2 research outputs found

    Volumetric Capnography For The Evaluation Of Chronic Airways Diseases

    Get PDF
    Background: Obstructive lung diseases of different etiologies present with progressive peripheral airway involvement. The peripheral airways, known as the silent lung zone, are not adequately evaluated with conventional function tests. The principle of gas washout has been used to detect pulmonary ventilation inhomogeneity and to estimate the location of the underlying disease process. Volumetric capnography (VC) analyzes the pattern of CO2elimination as a function of expired volume.Objective: To measure normalized phase 3 slopes with VC in patients with non-cystic fibrosis bronchiectasis (NCB) and in bronchitic patients with chronic obstructive pulmonary disease (COPD) in order to compare the slopes obtained for the groups.Methods: NCB and severe COPD were enrolled sequentially from an outpatient clinic (Hospital of the State University of Campinas). A control group was established for the NCB group, paired by sex and age. All subjects performed spirometry, VC, and the 6-Minute Walk Test (6MWT). Two comparisons were made: NCB group versus its control group, and NCB group versus COPD group. The project was approved by the ethical committee of the institution. Statistical tests used were Wilcoxon or Student’s t-test; P,0.05 was considered to be a statistically significant difference.Results: Concerning the NCB group (N=20) versus the control group (N=20), significant differences were found in body mass index and in several functional variables (spirometric, VC, 6MWT) with worse results observed in the NCB group. In the comparison between the COPD group (N=20) versus the NCB group, although patients with COPD had worse spirometric and 6MWT values, the capnographic variables mean phase 2 slope (Slp2), mean phase 3 slope normalized by the mean expiratory volume, or mean phase 3 slope normalized by the end-tidal CO2concentration were similar.Conclusion: These findings may indicate that the gas elimination curves are not sensitive enough to monitor the severity of structural abnormalities. The role of normalized phase 3 slope may be worth exploring as a more sensitive index of small airway disease, even though it may not be equally sensitive in discriminating the severity of the alterations.9983989Robinson, P.D., Goldman, M.D., Gustafsson, P.M., Inert gas washout: Theoretical background and clinical utility in respiratory disease (2009) Respiration, 78 (3), pp. 339-355Ribeiro, M., Silva, M.T., Ribeiro, J.D., Volumetric capnography as a tool to detect early peripheric lung obstruction in cystic fibrosis patients (2012) J Pediatr (Rio J), 88 (6), pp. 509-517Almeida, C.C., Almeida-JĂșnior, A.A., Ribeiro, M.A., Nolasco-Silva, M.T., Ribeiro, J.D., Volumetric capnography to detect ventilation inhomogeneity in children and adolescents with controlled persistent asthma (2011) J Pediatr (Rio J), 87 (2), pp. 163-168Veronez, L., Moreira, M.M., Soares, S.T., Volumetric capnography for the evaluation of pulmonary disease in adult patients with cystic fibrosis and noncystic fibrosis bronchiectasis (2010) Lung, 188 (3), pp. 263-268Moreira, M.M., Terzi, R.G., Carvalho, C.H., de Oliveira Neto, A.F., Pereira, M.C., Paschoal, I.A., Alveolar dead space and capnographic variables before and after thrombolysis in patients with acute pulmonary embolism (2009) Vasc Health Risk Manag, 5 (1), pp. 9-12Moreira, M.M., Terzi, R.G., Paschoal, I.A., Martins, L.C., Oliveira, E.P., FalcĂŁo, A.L., Thrombolysis in massive pulmonary embolism based on the volumetric capnography (2010) Arq Bras Cardiol, 95 (4), pp. e97-e99Pereira, D.J., Moreira, M.M., Paschoal, I.A., Martins, L.C., Metze, K., Moreno Junior, H., Near-fatal pulmonary embolism in an experimental model: Hemodynamic, gasometric and capnographic variables (2011) Rev Bras Cir Cardiovasc, 26 (3), pp. 462-468Schwardt, J.D., Gobran, S.R., Neufeld, G.R., Aukburg, S.J., Scherer, P.W., Sensitivity of CO2 washout to changes in acinar structure in a single-path model of lung airways (1991) Ann Biomed Eng, 19 (6), pp. 679-697Schreiner, M.S., Leksell, L.G., Gobran, S.R., Hoffman, E.A., Scherer, P.W., Neufeld, G.R., Microemboli reduce phase III slopes of CO2 and invert phase III slopes of infused SF6 (1993) Respir Physiol, 91 (2-3), pp. 137-154Vestbo, J., Hurd, S.S., AgustĂ­, A.G., Global strategy for the diagnosis, management, and