Scleroderma, Systemic Clinical Trial
Official title:
A Double Blind, Randomised, Placebo-controlled Trial Evaluating Efficacy and Safety of Oral Nintedanib Treatment for at Least 52 Weeks in Patients With Systemic Sclerosis Associated Interstitial Lung Disease (SSc-ILD)
| Verified date | November 2019 |
| Source | Boehringer Ingelheim |
| Contact | n/a |
| Is FDA regulated | No |
| Health authority | |
| Study type | Interventional |
Systemic Sclerosis (SSc) is a devastating disease of unknown etiology. Patients suffer from multiple organ fibrosis whereas lung fibrosis (interstitial lung disease, ILD) is one of the main driver for mortality. There is preclinical evidence for efficacy of nintedanib in SSc and associated ILD (SSc-ILD) and the anti-fibrotic efficacy of nintedanib was proven in idiopathic pulmonary fibrosis patients, who are presenting a similar pattern regarding lung fibrosis. Hence it is the purpose of the trial to confirm the efficacy and safety of nintedanib 150 mg bid in treating patients with SSc-ILD, compared with placebo. The trial will be conducted as a double blind, randomised, placebo-controlled trial with primary efficacy evaluation at week 52 and placebo-controlled treatment until last patient out (up to a maximum of 100 weeks). Respiratory function is globally accepted for assessment of treatment effects in patients with lung fibrosis. The chosen endpoint (Forced Vital Capacity (FVC) decline) is easy to obtain and is part of the usual examinations done in patients with SSc-ILD.
| Status | Completed |
| Enrollment | 580 |
| Est. completion date | November 28, 2018 |
| Est. primary completion date | October 31, 2018 |
| Accepts healthy volunteers | No |
| Gender | All |
| Age group | 18 Years and older |
| Eligibility |
Inclusion criteria: - Age >= 18 years - 2013 American College of Rheumatology (ACR) / EULAR classification criteria for SSc fulfilled - SSc disease onset (defined by first non-Raynaud symptom) within 7 years - SSc related Interstitial Lung Disease confirmed by High Resolution Computer Tomography (HRCT); Extent of fibrotic disease in the lung >= 10% - FVC >= 40% of predicted normal - Carbon Monoxide Diffusion Capacity (DLCO) 30% to 89% of predicted normal Exclusion criteria: - Aspartate Aminotransferase (AST), Alanine Aminotransferase (ALT) >1.5 x ULN - Bilirubin >1.5 x ULN - Creatinine clearance <30 mL/min - Airway obstruction (pre-bronchodilator Forced Expiratory Volume in 1 second (FEV1)/FVC <0.7) - Other clinically significant pulmonary abnormalities - Significant Pulmonary Hypertension (PH) - Cardiovascular diseases - More than 3 digital fingertip ulcers or a history of severe digital necrosis requiring hospitalization or severe other ulcers - Bleeding risk (such as predisposition to bleeding, fibrinolysis, full-dose anticoagulation, high dose antiplatelet therapy, history of hemorrhagic central nervous system (CNS) event within last year - international normalised ratio (INR) >2, prolongation of prothrombin time (PT) and partial thromboplastin time (PTT) by >1.5 x ULN) - History of thrombotic event within last year - Clinical signs of malabsorption or needing parenteral nutrition - Previous treatment with nintedanib or pirfenidone - Treatment with prednisone >10 mg/day, azathioprine, hydroxychloroquine, colchicine, D-penicillamine, sulfasalazine, cyclophosphamide, rituximab, tocilizumab, abatacept, leflunomide, tacrolimus, newer anti-arthritic treatments like tofacitinib and cyclosporine A, potassium para-aminobenzoate - Unstable background therapy with either mycophenolate mofetil or methotrexate - Previous or planned hematopoietic stem cell transplantation - Patients with underlying chronic liver disease (Child Pugh A, B, C hepatic impairment) |
| Country | Name | City | State |
|---|---|---|---|
| Argentina | Hospital Militar Central Cirujano Mayor Dr. Cosme Argerich | Buenos Aires | |
| Argentina | APRILLUS-Asistencia e Investigación | Ciudad Autonoma Buenos Aires | |
| Argentina | CEMER-Centro Medico De Enfermedades Respiratorias | Florida | |
| Australia | Royal Adelaide Hospital | Adelaide | South Australia |
| Australia | Royal Prince Alfred Hospital | Camperdown | New South Wales |
| Australia | St Vincent's Hospital Melbourne | Fitzroy | Victoria |
