Journal Information
Vol. 21. Issue 5.
Pages 225-233 (September - October 1985)
Share
Share
Download PDF
More article options
Vol. 21. Issue 5.
Pages 225-233 (September - October 1985)
Full text access
Medicion del volumen de tejido y flujo capilar pulmonar mediante tecnicas de dilucion de gases inertes solubles
Measurement of pulmonary tissue and capillary flow by soluble inert gasses dilution
Visits
4512
J.A. Barbera Mir, N. Gonzalez Mangado
Servicio de Neumología. Sección de Fisiopatología. Fundación Jiménez Díaz. Av. Reyes Católicos, 2 (Ciudad Universitaria). 28040 Madrid
This item has received
Article information
Abstract
Bibliography
Download PDF
Statistics

Se revisan las técnicas de medición del volumen de tejido pulmonar y flujo capilar pulmonar mediante la dilución de gases inertes solubles. Partiendo de los trabajos iniciales en que la medición se efectuaba a partir de maniobras de respiración única, últimamente se han desarrollado métodos que utilizan maniobras de reinhalación, más fácilmente realizables, siendo preciso el empleo de espectrómetros de masas de respuesta rápida. Se discuten los resultados obtenidos con los métodos de reinhalación, así como los distintos parámetros influyentes en la medición y las perspectivas de utilización de la técnica.

The methods used for the measurement of pulmonary tissue and capillary flow by soluble inert gasses dilution are reviwed.

Recently new techniques have been developed which use reinhalation maneuvers and are easier to use (with the aid of a mass spectrometer for rapid response measurement) than older methods based on single respiration maneuvers.

The results obtained with the reinhalation methods are examined as are different parameters influencing measurement and future perspectives for the technique.

