Pneumologie 2008; 62(3): 149-155
DOI: 10.1055/s-2007-996182
Übersicht
© Georg Thieme Verlag Stuttgart · New York

Studienendpunkte bei der chronisch-obstruktiven Lungenerkrankung (COPD): „Minimal Clinically Important Difference”[1]

Trial End-Point in Chronic Obstructive Pulmonary Disease (COPD): Minimal Clinically Important DifferenceA.  Gillissen1 , R.  Buhl2 , P.  Kardos3 , M.  Puhan4 , K.  F.  Rabe5 , T.  Rothe6 , R.  Sauer7 , T.  Welte8 , H.  Worth9 , G.  Menz6
  • 1Robert Koch-Klinik, Thoraxzentrum des Klinikums St. Georg Leipzig
  • 2Universitätskliniken Mainz, III. Med. Klinik, Schwerpunkt Pneumologie
  • 3Pneumologisch-allergologisches Zentrum, Maingau Krankenhaus, Frankfurt a.M.
  • 4Horten Zentrum, Universität Zürich, Schweiz
  • 5Dept. of Pulmonology, Leiden University Medical Center, Niederlande
  • 6Hochgebirgsklinik Davos, Schweiz
  • 7Pneumologie-Praxis Ulm
  • 8Klinik für Pneumologie, Medizinische Hochschule Hannover
  • 9Med. Klinik I, Klinikum Fürth
Further Information

Publication History

eingereicht 1.12.2007

akzeptiert 5.12.2007

Publication Date:
05 March 2008 (online)

Zusammenfassung

Ab welcher Veränderung bzw. ab welchem Schwellenwert bei klinischen für die COPD als bedeutungsvoll angesehenen Erfolgsparametern eine für den Patienten spürbare Verbesserung anzunehmen ist, kann in Ermangelung validierter Studienergebnisse häufig nur geschätzt werden. Mit der Festlegung des minimal für den Patienten bedeutsamen Unterschieds (minimal clinically important difference = MCID) wird versucht, die klinische Relevanz der in Studien beobachtbaren Verbesserungen einzelner Parameter festzulegen. Der MCID-Wert ist somit ein für den Patienten spürbarer Schwellenwert, der für jeden einzelnen Parameter separat festgelegt werden muss. Diese Übersicht schlägt für die in der Behandlung der COPD häufig verwendeten Erfolgsparameter MCID-Werte vor und diskutiert die damit verbundenen methodischen Schwierigkeiten.

Abstract

The concept of the minimal clinically important difference (MCID) is intended to provide a measure of relevance for a statistically applied in patients with COPD. Clinically important differences are those differences relevant to the individual patient and important to the patient's life. However, people's difference in a diagnostic parameter perception of what is important vary. Furthermore, physicians may rate the significance of a particular marker and its difference which can be achieved by a pharmacological intervention differently from the patient. Thus, the major problem with defining an MCID for any measure is that the most important differences, which require the most subtle measures for an individual patient, are likely to have the least general application. Conversely, measures that can be generalised are unlikely to have much individual importance and will be very crude tools for an individual assessment. In medical trials both, statistical rigor and clinical relevance are generally required, and MCID is without doubt a key application tool defining treatment success or treatment failure. This paper gives an update on the concept of a minimal important difference of most relevant parameters in COPD treatment.