| Australia | Liverpool Hospital | Sydney | New South Wales |
| Austria | LKH-Univ. Hospital Graz | Graz | |
| Austria | Medical University of Innsbruck | Innsbruck | |
| Belgium | Brussels - UNIV Saint-Luc | Bruxelles | |
| Belgium | ULB Hopital Erasme | Bruxelles | |
| Belgium | UNIV UZ Gent | Gent | |
| Belgium | UZ Leuven | Leuven | |
| Belgium | Centre Hospitalier Universitaire de Liège | Liège | |
| Brazil | Edumed - Educacao e Saude SA | Curitiba | |
| Canada | Saint Joseph's Healthcare | Hamilton | Ontario |
| Canada | HSCM | Montreal | Quebec |
| Canada | Mount Sinai Hospital | Toronto | Ontario |
| Chile | Hospital Clínico Reg. de Concepción "Dr. G. Grant Benavente" | Concepción | |
| Chile | Centro de Investigación del Maule | Talca | |
| China | Beijing Chao-Yang Hospital | Beijing | |
| China | Beijing Hospital | Beijing | |
| China | Peking Union Medical College Hospital | Beijing | |
| China | First Hospital of Jilin University | Changchun | |
| China | West China Hospital | Chengdu | |
| China | The First Affiliated Hospital of Anhui Medical University | Hefei | |
| China | Huashan Hospital, Fudan University | Shanghai | |
| China | The First Hospital of Chinese Medical University | Shenyang | |
| China | Zhuzhou Central Hospital | Zhuzhou | |
| Czechia | Institute of Rheumathology Prague | Prague | |
| Czechia | Thomayer Hospital | Praha 4 | |
| Denmark | Aarhus Universitets Hospital | Århus | |
| Denmark | Odense Universitetshospital | Odense | |
| Finland | HYKS Keuhkosairauksien | Helsinki | |
| Finland | TYKS, Keuhkosairauksien klinikka, Turku | Turku | |
| France | HOP Avicenne | Bobigny | |
| France | HOP Louis Pradel | Bron | |
| France | HOP Calmette | Lille | |
| France | HOP Claude Huriez | Lille | |
| France | HOP Arnaud de Villeneuve | Montpellier | |
| France | HOP Hôtel-Dieu | Nantes | |
| France | HOP Pasteur | Nice | |
| France | HOP Bichat | Paris | |
| France | HOP Cochin | Paris | |
| France | HOP Pontchaillou | Rennes | |
| France | HOP Charles Nicolle | Rouen | |
| France | HOP Larrey | Toulouse | |
| France | HOP Bretonneau | Tours | |
| Germany | Kerckhoff-Klinik, Bad Nauheim | Bad Nauheim | |
| Germany | Klinik Donaustauf | Donaustauf | |
| Germany | Universitätsklinikum Carl Gustav Carus Dresden | Dresden | |
| Germany | Universitätsklinikum Erlangen | Erlangen | |
| Germany | Universitätsmedizin Greifswald | Greifswald | |
| Germany | Asklepios Klinik Altona | Hamburg | |
| Germany | Medizinische Hochschule Hannover | Hannover | |
| Germany | Thoraxklinik-Heidelberg gGmbH am Universitätsklinikum Heidelberg | Heidelberg | |
| Germany | Universitätsklinikum Schleswig-Holstein, Campus Kiel | Kiel | |
| Germany | Universitätsklinikum Köln (AöR) | Köln | |
| Germany | Klinikum der Universität München - Campus Großhadern | München | |
| Germany | Universitätsklinikum Münster | Münster | |
| Germany | Universitätsklinikum Tübingen | Tübingen | |
| Greece | General Hospital of Athens "Laiko" | Athens | |
| Greece | General Hospital of Athens "Laiko" | Athens | |
| Hungary | Semmelweis University, Dept. Pulmonology | Budapest | |
| India | Mazumdar Shaw Medical centre | Bangalore | |
| India | Ramaiah Medical College and Hospitals | Bangalore | |
| India | St John's Medical College | Bangalore | |
| India | Postgraduate Institute of Medical Education And Research | Chandigarh | |
| India | Care Hospital | Hyderabad | |
| India | Nizam's Institute of Medical Sciences | Hyderabad | |
| India | Asthma Bhawan | Jaipur | |
| India | P.D. Hinduja National Hospital | Mumbai | |
| India | Getwell Hospital & Research Institute | Nagpur | |
| India | All India Institute of Medical Science | New Delhi | |
| India | Sir Gangaram Hospital | New Delhi | |
| India | B.J. Medical College and Sasoon General Hospital | Pune | |
| India | Inamdar Multispeciality Hospital | Pune | |
| India | Jehangir Clinical Development Centre Pvt. Ltd. | Pune | |
| India | Christian Medical College | Vellore | |
| Ireland | Cork University Hospital | Cork | |
| Ireland | Mater Misericordiae University Hospital | Dublin 7 | |
| Israel | Bnei Zion Medical Center, Haifa | Haifa | |
| Israel | Rambam Medical Center | Haifa | |
| Israel | Rabin Medical Center Beilinson | Petah Tiqwa | |