prevention of chronic obstructive pulmonary disease: GOLD executive summary (2013) Am J Respir Crit Care Med, 187 (4), pp. 347-365ATS statement: Guidelines for the six-minute walk test (2002) Am J Respir Crit Care Med, 166 (1), pp. 111-117. , ATS Committee on Proficiency Standards for Clinical Pulmonary Function LaboratoriesPrĂ©faut, C., Durand, F., Mucci, P., Caillaud, C., Exercise-induced arterial hypoxaemia in athletes: A review (2000) Sports Med, 30 (1), pp. 47-61Pereira, C.A., Sato, T., Rodrigues, S.C., New reference values for forced spirometry in white adults in Brazil (2007) J Bras Pneumol, 33 (4), pp. 397-406Cosio, M., Ghezzo, H., Hogg, J.C., The relations between structural changes in small airways and pulmonary-function tests (1978) N Engl J Med, 298 (23), pp. 1277-1281Stănescu, D.C., Rodenstein, D.O., Hoeven, C., Robert A. “Sensitive tests” are poor predictors of the decline in forced expiratory volume in one second in middle-aged smokers (1987) Am Rev Respir Dis, 135 (3), pp. 585-590Buist, A.S., Vollmer, W.M., Johnson, L.R., McCamant, L.E., Does the single-breath N2 test identify the smoker who will develop chronic airflow limitation? (1988) Am Rev Respir Dis, 137 (2), pp. 293-301Verbanck, S., Schuermans, D., Meysman, M., Paiva, M., Vincken, W., Noninvasive assessment of airway alterations in smokers: The small airways revisited (2004) Am J Respir Crit Care Med, 170 (4), pp. 414-419Verbanck, S., Schuermans, D., Paiva, M., Vincken, W., Nonreversible conductive airway ventilation heterogeneity in mild asthma (2003) J Appl Physiol (1985), 94 (4), pp. 1380-1386Verbanck, S., Paiva, M., Schuermans, D., Malfroot, A., Vincken, W., Vanderhelst, E., Acinar and conductive ventilation heterogeneity in severe CF lung disease: Back to the model (2013) Respir Physiol Neurobiol, 188 (2), pp. 124-132Verbanck, S., Schuermans, D., Van Muylem, A., Conductive and acinar lung-zone contributions to ventilation inhomogeneity in COPD (1998) Am J Respir Crit Care Med, 157 (5), pp. 1573-1577Verbanck, S., Thompson, B.R., Schuermans, D., Ventilation heterogeneity in the acinar and conductive zones of the normal ageing lung (2012) Thorax, 67 (9), pp. 789-795Hogg, J.C., Timens, W., The pathology of chronic obstructive pulmonary disease (2009) Annu Rev Pathol, 4, pp. 435-459McDonough, J.E., Yuan, R., Suzuki, M., Small-airway obstruction and emphysema in chronic obstructive pulmonary disease (2011) N Engl J Med, 365 (17), pp. 1567-1575Tiddens, H.A., Donaldson, S.H., Rosenfeld, M., ParĂ©, P.D., Cystic fibrosis lung disease starts in the small airways: Can we treat it more effectively? (2010) Pediatr Pulmonol, 45 (2), pp. 107-117Matsui, H., Grubb, B.R., Tarran, R., Evidence for periciliary liquid layer depletion, not abnormal ion composition, in the pathogenesis of cystic fibrosis airways disease (1998) Cell, 95 (7), pp. 1005-1015Boucher, R.C., Relationship of airway epithelial ion transport to chronic bronchitis (2004) Proc Am Thorac Soc, 1 (1), pp. 66-70Randell, S.H., Boucher, R.C., Effective mucus clearance is essential for respiratory health (2006) Am J Respir Cell Mol Biol, 35 (1), pp. 20-28. ,University of North Carolina Virtual Lung GroupSvartengren, K., Philipson, K., Svartengren, M., Nerbrink, O., Camner, P., Clearance in smaller airways of inhaled 6-microm particles in subjects with immotile-cilia syndrome (1995) Exp Lung Res, 21 (5), pp. 667-682Kang, E.Y., Miller, R.R., MĂŒller, N.L., Bronchiectasis: Comparison of preoperative thin-section CT and pathologic findings in resected specimens (1995) Radiology, 195 (3), pp. 649-654Reid, L.M., Reduction in bronchial subdivision in bronchiectasis (1950) Thorax, 5 (3), pp. 233-247Dutrieue, B., Vanholsbeeck, F., Verbanck, S., Paiva, M., A human acinar structure for simulation of realistic alveolar plateau slopes (2000) J Appl Physiol (1985), 89 (5), pp. 1859-1867Gustafsson, P.M., De Jong, P.A., Tiddens, H.A., Lindblad, A., Multiple-breath inert gas washout and spirometry versus structural lung disease in cystic fibrosis (2008) Thorax, 63 (2), pp. 129-134Horsley, A., Lung clearance index in the assessment of airways disease (2009) Respir Med, 103 (6), pp. 793-799Verbanck, S., Paiva, M., Schuermans, D., Hanon, S., Vincken, W., Van Muylem, A., Relationships between the lung clearance index and conductive and acinar ventilation heterogeneity (2012) J Appl Physiol (1985), 112 (5), pp. 782-79
    corecore