1 Mit Unterstützung durch Astra Zeneca GmbH

Literatur

  • 1 Rolan P. The contribution of clinical pharmacology surrogates and models to drug development - a critical appraisal.  Br J Clin Pharmacol. 1997;  44 219-225
  • 2 Mannino D M, Watt G, Hole D. et al . The natural history of chronic obstructive pulmonary disease.  Eur Respir J. 2006;  27 627-643
  • 3 Larj M J, Bleeker E R. Therapeutic responses in asthma and COPD.  Corticosteroids Chest. 2004;  126 138S-149S
  • 4 Lapperre T S, Snoeck-Stroband J B, Gosman M M. et al . Dissociation of lung function and airway inflammation in chronic obstructive pulmonary disease.  Am J Respir Crit Care Med. 2004;  170 499-504
  • 5 Hogg J C, Chu F S, Sin D D. et al . Survival after lung volume reduction in chronic obstructive pulmonary disease insights from small airway pathology.  Am J Respir Crit Care Med. 2007;  176 454-459
  • 6 Agusti A. Systemic effects of chronic obstructive pulmonary disease. What we know and what we don't know (but should).  Proc Am Thorac Soc. 2007;  4 522-525
  • 7 Jones P W, Agusti A GN. Outcomes and markers in the assessment of chronic obstructive pulmonary disease.  Eur Respir J. 2006;  27 822-832
  • 8 Mahler D A, Criner G J. Assessment tools for chronic obstructive pulmonary disease. Do newer metrics allow for disease modification?.  Proc Am Thorac Soc. 2007;  4 507-511
  • 9 Sloan J A. Assessing the minimally clinically significant difference: scientific considerations, challenges and solutions.  COPD. 2005;  2 57-62
  • 10 Rennard S I. Minimal clincially important difference, clinical perspective: an opinion.  COPD. 2005;  2 51-55
  • 11 Schünemann H J, Guyatt G. Commentary - goodbye M(C)ID ! Hello MID, where do you come from?.  Health Serv Res. 2005;  40 593-597
  • 12 Jones P W, Aqusti A G. Outcome and markers in the assessment of chronic obstructive pulmonary disease.  Eur Respir J. 2006;  27 822-832
  • 13 Jones P W. St. George's respiratory questionnaire: MCID.  COPD. 2005;  2 75-79
  • 14 Gross N J. Outcome measurements in COPD, are we schizophrenic?.  Chest. 2003;  123 1325-1327
  • 15 Imfeld S, Bloch K E, Weder W. et al . The BODE index after lung volume reduction surgery correlates with survival.  Chest. 2006;  129 873-878
  • 16 Vestbo J, Prescott E, Almdal T P. et al . Body mass, fat-free body mass, and prognosis in patients with chronic obstrucitve pulmonary disease from a random population sample findings from the Coppenhagen City Heart Study.  Am J Respir Crit Care Med. 2006;  173 79-83
  • 17 Oga T, Nishimura K, Tsukino M. et al . Analysis fo the factors related to mortality in chronic obstructive pulmonary disease: role of exercise capacity and health status.  Am J Respir Crit Care Med. 2003;  167 544-549
  • 18 Martinez F J, Foster G, Curtis J L. et al . Predictors of mortality in patients with emphysema and severe airflow obstruction.  Am J Respir Crit Care Med. 2006;  173 1326-1334
  • 19 Meyer R J. U.S. regulatory perspective on the minimal clinically important difference in chronic obstructive pulmonary disease.  COPD. 2005;  2 47-49
  • 20 Kiley J P, Sri Ram J, Croxton T L. et al . Challenges association with estimating minimal clinically important differences in COPD - the NHLBI perspective.  COPD. 2005;  2 43-46
  • 21 Schünemann H J, Puhan M, Goldstein R. et al . Measurement properties and interpretability of the Chronic respiratory disease questionnaire (CRQ).  COPD. 2005;  2 81-89