| Israel | Sourasky Medical Center | Tel Aviv | |
| Italy | Az. Ospedaliere Umberto I di Ancona | Ancona | |
| Italy | Università degli Studi di Genova | Genova | |
| Italy | A.O. San Gerardo di Monza | Monza | |
| Italy | A.O Universitaria - Università degli Studi della Campania Luigi Vanvitelli | Napoli | |
| Italy | Università degli Studi Padova | Padova | |
| Italy | Azienda Universitaria-Universita' La Sapienza | Roma | |
| Japan | Tosei General Hospital | Aichi, Seto | |
| Japan | Kurume University Hospital | Fukuoka, Kurume | |
| Japan | Sapporo Medical University Hospital | Hokkaido, Sapporo | |
| Japan | National Hospital Organization Himeji Medical Center | Hyogo, Himeji | |
| Japan | Iwate Medical University Hospital | Iwate, Morioka | |
| Japan | St. Marianna University School of Medicine Hospital | Kanagawa, Kawasaki | |
| Japan | Kitasato University Hospital | Kanagawa, Sagamihara | |
| Japan | Kanagawa Cardiovascular and Respiratory Center | Kanagawa, Yokohama | |
| Japan | Kyoto University Hospital | Kyoto, Kyoto | |
| Japan | Nagasaki University Hospital | Nagasaki, Nagasaki | |
| Japan | Kindai University Hospital | Osaka, Osakasayama | |
| Japan | National Hospital Organization Kinki-Chuo Chest Medical Center | Osaka, Sakai | |
| Japan | Osaka Medical College Hospital | Osaka, Takatsuki | |
| Japan | Saitama Medical University Hospital | Saitama, Iruma-gun | |
| Japan | Hamamatsu University Hospital | Shizuoka, Hamamatsu | |
| Japan | Tokushima University Hospital | Tokushima, Tokushima | |
| Japan | Juntendo University Hospital | Tokyo, Bunkyo-Ku | |
| Japan | Nippon Medical School Hospital | Tokyo, Bunkyo-Ku | |
| Japan | Toho University Omori Medical Center | Tokyo, Ota-ku | |
| Japan | Institute of Rheumatology Tokyo Women's Medical University | Tokyo, Shinjyuku-ku | |
| Malaysia | University Malaya Medical Centre | Kuala Lumpur | |
| Malaysia | Hospital Pulau Pinang | Pulau Pinang | |
| Malaysia | Hospital Selayang | Selangor | |
| Malaysia | Hospital Tuanku Ja'afar | Seremban | |
| Mexico | Instituto Nacional de Enfermedades Respiratorias Ismael Cosío Villegas | Ciudad de México | |
| Netherlands | VU Medisch Centrum | Amsterdam | |
| Netherlands | Leids Universitair Medisch Centrum (LUMC) | Leiden | |
| Netherlands | Radboud Universitair Medisch Centrum | Nijmegen | |
| Netherlands | Erasmus Medisch Centrum | Rotterdam | |
| Norway | Oslo Universitetssykehus HF, Rikshospitalet | Oslo | |
| Norway | Universitetssykehuset Nord-Norge, Tromsø | Tromsø | |
| Poland | Dr.Biziel UnivHosp#2,Rheumat&Connec.Tissue Disease,Bydgoszcz | Bydgoszcz | |
| Poland | Dobry Lekarz,Spec.Med.Clinics,Private Prac,Krakow | Krakow | |
| Poland | EMED, Center of Medical Services,Private Prac,Rzeszow | Rzeszow | |
| Poland | Indep.Pblic Clin.Hosp#1,Dermatol,Venereol&Allerg.dep,Wroclaw | Wroclaw | |
| Portugal | Hospital Garcia de Orta, EPE | Almada | |
| Portugal | Hospital Fernando Fonseca, EPE | Amadora | |
| Portugal | CHUC - Centro Hospitalar e Universitário de Coimbra, EPE | Coimbra | |
| Portugal | ULSAM, EPE - Hospital Conde de Bertiandos | Ponte de Lima | |
| Portugal | Centro Hospitalar São João,EPE | Porto | |
| Portugal | Centro Hospitalar de Vila Nova de Gaia | Vila Nova de Gaia | |
| Spain | Hospital Santa Creu i Sant Pau | Barcelona | |
| Spain | Hospital Vall d'Hebron | Barcelona | |
| Spain | Hospital General Universitario Gregorio Marañón | Madrid | |
| Spain | Hospital Universitario 12 de Octubre | Madrid | |
| Spain | Hospital Universitario Marqués de Valdecilla | Santander | |
| Spain | Hospital Dr. Peset | Valencia | |
| Spain | Hospital Politècnic La Fe | Valencia | |
| Spain | Hospital Álvaro Cunqueiro | Vigo | |
| Sweden | Clinical Rheumatology Research Center Sahlgrenska | Gothenburg | |
| Switzerland | Kantonspital St. Gallen, Rheumatologie Department | St. Gallen | |
| Switzerland | Universitätsspital Zürich | Zürich | |
| Thailand | Songklanagarind Hospital | Hat Yai | |
| Thailand | Srinagarind Hospital | Muang | |
| Thailand | Ramathibodi Hospital | Ratchathewi | |
| United Kingdom | Glasgow Royal Infirmary | Glasgow | |
| United Kingdom | Guy's Hospital | London | |
| United Kingdom | Royal Brompton Hospital | London | |
| United Kingdom | Royal Free Hospital | London | |
