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Trial details imported from ClinicalTrials.gov
For full trial details, please see the original record at
https://clinicaltrials.gov/study/NCT01335464
Registration number
NCT01335464
Ethics application status
Date submitted
13/04/2011
Date registered
14/04/2011
Date last updated
25/07/2016
Titles & IDs
Public title
Safety and Efficacy of BIBF 1120 at High Dose in Idiopathic Pulmonary Fibrosis Patients
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Scientific title
A 52 Weeks, Double Blind, Randomized, Placebo-controlled Trial Evaluating the Effect of Oral BIBF 1120, 150 mg Twice Daily, on Annual Forced Vital Capacity Decline, in Patients With Idiopathic Pulmonary Fibrosis (IPF)
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Secondary ID [1]
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2010-024251-87
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Secondary ID [2]
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1199.32
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Universal Trial Number (UTN)
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Trial acronym
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Linked study record
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Health condition
Health condition(s) or problem(s) studied:
Pulmonary Fibrosis
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Condition category
Condition code
Respiratory
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Other respiratory disorders / diseases
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Inflammatory and Immune System
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Connective tissue diseases
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Inflammatory and Immune System
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0
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Other inflammatory or immune system disorders
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Intervention/exposure
Study type
Interventional
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Description of intervention(s) / exposure
Treatment: Drugs - placebo
Treatment: Drugs - BIBF 1120
Experimental: BIBF 1120 - patient receives capsules containing BIBF 1120 twice a day
Placebo comparator: placebo - patient receives capsules identical to those containing active drug
Treatment: Drugs: placebo
placebo matching BIBF1120, BID
Treatment: Drugs: BIBF 1120
BIBF1120 BID (twice daily)
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Intervention code [1]
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Treatment: Drugs
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Comparator / control treatment
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Control group
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Outcomes
Primary outcome [1]
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Annual Rate of Decline in Forced Vital Capacity (FVC) Over 52 Weeks
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Assessment method [1]
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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
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Timepoint [1]
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52 weeks
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Secondary outcome [1]
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Change From Baseline in Saint-George's Respiratory Questionnaire (SGRQ) Total Score at 52 Weeks
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Assessment method [1]
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This is a key secondary endpoint.
SGRQ is a health-related quality of life questionnaire divided into 3 components : symptoms, activity and impact.
The total score (summed weights) can range from 0 to 100 with a lower score denoting a better health status.
Means provided are the adjusted means based on all analyzed patients in the model (not only patients with a baseline and measurement at week 52).
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Timepoint [1]
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baseline and 52 weeks
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Secondary outcome [2]
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Time to First Acute Idiopathic Pulmonary Fibrosis (IPF) Exacerbation
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Assessment method [2]
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Due to rare events, the median of time to event is not calculable, thus the percentages of patients with (IPF) exacerbation are reported and represented as a key secondary endpoint. An acute exacerbation (reported as an AE by the investigator) was defined as follows:
Otherwise unexplained clinical features including all of the following:
* Unexplained worsening or development of dyspnoea within 30 days
* New diffuse pulmonary infiltrates on chest X-ray, and/or new HRCT parenchymal abnormalities with no pneumothorax or pleural effusion (new ground-glass opacities) since the last visit
* Exclusion of infection as per routine clinical practice and microbiological studies
* Exclusion of alternative causes as per routine clinical practice including left heart failure, pulmonary embolism and identifiable cause of acute lung injury.
Failure is the proportion of patients with at least one acute IPF exacerbation over 52 weeks, based on all investigator-reported AEs .
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Timepoint [2]
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52 weeks
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Secondary outcome [3]
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Absolute Change From Baseline in Forced Vital Capacity (FVC) Over 52 Weeks
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Assessment method [3]
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Means provided are the adjusted means and are based on all analysed patients in the model (not only patients with a change from baseline to week 52).
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Timepoint [3]
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Baseline and 52 weeks
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Secondary outcome [4]
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Relative Change From Baseline in Forced Vital Capacity (FVC) Over 52 Weeks
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Assessment method [4]
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Percentage change from baseline in FVC over 52 weeks. Means provided are the adjusted means and are based on all analysed patients in the model (not only patients with a change from baseline to week 52).