  • 22 Schünemann H J, Griffith L, Jäschke R. et al . Evaluation of the minimum important difference for the feeling thermometer and the St. George's respiratory questionnaire in patients with chronic wirflow limitation.  J Clin Epidemiol. 2003;  56 1170-1176
  • 23 Mahler D A, Rosiello R A, Harver A. et al . Comparison of clincial dyspnea ratings and psychophysical measurements of respiratory sensation in obstructive airway disease.  Am Rev Respir Dis. 1987;  135 1229-1233
  • 24 Mahler D A, Weinberg D H, Wells C K. et al . The measurement of dyspnea. Contents, interobserver agreement and physiologic correlates of two new clinical indexes.  Chest. 1984;  85 751-758
  • 25 Gillissen A. Lebensqualität, Dyspnoe-Index und Gehtest. In: Gillissen A (Hrsg.). Die chronisch-obstruktive Lungenerkrankung. Bremen: Uni-Med Verlag 2006: 162-178
  • 26 Hajiro T, Nishimura K, Tsukino M. et al . A comparison of the level of dyspnea vs disease severity in indicating the health-related quality of life of patients with COPD.  Chest. 1999;  116 1632-1637
  • 27 Chu C M, Chan V L, Lin A W. et al . Readmission rates and life threatening events in COPD survivors treated with non-invasive ventilation for acute hypercapnic respiratory failure.  Thorax. 2004;  59 1020-1025
  • 28 Hajiro T, Nishimura K, Tsukino M. et al . Comparison of discriminative properties among disease-specific questionnaires for measuring health-related quality of life in patients with chronic obstructive pulmonary disease.  Am J Respir Crit Care Med. 1998;  157 785-790
  • 29 Casaburi R, Mahler D A, Jones P W. et al . A long-term evaluation of once-daily inhaled tiotropium in chronic obstructive pulmonary disease.  Eur Respir J. 2002;  19 217-224
  • 30 Aaron S D, Vandemheen K L, Clinch J J. et al . Measurement of short-term changes in dyspnea and disease-specific quality of life following an acute COPD exacerbation.  Chest. 2002;  121 688-696
  • 31 Mahler D A, Witek Jr T J. The MCID of the transition dyspnea index is a total score of one unit.  COPD. 2005;  2 99-103
  • 32 Puhan M A, Behnke M, Frey M. et al . Self-administration of interviewer-administration of the German Chronic Respiratory Questionnaire instrument and assessment of validity and reliability in two randomised studies.  Health Qual Life Outcomes. 2004;  8 1
  • 33 Kaplan R M. The minimal clinically important difference in generic utility-based measures.  COPD. 2005;  2 91-97
  • 34 Puhan M A, Soesilo I, Guyatt G H. et al . Combining scores from different patient reported outcome measures in meta-analyses: when is it justified?.  Health Qual Life Outcomes. 2006;  4 94
  • 35 Reardon J, Awad E, Normandin E. et al . The effect of comprehensive outpatient pulmonary rehabilitation on dyspnea.  Chest. 1994;  105 1046-1052
  • 36 Mahler D A, Faryniarz K, Tomlinson D. et al . Impact of dyspnea and physiologic function on general health status in patients with chronic obstructive pulmonary disease.  Chest. 1992;  102 395-401
  • 37 Make B, Casaburi R, Leidy N K. Interpreting results from clinical trials: understanding minimal clinical important differences in COPD outcomes.  COPD. 2005;  2 1-5
  • 38 Schonlau M, Mangione-Smith R, Chan K S. et al . Evaluation of a quality improvement collaborative in asthma care: does it improve processes and outcomes of care?.  Ann Fam Med. 2005;  3 198-199
  • 39 Rutishauser C, Sawyer S M, Bowers G. Quality of life assessment in children and adolescents with asthma.  Eur Respir J. 1998;  12 486-494
  • 40 Hays R D, Farivar S S, Liu H. Approaches and recommendations for estimating minimally important differences for health-related quality of life measures.  COPD. 2005;  2 63-67