| United Kingdom | Salford Royal Hospital | Salford | |
| United States | University of Michigan Health System | Ann Arbor | Michigan |
| United States | The Emory Clinic | Atlanta | Georgia |
| United States | University of Colorado Denver | Aurora | Colorado |
| United States | Johns Hopkins Hospital | Baltimore | Maryland |
| United States | University of Alabama at Birmingham | Birmingham | Alabama |
| United States | Boston Medical Center | Boston | Massachusetts |
| United States | Medical University of South Carolina | Charleston | South Carolina |
| United States | The Lung Research Center, LLC | Chesterfield | Missouri |
| United States | Northwestern University | Chicago | Illinois |
| United States | University of Cincinnati Health | Cincinnati | Ohio |
| United States | Cleveland Clinic | Cleveland | Ohio |
| United States | University of South Carolina | Columbia | South Carolina |
| United States | University of Texas Southwestern Medical Center | Dallas | Texas |
| United States | Duke University Medical Center | Durham | North Carolina |
| United States | Inova Fairfax Medical Campus | Falls Church | Virginia |
| United States | Penn State Milton S. Hershey Medical Center | Hershey | Pennsylvania |
| United States | The University Of Texas at Houston | Houston | Texas |
| United States | University of Iowa | Iowa City | Iowa |
| United States | University of Florida College of Medicine | Jacksonville | Florida |
| United States | University of Kansas Medical Center | Kansas City | Kansas |
| United States | University of California Los Angeles | Los Angeles | California |
| United States | University of Louisville | Louisville | Kentucky |
| United States | University of Miami | Miami | Florida |
| United States | Froedtert and The Medical College of Wisconsin | Milwaukee | Wisconsin |
| United States | University of Minnesota Masonic Cancer Center | Minneapolis | Minnesota |
| United States | Vanderbilt Pulmonary Clinic | Nashville | Tennessee |
| United States | Yale University School of Medicine | New Haven | Connecticut |
| United States | Tulane University Hospital and Clinic | New Orleans | Louisiana |
| United States | Columbia University Medical Center-New York Presbyterian Hospital | New York | New York |
| United States | Hospital for Special Surgery | New York | New York |
| United States | Icahn School of Medicine at Mount Sinai | New York | New York |
| United States | Temple University Hospital | Philadelphia | Pennsylvania |
| United States | Thomas Jefferson University | Philadelphia | Pennsylvania |
| United States | University of Pennsylvania | Philadelphia | Pennsylvania |
| United States | Mayo Clinic-Rochester | Rochester | Minnesota |
| United States | University of California Davis | Sacramento | California |
| United States | Washington University School of Medicine | Saint Louis | Missouri |
| United States | University of Utah Health Sciences Center | Salt Lake City | Utah |
| United States | University of California San Francisco | San Francisco | California |
| United States | University of Washington | Seattle | Washington |
| United States | Virginia Mason Medical Center | Seattle | Washington |
| United States | Stanford University Medical Center | Stanford | California |
| United States | University of Toledo | Toledo | Ohio |
| United States | Georgetown University | Washington | District of Columbia |
| Lead Sponsor | Collaborator |
|---|---|
| Boehringer Ingelheim |
United States, Argentina, Australia, Austria, Belgium, Brazil, Canada, Chile, China, Czechia, Denmark, Finland, France, Germany, Greece, Hungary, India, Ireland, Israel, Italy, Japan, Malaysia, Mexico, Netherlands, Norway, Poland, Portugal, Spain, Sweden, Switzerland, Thailand, United Kingdom,
| Type | Measure | Description | Time frame | Safety issue |
|---|---|---|---|---|
| Primary | Annual Rate of Decline in Forced Vital Capacity (FVC) Over 52 Weeks | Forced vital capacity (FVC) is the total amount of air exhaled during the lung function test. For this endpoint reported means represent the adjusted rate. |
up to week (wk) 52 after the start of administration | |