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Timepoint [4]
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Baseline and 52 weeks
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Secondary outcome [5]
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Absolute Change From Baseline in Forced Vital Capacity (FVC) (% Predicted) Over 52 Weeks
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Assessment method [5]
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Means provided are the adjusted means and are based on all analysed patients in the model (not only patients with a change from baseline to week 52).
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Timepoint [5]
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Baseline and 52 weeks
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Secondary outcome [6]
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Relative Change From Baseline in Forced Vital Capacity (FVC) (% Predicted) Over 52 Weeks
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Assessment method [6]
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Percentage change from baseline in FVC (% predicted) at 52 weeks. Means provided are the adjusted means and are based on all analysed patients in the model (not only patients with a change from baseline to week 52).
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Timepoint [6]
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Baseline and 52 weeks
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Secondary outcome [7]
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Absolute Categorical Change of FVC (% Predicted) by Categories Over 52 Weeks - 5% Threshold
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Assessment method [7]
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Absolute categorical change of FVC (% predicted) by categories over 52 weeks - 5% threshold (decrease by \>5%, increase by \>5%, and change within =5%).
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Timepoint [7]
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Baseline and 52 weeks
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Secondary outcome [8]
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Absolute Categorical Change of FVC (% Predicted) by Categories Over 52 Weeks - 10% Threshold
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Assessment method [8]
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Absolute categorical change of FVC (% predicted) by categories over 52 weeks - 10% threshold (decrease by 10%, increase by \>10%, and change within =10%)
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Timepoint [8]
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Baseline and 52 weeks
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Secondary outcome [9]
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FVC Responders Using 10% Threshold at 52 Weeks
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Assessment method [9]
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FVC responders using 10% threshold at 52 weeks, defined as patients with absolute decline in FVC% predicted no greater than 10% and with an FVC evaluation at 52 weeks.
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Timepoint [9]
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52 weeks
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Secondary outcome [10]
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Proportion of FVC Responders Using 5% Threshold at 52 Weeks
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Assessment method [10]
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Proportion of FVC responders using 5% threshold at 52 weeks, defined as patients with absolute decline in FVC% predicted no greater than 5% and with an FVC evaluation at 52 weeks.
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Timepoint [10]
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52 weeks
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Secondary outcome [11]
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Proportion of SGRQ Responders at 52 Weeks: Patient Reported Outcomes (PROs)
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Assessment method [11]
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Proportion of SGRQ responders at 52 weeks
Responders defined as \<= -4 points change in change from baseline in SGRQ total score at 52 weeks.
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Timepoint [11]
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Baseline and 52 weeks
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Secondary outcome [12]
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Change From Baseline in SGRQ Symptom Score at 52 Weeks: Patient Reported Outcomes (PROs)
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Assessment method [12]
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SGRQ Symptom score is a sub-component of SGRQ total score and is concerned with the effect of respiratory symptoms, their frequency and severity. This score calculated as summed weights ranges from 0 to 100 with lower score denoting a better symptom-related quality of life.
Means presented are the adjusted means and are based on all analyzed patients in the model (not only patients with a baseline and measurement at week 52).
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Timepoint [12]
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Baseline and 52 weeks
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Secondary outcome [13]
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Change From Baseline in SGRQ Impact Score at 52 Weeks (Points): Patient Reported Outcomes (PROs)
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Assessment method [13]
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SGRQ Impact score is a sub-component of SGRQ total score and covers a range of aspects concerned with social functioning and psychological disturbances resulting from airway disease. This score calculated as summed weights ranges from 0 to 100 with lower score denoting a better impact-related quality of life.
Means presented are the adjusted means and are based on all analyzed patients in the model (not only patients with a baseline and measurement at week 52).
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Timepoint [13]
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Baseline and 52 weeks
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Secondary outcome [14]
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Change From Baseline in SGRQ Activity Score at 52 Weeks (Points): Patient Reported Outcomes (PROs)
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Assessment method [14]
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SGRQ Activity score is a sub-component of SGRQ total score and concerned with activities that cause or are limited by breathlessness. This score calculated as summed weights ranges from 0 to 100 with lower score denoting a better activity-related quality of life.
Means presented are the adjusted means and are based on all analyzed patients in the model (not only patients with a baseline and measurement at week 52).