  • 41 Jones P W. Quality of life measurement of patients with diseases of the airways.  Thorax. 1991;  46 676-682
  • 42 Vogelmeier C, Buhl R, Crieé C-P. et al . Leitlinie der Deutschen Atemwegsliga und der Deutschen Gesellschaft für Pneumologie und Beatmungsmedizin zur Diagnostik und Therapie von Patienten mit chronisch obstruktiver Bronchitis und Lungenemphysem (COPD).  Pneumologie. 2007;  61 e1-e40
  • 43 Anzueto A, Sethi S, Martinez F D. Exacerbations of chronic obstructive pulmonary disease.  Proc Am Thorac Soc. 2007;  4 554-564
  • 44 Seneff M G, Wagner D P, Wagner R P. et al . Hospital and 1-year survival of patients admitted to intensive care units with acute exacerbation of chronic obstructive pulmonary disease.  JAMA. 1995;  274 1852-1857
  • 45 Fuso L, Incalzi R A, Pistelli R. et al . Predicting mortality of patients hospitalized for acutely exacerbated chronic obstructive pulmonary disease.  Am J Med. 1995;  98 272-277
  • 46 Connors A F, Dawson N V, Tomas C. et al . Outcomes following acute exacerbation of severe chronic obstructive lung disease. The SUPPORT investigators (Study to Understand Prognoses and Preferences for Outcomes and Risks of Treatments).  Am J Respir Crit Care Med. 1996;  154 959-967
  • 47 Miravitlles M, Ferrer M, Pont A. et al . Effect of exacerbations on quality of life in patients with chronic obstructive pulmonary disease: a 2 year follow up study.  Thorax. 2004;  59 387-395
  • 48 Donaldson G C, Seemungal T AR, Patel I S. et al . Longitudinal changes in the nature, severity and frequency of COPD exacerbatoins.  Eur Respir J. 2003;  22 931-936
  • 49 Donaldson G C, Seemungal T AR, Bhowmik A. et al . Relationship between exacerbation frequency and lung function decline in chronic obstructive pulmonary disease.  Thorax. 2002;  57 847-852
  • 50 Gillissen A, Buhl R, Kardos P. et al . Management der akuten Exazerbation der chronisch-obstruktiven Lungenerkrankung (COPD).  Dtsch Med Wschr. 2003;  128 1721-1727
  • 51 Rodriguez-Roisin R. Toward a consensus definition for COPD exacerbations.  Chest. 2000;  117 398s-401s
  • 52 Franciosi L G, Page C P, Celli B R. et al . Marker of disease severity in chronic obstructive pulmonary disease.  Pulm Pharmacol Ther. 2006;  19 189-199
  • 53 Brusasco V, Hodder R, Miravitlles M. et al . Health outcomes following treatment for six months with once daily tiotropium compared with twice daily salmeterol in patients with COPD.  Thorax. 2003;  58 1-6
  • 54 Calverley P MA, Anderson J A, Celli B R. et al . Salmeterol and fluticasone propionate and survival in chronic obstructive pulmonary disease.  N Engl J Med. 2007;  356 775-789
  • 55 Calverley P MA, Boonsawat W, Cseke Z. et al . Maintenance therapy with budesonide and formoterol in chronic obstructive pulmonary disease.  Eur Respir J. 2003;  22 912-919
  • 56 Jones P W, Willits L R, Burge P S. et al . Disease severity and the effect of fluticasone propionate on chronic obstructive pulmonary diasase exacerbations.  Eur Respir J. 2003;  21 68-73
  • 57 Calverley P MA, Pauwels R A, Vestbo J. et al . Salmeterol/fluticasone propionate combination for one year provides greater clinical benefit than its individual components in COPD.  Am J Respir Crit Care Med. 2002;  165 A226
  • 58 Szafranski W, Ramirez A, Menga G. et al . Efficacy and safety of budesonide/formoterol in the management of chronic obstructive pulmonary disease.  Eur Respir J. 2003;  21 74-81
  • 59 Calverley P MA. Minimal clinically important difference - exacerbations of COPD.  COPD. 2005;  2 143-148