Full text is only aviable in PDF
Bibliografia
[1.]
F.J.W. Roughton, R.E. Forster.
Relative importance of diffusion and Chemical reaction rates in determining rate of exchange of gases in the human lung, with special reference to true diffusing capacity of pulmonary membrane and volume of blood in the lung capillaries.
J Appl Physiol, 11 (1957), pp. 290-302
[2.]
L. Cander, R.E. Forster.
Determination of pulmonary parenchymal tissue volume and pulmonary capillary blood flow in man.
J Appl Physiol, 14 (1959), pp. 541-551
[3.]
W.L. Hall, R.W. Hyde, H.H. Borgstedt, R.E. Kilpper.
Determination of pulmonary parenchymal tissue volume of the human lung by rebreathing dimethyl ether and acetylene (Abstract).
Federation Proc, 31 (1972), pp. 348
[4.]
M.A. Sackner, D. Greeneltch, M.S. Heiman, S. Epstein, N. Atkins.
Diffusing capacity, membrane diffusing capacity, capillary blood volume, pulmonary tissue volume, and cardiac output measured by a rebreathing technique.
Am Rev Respir Dis, 111 (1975), pp. 157-165
[5.]
B.T. Peterson, M.F. Petrini, R.W. Hyde, B.F. Schreiner.
Pulmonary tissue volume in dogs during pulmonary edema.
J Appl Physiol, 44 (1978), pp. 782-795
[6.]
M.F. Petrini, B.T. Peterson, R.W. Hyde.
Lung tissue volume and blood flow by rebreathing: theory.
J Appl Physiol, 44 (1978), pp. 795-802
[7.]
A. Krogh, J. Lindhard.
Measurement of the blood flow through the lungs of man.
Scandinav Arch Physiol, 27 (1912), pp. 100-125
[8.]
A. Grollman.
Determination of cardiac output of man by use of acetylene.
Am J Physiol, 88 (1929), pp. 432-445
[9.]
I. Starr, J.S. Donald, A. Margolies, R. Shaw, L.H. Collins, C.J. Gamble.
Studies of the heart and circulation on disease; estimation of basal cardiac output, metabolism, heart size and blood presure in 235 subjects.
J Clin Invest, 13 (1934), pp. 561-592
[10.]
T.S. Kim, H. Rahn, L. Farhi.
Estimation of true venous and arterial PCO2 by gas analysis of a single-breath.
J Appl Physiol, 21 (1966), pp. 1338-1344
[11.]
P. Cerretelli, R. Sikand, L.E. Farhi.
Readjustements in cardiac output and gas exchange during onset of exercise and recovery.
J Appl Physiol, 21 (1966), pp. 1345-1350
[12.]
H. Chen, N.P. Silverton, R. Hainsworth.
Evaluation of a method for estimating cardiac output from a single breath in humans.
J Appl Physiol, 53 (1982), pp. 1034-1038
[13.]
R. Gilbert, J.H. Auchincloss.
Comparaison of single breath and indicator-dilution measurement of cardiac output.
J Appl Physiol, 29 (1970), pp. 119-122
[14.]
M.P. Hedestale, B. Wranne, C.J. Lenfort.
Single breath method of measuring cardiac output, a reevaluation.
J Appl Physiol, 33 (1972), pp. 846-848
[15.]
E. Zeidifard, S. Godfrey, E.E. Davies.
Estimation of cardiac output by a N2O rebreathing method in adults and children.
J Appl Physiol, 41 (1976), pp. 433-438
[16.]
M.A. Sackner, K.A. Feisal, A.B. DuBois.
Determination of tissue volume and carbon dioxide dissociation slope of the lungs in man.
J Appl Physiol, 19 (1964), pp. 374-380
[17.]
P. Chinard, T. Ems, M.F. Noden.
Pulmonary extravascular water volumes from transit time and slope data.
J Appl Physiol, 17 (1962), pp. 179-183
[18.]
J.D. Cooper, N.J. McCullough, E. Lowenstein.
Determination of pulmonary extravascular water using oxygen 15labeled water.
J Appl Physiol, 33 (1972), pp. 842-845
[19.]
B.E. Marshall, R.L. Teicher, T. Kallus, H.J. Sugerman, M.Q. Wyche, K.R. Tantum.
Effects of posture and exercise on the pulmonary extravascular water volume in man.
J Appl Physiol, 31 (1971), pp. 375-379
[20.]
N. González Mangado.
El análisis por espectrometría de masas: principios básicos, métodos e indicaciones clínicas.
(1984),
[21.]
V. Elkayam, A.F. Wilson, J. Morrison, et al.
Non-invasive mesurement of cardiac output by a single-breath constant expiratory technique.
Thorax, 39 (1984), pp. 107-113
[22.]
R.J. Farney, A.H. Morris, R.M. Gardner, J.D. Armstrong.
Rebreathing pulmonary capillary and tissue volume in normals after saline infusion.