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Timepoint [14]
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baseline and 52 weeks
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Secondary outcome [15]
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Change From Baseline in Idiopathic Pulmonary Fibrosis (IPF) Specific Version of SGRQ (SGRQ-I) Total Score at 52 Weeks (Points): Patient Reported Outcomes (PROs)
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Assessment method [15]
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SGRQ-I is the IPF specific version of SGRQ comprises of selected items from the SGRQ divided into three components, Symptoms, Activity and Impact. Each component is scored separately. The weights for all items with a positive responses are summed and the weights from missed items are deducted from the maximum possible weight for the total score.
The total score is calculated by dividing the summed weights from positive items in the questionnaire by maximum possible weight for all items in the questionnaire. The total score can range from 0 to 100 with a lower score denoting a better health-related quality of life. Change from baseline is calculated as the difference between total score at week 52 and total score at baseline as measured by the scale.
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Timepoint [15]
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Baseline and 52 weeks
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Secondary outcome [16]
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Change From Baseline in Shortness of Breath Questionnaire (SOBQ) at 52 Weeks: Patient Reported Outcomes (PROs)
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Assessment method [16]
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Shortness of Breath Questionnaire measures the shortness of breath. It comprises of 24 items. Each item is scored on a scale between 0-5 where 5 represents maximal breathlessness. The responses to all items are summed up to provide the overall score that can range from 0 (best outcome) to 120 (worst outcome).
Means presented are the adjusted means and are based on all analyzed patients in the model (not only patients with a baseline and measurement at week 52).
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Timepoint [16]
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baseline and 52 weeks
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Secondary outcome [17]
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Change From Baseline in Cough Symptoms Score of the Cough and Sputum Assessment Questionnaire (CASA-Q) Score at 52 Weeks: Patient Reported Outcomes (PROs)
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Assessment method [17]
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The cough domains of the Cough and Sputum Assessment Questionnaire (CASAQ(CD)) assess the frequency and severity of cough and sputum and their impact on everyday life. It contains 4 domains cough/sputum symptom and impact with each scale ranging from 0 to 100 with lower scores indicating higher symptoms/impact levels (worst outcome).
Means presented are the adjusted means and are based on all analyzed patients in the model (not only patients with a baseline and measurement at week 52).
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Timepoint [17]
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Baseline and 52 weeks
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Secondary outcome [18]
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Change From Baseline in Cough Impact Score of the Cough and Sputum Assessment Questionnaire (CASA-Q) Score at 52 Weeks : Patient Reported Outcomes (PROs)
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Assessment method [18]
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The cough domains of the Cough and Sputum Assessment Questionnaire (CASA-Q) assess the frequency and severity of cough and sputum and their impact on everyday life. It contains 4 domains cough/sputum symptom and impact with each scale ranging from 0 to 100 with lower scores indicating higher symptoms/impact levels (worst outcome).
Means presented are the adjusted means and are based on all analyzed patients in the model (not only patients with a baseline and measurement at week 52).
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Timepoint [18]
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Baseline and 52 weeks
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Secondary outcome [19]
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Proportion of Patient's Global Impression of Change (PGI-C) Responders at 52 Weeks: Patient Reported Outcomes (PROs)
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Assessment method [19]
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Patient's Global Impression of Change (PGI-C) responders are defined as 'Very much better'/ 'Much better'/ 'A little better'/ 'No change'.
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Timepoint [19]
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52 weeks
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Secondary outcome [20]
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Change From Baseline in EuroQol 5-Dimensional Quality of Life Questionnaire (EQ-5D) Health State up to 52 Weeks : Patient Reported Outcomes (PROs)
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Assessment method [20]
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The EuroQol 5-dimensional Health State is based on a visual analog scale (EQ-VAS) representing the general patient's health state labelled from 100 (best imaginable health state) to 0 (worst imaginable health state). A higher score indicating a better health state. Change from baseline is calculated as the difference between health state at week 12, 24 and 52 respectively and health state at baseline as measured by the scale.
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Timepoint [20]
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baseline, 12 weeks, 24 weeks and 52 weeks
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Secondary outcome [21]
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Risk of an Acute IPF Exacerbation Over 52 Weeks
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Assessment method [21]
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The incidence rate of exacerbations (calculated as the number of patients with at least 1 acute IPF exacerbation divided by the total number of years at risk in years\*100)
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Timepoint [21]
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52 weeks
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Secondary outcome [22]
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Time to Death Over 52 Weeks
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Assessment method [22]
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Due to rare events, the median of time to event is not calculable, thus the percentages of patients who did or did not experienced death before or at 372 days after randomisation or last contact date (whichever occurs first) are reported.