  • 60 Griffiths T L, Burr M L, Campbell I. et al . Results of 1 year of outpatient multidisciplinary pulmonary rehabilitation: a randomised controlled trial.  Lancet. 2000;  355 362-368
  • 61 Oostenbrink J B, Rutten-von-Molken M PMH, Al M J. et al . One-year cost-effectiveness of tiotropium versus ipratropium to treat chronic obstructive pulmonary disease.  Eur Respir J. 2004;  23 241-249
  • 62 Kardos P, Wencker M, Glaab T. et al . Impact of salmeterol/fluticasone propionate versus salmeterol on exacerbations in severe chronic obstructive pulmonary disease.  Am J Respir Crit Care Med. 2007;  175 144-149
  • 63 Spencer S, Calverley P MA, Burge P S. et al . Impact of preventing exacerbations on deterioation of health status in COPD.  Eur Respir J. 2004;  23 698-702
  • 64 Miravitlles M, Murio C, Guerrero T. Factors associated with relapse after ambulatory treatment of acute exacerbations of chronic bronchitis. DAFNE Study Group.  Eur Respir J. 2001;  17 928-933
  • 65 Sin D D, Anthonisen N R, Soriano J B. et al . Mortality in COPD: role of comorbidities.  Eur Respir J. 2006;  28 1245-1257
  • 66 Miller M R, Hankinson J, Brusasco V. et al . Standardisation of spirometry.  Eur Respir J. 2005;  26 319-338
  • 67 Wanger J, Clausen J L, Coates A. et al . Standardisation of the measurement of lung volumes.  Eur Respir J. 2005;  26 511-522
  • 68 Stavem K, Aaser E, Sandvik L. et al . Lung function, smoking and mortality in a 26-year follow-up of healthy middle-aged males.  Eur Respir J. 2005;  25 618-625
  • 69 Bang K M, Gergen P J. The effect of pulmonary impairment on all-cause mortality in a national cohort.  Chest. 1993;  103 536-540
  • 70 O'Donnell D E, Lam M, Webb K A. Spirometric correlates of improvement in exercise performance after anticholinergic therapy in chronic obstructive pulmonary diasease.  Am J Respir Crit Care Med. 1999;  160 542-549
  • 71 Pellegrino R, Viegi G, Brusasco V. et al . Interpretative strategies for lung function tests.  Eur Respir J. 2005;  26 948-968
  • 72 Jensen R L, Teeter J G, England R D. et al . Instrument accuracy and reproducibility in measurements of pulmonary function.  Chest. 2007;  132 388-395
  • 73 Pellegrino R, Decramer M, Schayck C van. et al . Quality control of spirometry: a lesson from the BRONCUS trial.  Eur Respir J. 2005;  26 1104-1109
  • 74 GOLD Executive Committee .Global initiative for chronic obstructive lung disease. http://www.goldcopd.com 2006
  • 75 Pellegrino R, Rodarte J R, Brusasco V. Assessing the reversibility of airway obstruction.  Chest. 1998;  114 1607-1612
  • 76 Calverley P MA, Burge P S, Spencer S. et al . Bronchodilator reversibility testing in chronic obstructive pulmonary disease.  Thorax. 2003;  58 659-664
  • 77 Anthonisen N R, Connett J E, Kiley J P. et al . Effects of smoking intervention and the use of an inhaled anticholinergic bronchodilator on the rate of decline of FEV1. The Lung Heath Study.  JAMA. 1994;  272 1539-1541
  • 78 Vestbo J, Sørensen T, Lange P. et al . Long-term effect of inhaled budesonide in mild and moderate chronic obstructive pulmonary disease: a randomised controlled trial.  Lancet. 1999;  355 1819-1823
  • 79 Burge P S, Calverley P MA, Jones P W. et al . Randomised, placebo-controlled study of fluticasone propionate in patients with moderate to severe chronic obstructive pulmonary disease; the ISOLDE trial.  Br Med J. 2000;  320 1297-1303