| Secondary | Absolute Change From Baseline in the Modified Rodnan Skin Score (mRSS) at Week 52 | This is the first key secondary endpoint. The modified Rodnan Skin Score (mRSS) is an evaluation of the patient's skin thickness rated by clinical palpation using a 0 to 3 scale. The scale differentiates between 0 = normal skin, 1 = mild thickness, 2 = moderate thickness, and 3 = severe thickness with inability to pinch the skin into a fold. The palpation is done for each of the 17 surface anatomic areas of the body: face, anterior chest, abdomen, fingers (right and left separately), forearms, upper arms, thighs, lower legs, dorsum of hands and feet. The sum of these individual values is defined as the total skin score. The mRSS has a range from 0 (no thickening) to 51 (severe thickening in all 17 areas). A high score corresponds to worse skin thickness. Least square mean is actually the adjusted mean. Adjusted mean was based on all analysed patients in the model (not only patients with a baseline and measurement at Week 52). |
Baseline and up to 52 weeks after the start of administration | |
| Secondary | Absolute Change From Baseline in Saint George's Respiratory Questionnaire (SGRQ) Total Score at Week 52. | This is the second key secondary endpoint. The Saint George's Respiratory Questionnaire measures the health status in patients with chronic airflow limitation. It consists of 2 parts that cover 3 domains: symptoms, activities, and impacts. The symptom domain relates to the effect, frequency and severity of respiratory symptoms. The activity domain relates to activities that cause or are limited by breathlessness. The impact domain evaluates a range of aspects concerned with social functioning and psychological disturbances resulting from airways disease. The scores of these domains range from 0 (no impairment) to 100 (worst possible). The calculated total score summarises the impact of the disease on overall health status. A high score corresponds to worse health. Least square mean is actually the adjusted mean. Adjusted mean was based on all analysed patients in the model (not only patients with a baseline and measurement at Week 52). |
Baseline and up to 52 weeks after the start of administration | |
| Secondary | Annual Rate of Decline in FVC in Percentage (%) Predicted Over 52 Weeks | Annual rate of decline in FVC in percentage (%) predicted over 52 weeks. For this endpoint reported means represent the adjusted rate. |
up to 52 weeks after the start of administration | |
| Secondary | Absolute Change From Baseline in FVC in mL at Week 52 | Absolute change from baseline in FVC in mL at Week 52. Least square mean is actually the adjusted mean. Adjusted mean was based on all analysed patients in the model (not only patients with a baseline and measurement at Week 52). | Baseline and up to 52 weeks after the start of administration | |
| Secondary | Relative Change From Baseline [%] of mRSS at Week 52 | Relative change from baseline [%] of mRSS at Week 52. The modified Rodnan Skin Score (mRSS) is an evaluation of the patient's skin thickness rated by clinical palpation using a 0 to 3 scale. The scale differentiates between 0 = normal skin, 1 = mild thickness, 2 = moderate thickness, and 3 = severe thickness with inability to pinch the skin into a fold. The palpation is done for each of the 17 surface anatomic areas of the body: face, anterior chest, abdomen, fingers (right and left separately), forearms, upper arms, thighs, lower legs, dorsum of hands and feet. The sum of these individual values is defined as the total skin score. The mRSS has a range from 0 (no thickening) to 51 (severe thickening in all 17 areas). A high score corresponds to worse skin thickness. Least square mean is actually the adjusted mean. Adjusted mean was based on all analysed patients in the model (not only patients with a baseline and measurement at Week 52). |
Baseline and up to 52 weeks after the start of administration | |
| Secondary | Time to Death | Time to event analysis of patients with death. The number of observed patients with death are reported. | From date of first trial drug intake up to date of death or last contact date (ie., up to 100 weeks) | |