Failure is the proportion of patients who died over 52 weeks (373 days time-period) .
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Timepoint [22]
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52 weeks
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Secondary outcome [23]
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Time to Death Due to Respiratory Cause Over 52 Weeks (Adjudicated)
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Assessment method [23]
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Due to rare events, the median of time to event is not calculable, thus the percentages of participants who did or did not experienced death due to respiratory causes before or at 372 days after randomisation or last contact date (whichever occurs first) are reported.
Failure is the the proportion of patients who died due to respiratory causes over 52 weeks (373 days time-period).
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Timepoint [23]
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52 weeks
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Secondary outcome [24]
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Time to On-treatment Death
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Assessment method [24]
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Due to rare events, the median of time to event is not calculable, thus the percentages of participants who did or did not die before or at last trial medication intake + 28 days were censored at last trial medication intake + 28 days and reported.
Failure is the the proportion of patients who died on-treatment.
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Timepoint [24]
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52 weeks
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Secondary outcome [25]
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Time to Death or Lung Transplant Over 52 Weeks
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Assessment method [25]
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Due to rare events, the median of time to event is not calculable, thus the percentages of participants who did or did not experience event (death or lung transplant) before or at 372 days after randomisation or last contact date (whichever occurs first) are reported.
Failure is the proportion of patients who died or had lung transplant over 52 weeks (373 days time-period).
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Timepoint [25]
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52 weeks
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Secondary outcome [26]
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Time to Death or Lung Transplant or Qualifying for Lung Transplant Over 52 Weeks.
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Assessment method [26]
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Due to rare events, the median of time to event is not calculable, thus the percentages of participants who did or did not experienced death or lung transplant or qualifying for lung transplant over 52 weeks are reported. A patient was considered qualifying for lung transplant by the investigator if he or she fulfilled the following criteria:
FVC \<45% predicted or Carbon monoxide diffusion capacity (DL(CO)) \<30% pred or Oxygen saturation on pulse oximetry (SpO2) \<88% at rest, at sea level (to be adapted for other heights).
These criteria were evaluated by investigators judgement. Failure is the proportion of patients who died or had lung transplant or qualified for lung transplant over 52 weeks (373 days time-period).
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Timepoint [26]
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52 weeks
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Secondary outcome [27]
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Change From Baseline in SpO2 (Oxygen Saturation, Expressed in Percent) at Rest up Over 52 Weeks
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Assessment method [27]
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Means presented are the adjusted means. Adjusted mean is based on all analyzed patients in the model (not only patients with a change from baseline to week 52)
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Timepoint [27]
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Baseline and 52 weeks
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Secondary outcome [28]
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Change From Baseline in Carbon Monoxide Diffusion Capacity (DLCO) at Rest Over 52 Weeks
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Assessment method [28]
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Means provided are the adjusted means and are based on all analysed patients in the model (not only patients with a change from baseline to week 52).
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Timepoint [28]
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Baseline and 52 weeks
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Eligibility
Key inclusion criteria
Inclusion criteria:
1. Age >= 40 years;
2. IPF diagnosed, according to most recent American Thoracic Society (ATS), European Respiratory Society (ERS), Japanese Respiratory Society (JRS), Latin American Thoracic Association (ALAT) IPF guideline for diagnosis and management, within 5 years;
3. Combination of High Resolution Computerized Tomography (HRCT) pattern, and if available surgical lung biopsy pattern, as assessed by central reviewers, are consistent with diagnosis of IPF
4. Dlco (corrected for Hb): 30%-79% predicted of normal;
5. FVC>= 50% predicted of normal
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Minimum age
40
Years
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Maximum age
No limit
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Sex
Both males and females
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Can healthy volunteers participate?