  • 80 Pauwels R A, Lofdahl C-G, Laitinen L A. et al . Long-term treatment with inhaled budesonide in persons with mild chronic obstructive pulmonary disease who continue smoking.  N Engl J Med. 1999;  340 1948-1953
  • 81 Parker C M, Voduc N, Aaron S D. et al . Physiological changes during symptom recovery from moderate exacerbations of COPD.  Eur Respir J. 2005;  26 420-428
  • 82 Quanjer Ph H. Standardized lung function testing. Report working party „standardization of lung function tests”, European community for coal and steel, Luxembourg.  Bull Europ Physiopath Resp. 1983;  19 27-36
  • 83 Cerveri I, Pellegrino R, Dore R. et al . Mechanisms for isolated volume response to a bronchodilator in patients with COPD.  J Appl Physiol. 2000;  88 1989-1995
  • 84 O'Donnell D E, Flüge T, Gerkern F. et al . Effects of tiotropium on lung hyperinflation, dyspnoea and exercise tolerance in COPD.  Eur Respir J. 2004;  23 832-840
  • 85 O'Donnell D E, Voduc N, Fitzpatrick M. et al . Effect of salmeterol on the ventilatory response to exercise in COPD.  Eur Respir J. 2004;  24 86-94
  • 86 Celli B R, ZuWallack R, Wang S. et al . Improvement in resting inspiratory capacity and hyperinflammation with tiotropium in COPD patients with increased static lung volumes.  Chest. 2003;  124 1743-1748
  • 87 Noord J A van, Aumann J, Janssens E. et al . Effects of tiotropium with and without formoterol on airflow obstruction and resting hyperinflation in patients with COPD.  Chest. 2006;  124 1743-1748
  • 88 Cerveri I, Dore R, Corsico A. et al . Assessment of emphysema in COPD: a functional and radiologic study.  Chest. 2004;  125 1714-1718
  • 89 MacIntyre N, Crapo R O, Viegi G. et al . Standardisation of the single-breath determination of carbon monoxide uptake in the lung.  Eur Respir J. 2005;  26 720-735
  • 90 Punjabi N B, Shade D, Patel A M. et al . Measurement variability in single-breath diffusing capacity of the lung.  Chest. 2003;  123 1082-1089
  • 91 Magnussen H, Goeckenjan G, Köhler D. et al . Leitlinien zur Langzeit-Sauerstofftherapie.  Pneumologie. 2001;  55 454-464
  • 92 Jones S E, Packham S, Hebden M. et al . Domiciliary nocturnal intermittent positive pressure ventilation in patients with respiratory failure due to severe COPD: long-term follow up and effect on survival.  Thorax. 1998;  53 495-498
  • 93 Hein H, Rasche K, Wiebel M. et al . Empfehlung zur Heim- und Langzeitbeatmung.  Med Klinik. 2006;  101 148-152
  • 94 Soler-Cataluna J J, Martinez-Garcia M A, Roman Sanchez P. et al . Severe acute exacerbations and mortality in patients with chronic obstructive pulmonary disease.  Thorax. 2005;  60 925-931
  • 95 Emtner M I, Amardottir H R, Hallin R. et al . Walking distance is a predictor of exacerbations in patients with chronic obstructive pulmonary disease.  Respir Med. 2007;  101 1037-1040
  • 96 Stulbarg M S, Carrieri-Kohlman V, Demir-Deviren S. et al . Exercise training improves outcomes of a dyspnea self-management program.  J Cardpulm Rehabil. 2002;  22 109-121
  • 97 Behnke M, Taube C, Kirsten D K. et al . Home-based exercise is capable of preserving hospital-based improvements in severe chronic obstructive pulmonary disease.  Respir Med. 2000;  94 1184-1191
  • 98 American Thoracic Society . Guidelines for methacholine and exercise challenge testing-1999.  Am J Respir Crit Care Med. 2000;  161 309-329
  • 99 Kirsten D K, Taube C, Lehnigk B. et al . Exercise training improves recovery in patients with COPD after an acute exacerbation.  Respir Med. 1998;  92 1191-1198