J Appl Physiol, 43 (1977), pp. 246-253
[23.]
M. Friedman, K.L. Kovitz, S.D. Miller, M. Marks, M.A. Sackner.
Hemodynamics in teenagers and asthmatic children during exercise.
J Appl Physiol, 46 (1979), pp. 293-297
[24.]
M.A. Sackner, G. Markwell, N. Atkins, S.J. Birch, R.J. Fernández.
Rebreathing techniques for pulmonary capillary blood flow and tissue volume.
J Appl Physiol, 49 (1980), pp. 910-915
[25.]
E.S. Overland, R.N. Gupta, G.J. Huchon, J.F. Murray.
Measurements of pulmonary tissue volume and blood flow in persons with normal and edematous lungs.
J Appl Physiol, 51 (1981), pp. 1375-1383
[26.]
M.F. Petrini, T.M. Dwyer, M.S. Phillips.
A computerized timing algorithm for determination of pulmonary tissue volume.
J Appl Physiol, 55 (1983), pp. 258-262
[27.]
R.O. Crapo, A.H. Morris, R.M. Gardner, R.N. Schaap.
Computation techniques for rebreathing lung tissue volume and pulmonary capillary blood flow.
J Appl Physiol, 52 (1982), pp. 1375-1377
[28.]
M. Friedman, S.H. Kaufman, S.A. Wilkins.
Analysis of rebreathing measurements of pulmonary tissue volume in pulmonary edema.
J Appl Physiol, 48 (1980), pp. 66-71
[29.]
C. Hook, M. Meyer, Pulmonary blood flow.
diffusing capacity and tissue volume by rebreathing: theory.
Respir Physiol, 48 (1982), pp. 255-279
[30.]
G.M. Burma, G.M. Saidel.
Pulmonary blood flow and tissue volume: model analysis of rebreathing estimation methods.
J Appl Physiol, 55 (1983), pp. 205-211
[31.]
M.F. Petrini, B.T. Peterson, R.W. Hyde, V. Lam, M.J. Utell, M.C. Kallay.
Uneven gas mixing during rebreathing assessed by simultaneously measuring dead space.
J Appl Physiol, 53 (1982), pp. 930-939
[32.]
J.A. Barberá.
Comportamiento de los gases en la fase gaseosa; mezclado y estratificación, principios básicos.
(1984),
[33.]
F.L. Glauser, A.F. Wilson.
Pulmonary parenchymal tissue volume in normal subjects: the effect of age and sex.
Chest, 72 (1977), pp. 207-212
[34.]
N. González Mangado, J.A. Barberá, J. Vallejo, F. Lahoz.
Determinación del volumen de tejido y flujo sanguíneo pulmonar con C2H2 y DME (técnica de Petrini).
Arch Bronconeumol, 20 (1984), pp. 15-16
[35.]
J.A. Barberá Mir, N. González Mangado, J. Vallejo, F. Lahoz.
Determinación del volumen de tejido y flujo sanguíneo pulmonar con C2H2 y C180 (técnica de Sackner).
Arch Bronconeumol, 20 (1984), pp. 15
[36.]
M.E. Reinhart, J.R. Hughes, M. Kung, et al.
Determination of pulmonary blood flow by the rebreathing technique in airflow obstruction.
Am Rev Respir Dis, 120 (1979), pp. 533-540
[37.]
R.O. Crapo, J.D. Crapo, A.H. Morris.
Lung tissue and capillary blood volumes by rebreathing and morphometric techniques.
Respir Physiol, 49 (1982), pp. 175-186
[38.]
J.H. Triebwasser, R.P. Burpo, J.C. Campbell, W.C. Reardon, R.L. Johnson, G. Blomqvist.
Noninvasive determination of cardiac output.
Am J Cardiol, 31 (1973), pp. 162
[39.]
F.L. Glauser, A.F. Wilson, M. Hoshiko, M. Watanabe, J. Davis.
Pulmonary parenchymal tissue (Vt) changes in pulmonary edema.
J Appl Physiol, 36 (1974), pp. 648-652
[40.]
F.L. Glauser, A.F. Wilson, L. Carothers, J. Higi, D. White, J. Davis.
Pulmonary parenchymal tissue volume measurements in graded degrees of pulmonary edema in dogs.
Circ Res, 36 (1975), pp. 229-235
[41.]
M. Friedman, J.M. Gallo, H.P. Nichols, P.A. Bromberg.
Changes in inert gas rebreathing parameters after ozone exposure in dogs.
Am Rev Respir Dis, 128 (1983), pp. 851-856
[42.]
J.T. Morrison, A.F. Wilson, N.D. Vaziri, L. Brunsting, J. Davis.
Determination of pulmonary tissue volume, pulmonary capillary blood flow and diffusing capacity of the lung before and after hemodialysis.
Int J Artif Organs, 3 (1980), pp. 259-262
[43.]
J. Sastre, G. Renedo, N. González Mangado, et al.
Ceroidosis pulmonar.
Arch Bronconeumol, 20 (1984), pp. 30-31
Copyright © 1985. Sociedad Española de Neumología y Cirugía Torácica
Archivos de Bronconeumología
Article options
Tools

Are you a health professional able to prescribe or dispense drugs?