fulkerson.
Current concepts: fiberoptic bronchoscopy.
N Eng J Med, 311 (1984), pp. 511-515
[6.]
J.W. Sokolowski, L.W. Burgher, F.L. Jones, J.R. Patterson, P.A. Selecky.
ATS guidelines for fiberoptic bronchoscopy in adults.
Am Rev Respir Dis, 136 (1987), pp. 1.066
[7.]
W.F. Credle, J.F. Smiddy, R.C. Elliot.
Complications of fiberoptic bronchoscopy.
Am Rev Respir Dis, 109 (1974), pp. 67-72
[8.]
I. Blanco, L. Palenciano.
Influencia de la broncofibroscopia en los gases en sangre arterial.
Arch Bronconeumol, 12 (1975), pp. 76-78
[9.]
Ch. Dubrawsky, R.J. Awe, D.E. Jenkins.
The effect of bronchofiberscopic examination on oxygenation status.
Chest, 67 (1975), pp. 137-140
[10.]
R.E. Albertini, J.H. Harrell, N. Kurihara, K.M. Moser.
Arterial hipoxemia induced by fiberoptic bronchoscopy.
JAMA, 230 (1974), pp. 1.666-1.667
[11.]
L.M. Hernández Blasco, J.L. Guerra Vales, M.A. Juretschke Moragues, et al.
Medida no invasiva de la saturación arterial de oxígeno mediante pulsioximetría.
Arch Bronconeumol, 25 (1989), pp. 197-199
[12.]
O. Parra, J. Ruiz, M. Ricos, et al.
Monitorización de la saturación de la oxihemoglobina durante la fibrobroncoscopia.
Arch Bronconeumol, 24 (1988), pp. 24
[13.]
L.M. Hernández Blasco, V. Villena Garrido, C. Álvarez Martínez.
Monitorización no invasiva y continuada de la oxigenación arterial durante la broncofibroscopia.
Arch Bronconeumol, 25 (1989), pp. 247
[14.]
J. Castella, M.C. Puzo.
Indicaciones de las técnicas broncológicas. Complicaciones. Contraindicaciones.
Broncología, pp. 61-72
[15.]
R.G. Fraser, J.A. Peter Pare.
Enfermedades neoplásicas de los pulmones.
Diagnóstico de las enfermedades del Tórax. Tomo II, pp. 1.057-1.224
[16.]
J.B. West.
Enfermedades obstructivas.
Fisiopatología pulmonar, pp. 63-92
[17.]
Standars for the diagnosis, care of patients with chronic obstructive pulmonary disease (COPD), asthma.
American Thoracic Society, 136 (1987), pp. 225-243
[18.]
J. Sanchís Aldás, P. Casan Clara, J. Castillo Gómez, N. González Mangado, L. Palenciano Ballesteros, J. Roca Torrent.
Grupo de trabajo para la práctica de la espirometría en clínica. Normativa para la práctica de la espirometría forzada.
Arch Bronconeumol, 25 (1989), pp. 132-142
[19.]
Standardized lung function testing. Report working party “Standardization of lung function tests”.
Ph H.Quanjer. Eur Com Coal and Steel, 19 (1983), pp. 22-27
[20.]
B.A. Chaudhary, N.K. Burki.
Ear oximetry in clinical practice.
Am Rev Respir Dis, 117 (1978), pp. 173-175
[21.]
J.W. Severinghaus.
Historical development of oxigenation monitoring.
Pulse oximetry, pp. 1-18
[22.]
K.K. Tremper, S.J. Barker.
Pulse oximetry and oxygen transport.
Pulse oximetry, pp. 19-27
[23.]
N.A. Saunders, A.C.P. Powles, A.S. Rebuck.
Ear oximetry: accuracy and practicability in the assessment of arterial oxygenation.
Am Rev Respir Dis, 113 (1976), pp. 745-749
[24.]
D.M. Kagle, C.H.M. Alexander, R.S. Berko, M. Giuffre, J.B. Gross.
Evaluation of the Ohmeda 3700 pulse oximeter: Steady-state and transient response characteristics.
Anaesthesiology, 66 (1987), pp. 376-380
[25.]
M. Yelderman, W. New.
Evaluation of pulse oximetry.