  • 100 European Respiratory Society . Clincial exercise testing with reference to lung diseases: indication, standardization and interpretation strategies. ERS Task Force on Standardization of Clinical Exercise Testing.  Eur Respir J. 1997;  10 2662-2689
  • 101 Jones P W. Health status measurment in chronic obstructive pulmonary disease.  Thorax. 2001;  56 880-887
  • 102 Casaburi R. Factors determining constant work rate exercise tolerance in COPD and their role in dictating the minimal clinically important difference in response to interventions.  COPD. 2005;  2 131-136
  • 103 Amercian Thoracic Society, American College of Chest Physicians . ATS/ACCP statement on cardiopulmonary exercise testing.  Am J Respir Crit Care Med. 2003;  167 211-277
  • 104 Palange P, Ward S A, Carlsen K-H. et al . ERS task force recommendations on the use of exercise testing in clinical practice.  Eur Respir J. 2007;  26 185-209
  • 105 Emtner M, Porszasz J, Burns M. et al . Benefits of supplemental oxygen in exercise training in non-hypoxemic COPD patients.  Am J Respir Crit Care Med. 2003;  168 1034-1042
  • 106 American Thoracic Society . ATS-Statement: Guidelines for the six-minute walk test.  Am J Respir Crit Care Med. 2002;  166 111-117
  • 107 Singh S J, Morgan M DL, Hardman A E. et al . Comparison of oxygen uptake during a conventional treadmill test and the shuttle walking test in chronic airflow limitation.  Eur Respir J. 1994;  7 2016-2020
  • 108 Wise R A, Brown C D. Minimal clinically important differences in the six-minute walk test and the incremental shuttle walking test.  COPD. 2005;  2 125-129
  • 109 Langley P C. The NICE reference case requirement: implications for drug manufactures and health systems.  Pharmacoeconomics. 2004;  22 267-277
  • 110 Landbo C, Prescott E, Langer P. et al . Prognostic value of nutritional status in chronic obstructive pulmonary disease.  Am J Respir Crit Care Med. 1999;  160 1856-1861
  • 111 Bargon J, Müller U. Malnutrition bei COPD.  Pneumologie. 2001;  55 475-480
  • 112 Wouters E. Nutrition and Metabolism in COPD.  Chest. 2000;  117 274s-280s
  • 113 Creutzberg E C, Schols A MWJ, Weling-Scheepers C APM. et al . Characterization of nonresponse to high caloric oral nutritional therapy in depleted patients with chronic obstructive pulmonary disease.  Am J Respir Crit Care Med. 2000;  161 745-752
  • 114 Schols A MWJ, Slangen J, Volovics L. et al . Weight loss is a reversible factor in the prognosis of chronic obstructive pulmonary disease.  Am J Respir Crit Care Med. 1998;  157 1791-1797
  • 115 Wouters E F. Minimal clinically important differences in COPD: body mass index and muscle strength.  COPD. 2005;  2 149-155
  • 116 Dal Negro R W, Pomari C, Tognella S. et al . Salmeterol & Fluticasone 50 µg/250 µg bid in combination provides a better long-term control than salmeterol 50 µg bid alone and placebo in COPD patients already treated with theophylline.  Pulm Pharmacol Ther. 2003;  16 241-246
  • 117 Calverley P MA, Pauwels R A, Vestbo J. et al . Combined salmeterol and fluticasone in the treatment of chronic obstructive pulmonary disease: a randomised controlled trial.  Lancet. 2003;  361 449-456
  • 118 Calverley P MA, Olsson H. Budesonide/formoterol in a single inhaler sustains improvements in lung function over 12 months compared with monocomponents and placebo in patients with COPD.  Am J Respir Crit Care Med. 2003;  167 A319

1 Mit Unterstützung durch Astra Zeneca GmbH

Prof. Dr. med. Adrian Gillissen

Robert Koch-Klinik Thoraxzentrum des Klinikums St. Georg

Nikolai-Rumjanzew-Str. 100

04207 Leipzig

URL: http://www.rkk-leipzig.de