| Secondary | The Percentage (%) of Responder Based on Combined Response Index in Systemic Sclerosis (CRISS) at Week 52 | The percentage (%) of responder based on Combined Response Index in Systemic Sclerosis (CRISS) at Week 52. This is a composite endpoint, based on the mRSS, FVC percent predicted, HAQ-DI, patient's global impression of overall health Visual Analogue Scale (VAS) and physician's global impression of patient's overall health VAS, as well as the absence of significant worsening of interstitial lung disease, a new scleroderma renal crisis, left ventricular failure or pulmonary arterial hypertension. The CRISS index score represents a probability of improvement and ranges between 0 and 1. This is a 2 stage process to predict probability of improvement: Step 1 - absence of major organ progression (SRC etc.) - score "0" Step 2 - predicted probability of improvement - (score "0 - 1") |
Week 52 | |
| Secondary | Absolute Change From Baseline in Carbon Monoxide Diffusion Capacity (DLco) in % Predicted at Week 52 | Absolute change from baseline in Carbon Monoxide Diffusion Capacity (DLco) in % predicted at Week 52. Least square mean is actually the adjusted mean. Adjusted mean is based on all analysed patients in the model (not only patients with a baseline and measurement at week 52). |
Baseline and up to 52 weeks after the start of administration | |
| Secondary | Absolute Change From Baseline in Digital Ulcer Net Burden at Week 52 | Absolute change from baseline in digital ulcer net burden (defined as the number of new digital ulcers (DUs) plus the number of DUs that have been verified at any earlier assessment during the trial) at Week 52. It is calculated at a visit by counting the total number of fingertips with ulcers (i.e. number of fingers with presence of digital ulcer ticked "Yes") at the corresponding visit Least square mean is actually the adjusted mean. Adjusted mean is based on all analysed patients in the model (not only patients with a baseline and measurement at week 52). |
Baseline and up to 52 weeks after the start of administration | |
| Secondary | Absolute Change From Baseline in Health Assessment Questionnaire-Disability Index (HAQ-DI) Score at Week 52 | Absolute change from baseline in Health Assessment Questionnaire-Disability Index (HAQ-DI) score at Week 52. The HAQ-DI score is calculated as follows: Each question is scored 0-3 (where 0= "without difficulty" & 3= "unable to do"). There are 8 categories (Dressing & Grooming, Arising, Eating, Walking, Hygiene, Reach, Grip, Activities), each including 2 or 3 questions. The score for each category corresponds to maximum question score within each category. Finally, HAQ-DI score corresponds to sum of the sub-scores of all 8 categories divided by number of categories completed. Please note that if there are fewer than 6 categories with responses, then a score cannot be calculated. The HAQ-DI score scale has 25 possible values (i.e., 0, 0.125, 0.250, 0.375 … 3). A high score corresponds to worse impairment. Least square mean is actually the adjusted mean. Adjusted mean is based on all analysed patients in the model (not only patients with a baseline and measurement at week 52). |
Baseline and up to 52 weeks after the start of administration | |
| Secondary | Absolute Change From Baseline in Functional Assessment of Chronic Illness Therapy (FACIT) Dyspnoea Score at Week 52 | Absolute change from baseline in Functional Assessment of Chronic Illness Therapy (FACIT) dyspnoea score at Week 52. FACIT-Dyspnoea (Dyspnoea) 10 Item Short Form include a 4-point rating scale (no shortness of breath=0; mildly short of breath=1; moderately short of breath = 2; severely short of breath =3; or I did not do this in the past 7 days =4). A raw score is calculated as: Sum individual item scores * 10 / number of items answered. Raw scores are then converted to scale scores using the table included in the FACIT Dyspnoea Scale Short Form Scoring Guideline. FACIT dyspnea scale score ranges between 0 and 75.9. The FACIT-Dyspnea short forms are scored such that a high score represents high levels of dyspnea. Least square mean is actually the adjusted mean. Adjusted mean is based on all analysed patients in the model (not only patients with a baseline and measurement at week 52). |
Baseline and up to 52 weeks after the start of administration |
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