Anaesthesiology, 59 (1983), pp. 349-352
[26.]
A.L. Ries, L.M. Prewitt, J. Johnson.
Skin color and ear oximetry.
Chest, 96 (1989), pp. 287-290
[27.]
J.E. Hansen, R. Casaburi.
Validity of ear oximetry in clinical exercise testing.
Chest, 91 (1987), pp. 333-337
[28.]
S.K. Powers, S. Dold, J. Freeman, G.D. Ayers, H. Samson, T. McKnight.
Accuracy of pulse oximetry to estimate HbO2 fraction of total Hb during excercise.
J Appl Physiol, 67 (1989), pp. 300-304
[29.]
American Thoracic Society.
Medical Section of the American Lung Association. Indications and standars for cardiopulmonary sleep studies.
Am Rev Respir Dis, 139 (1989), pp. 559-568
[30.]
F.E. Cardenas.
Non invasive oximetry during anaesthesia, pp. 79-81
[31.]
W.T. Cecil, M.T. Petterson, S. Lamoonpun, C.D. Rudolp.
Clinical evaluation of the Biox IIA ear oximeter in the critical care environment.
Respir Care, 30 (1985), pp. 179-183
[32.]
J.A. Golish, K. McVarthy.
Oximeters.
Chest, 94 (1988), pp. 1.110-1.111
[33.]
K.K. Tremper, C. Irvine, B. Nickerson.
Oximeters.
Chest, 94 (1988), pp. 1.111-1.112
[34.]
K.K. Tremper.
Pulse oximetry.
Chest, 95 (1989), pp. 713-715
[35.]
A.L. Ries, J.T. Farow, J.L. Clausen.
Accuracy of two ear oximeters at rest and during exercise in pulmonary patients.
Am Rev Respir Dis, 132 (1985), pp. 685-689
[36.]
N.J. Douglas, J.M. Brah, P.K. Wratth, et al.
Accuracy, sensitivity to carboxyhaemoglobin and speed of response of the HewlettPackard 47201 ear oximeter.
Am Rev Respir Dis, 119 (1979), pp. 311-313
[37.]
S.T. Weis, I.B. Tager, M. Schenker, F.E. Speizer.
The health effects of involuntary smoking.
Am Rev Respir Dis, 128 (1983), pp. 933-942
[38.]
R. Albertini, J.H. Harrel, K.M. Moser.
Hypoxemia during fiberoptic bronchoscopy.
Chest, 65 (1974), pp. 117
[39.]
E.G. King.
Hypoxemia during fiberoptic bronchoscopy.
Chest, 65 (1974), pp. 117-118
[40.]
E.J. Kleinholz, J. Fusell.
McBrayer. Arterial blood gases studies during fiberoptic bronchoscopy.
Am Rev Respir Dis, 108 (1973), pp. 1.014
[41.]
A.S. Katz, E.L. Michelson, J. Stawicki, F.D. Holdford.
Cardiac arrhytmias. Frecuency during fiberoptic bronchoscopy.
Arch Intern Med, 141 (1981), pp. 603-606
[42.]
B.B. Brach, G.G. Escano, J.H. Harrell, K.M. Moser.
Ventilationperfusion alterations induced by fiberoptic bronchoscopy.
Chest, 69 (1976), pp. 335-337
[43.]
Y. Matsushima, R.L. Jones, E.G. King, J. Mouysa, J.D.M. Alton.
Alterations in pulmonary mechanics and gas exchange during routine fiberoptic bronchoscopy.
Chest, 86 (1984), pp. 184-188
[44.]
J.W. Severinghaus.
Simple, accurate equations for human blood O2 dissociation computations.
J Appl Physiol, 46 (1979), pp. 599-602
[45.]
B.G. Salisbury, L.F. Metzger, M.D. Altose, N.N. Stanley, N.S. Cherniack.
Effect of fiberoptic bronchoscopy on respiratory performance in patients with chronic obstructive pulmonary disease.
Thorax, 30 (1975), pp. 441-446
[46.]
J.H. Harrell.
Fibrobroncoscopia.
Problemas clínicos en Neumología, pp. 31-35
Copyright © 1991. Sociedad Española de Neumología y Cirugía Torácica
Archivos de Bronconeumología
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