No
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Key exclusion criteria
Exclusion criteria:
1. Aspartate Aminotransferase (AST), Alanine Aminotransferase (ALT) > 1.5 x Upper Limit of Normal (ULN)
2. Bilirubin > 1.5 x ULN;
3. Relevant airways obstruction (i.e. pre-bronchodilator FEV1/FVC < 0.7);
4. Patient likely to have lung transplantation during study (being on transplantation list is acceptable for participation);
5. Myocardial infarction within 6 months;
6. Unstable angina within 1 month;
7. Bleeding risk (genetic predisposition; fibrinolysis or full-dose therapeutic anticoagulation or high dose antiplatelet therapy; history of hemorrhagic CNS event within 12 months; haemoptysis or haematuria or active gastro-intestinal bleeding or ulcers or major injury or surgery within 3 months);
8. Thrombotic risk (inherited predisposition; history of thrombotic event (including stroke and transient ischemic attacks) within 12 months;
9. International normalised ratio (INR) > 2, prolongation of prothrombin time (PT) and partial thromboplastin time (PTT) by > 50% of institutional ULN);
10. N-ACetyl Cystein, prednisone > 15mg/day or equivalent received within 2 weeks of visit 1;
11. Pirfenidone, azathioprine, cyclophosphamide, cyclosporine A received within 8 weeks of visit 1;
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Study design
Purpose of the study
Treatment
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Allocation to intervention
Randomised controlled trial
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Procedure for enrolling a subject and allocating the treatment (allocation concealment procedures)
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Methods used to generate the sequence in which subjects will be randomised (sequence generation)
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Masking / blinding
Blinded (masking used)
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Who is / are masked / blinded?
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Intervention assignment
Parallel
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Other design features
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Phase
Phase 3
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Type of endpoint/s
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Statistical methods / analysis
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Recruitment
Recruitment status
Completed
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Data analysis
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Reason for early stopping/withdrawal
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Other reasons
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Date of first participant enrolment
Anticipated
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Actual
1/04/2011
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Date of last participant enrolment
Anticipated
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Actual
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Date of last data collection
Anticipated
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Actual
1/10/2013
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Sample size
Target
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Accrual to date
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Final
515
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Recruitment in Australia
Recruitment state(s)
NSW,SA,VIC
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Recruitment hospital [1]
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1199.32.61001 Boehringer Ingelheim Investigational Site - Camperdown
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Recruitment hospital [2]
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1199.32.61002 Boehringer Ingelheim Investigational Site - Concord
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Recruitment hospital [3]
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1199.32.61003 Boehringer Ingelheim Investigational Site - Daw Park
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Recruitment hospital [4]
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1199.32.61005 Boehringer Ingelheim Investigational Site - Frankston
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Recruitment hospital [5]
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1199.32.61004 Boehringer Ingelheim Investigational Site - Prahran
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Recruitment postcode(s) [1]
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- Camperdown
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Recruitment postcode(s) [2]
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- Concord
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Recruitment postcode(s) [3]
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- Daw Park
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Recruitment postcode(s) [4]
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- Frankston
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Recruitment postcode(s) [5]
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- Prahran
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Recruitment outside Australia
Country [1]
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United States of America
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State/province [1]
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Alabama
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0
0
United States of America
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Arizona
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0
0
United States of America
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California
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0
0
United States of America
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Connecticut
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0
0
United States of America
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Delaware
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0
0
United States of America
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Florida
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0
0
United States of America
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Iowa
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0
United States of America
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State/province [8]
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Kansas
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0
United States of America
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Minnesota
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0
United States of America
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New Jersey
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0
0
United States of America
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New York
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United States of America
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Ohio
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United States of America
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Oregon
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0
0
United States of America
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State/province [14]
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Pennsylvania
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0
0
United States of America
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State/province [15]
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Rhode Island
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0
0
United States of America
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State/province [16]
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Tennessee
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0
United States of America
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Texas
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0
0
United States of America
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Virginia
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0
0
United States of America
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Washington
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Belgium
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Bruxelles
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Belgium
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Jette
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Belgium
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Leuven
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Belgium
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Yvoir
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China
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State/province [24]
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Beijing
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China
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Changsha
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China
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Chengdu
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China
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Nanchang
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0
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China
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Xi'An
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Czech Republic
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Prague 4
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Czech Republic
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State/province [30]
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Prague 8
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Czech Republic
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State/province [31]
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Usti nad Labem
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0
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France
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State/province [32]
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Bobigny
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France
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State/province [33]
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Nice Cedex 1
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0
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France
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State/province [34]
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Paris Cedex 15
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France
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Paris Cedex 18
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0
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France
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State/province [36]
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Paris cedex 20
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Country [37]
0
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France
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State/province [37]
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Boehringer Ingelheim
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Summary
Brief summary
Idiopathic Pulmonary Fibrosis (IPF) is a chronic disease of unknown cause that results in scarring of the lung and there is a high unmet medical need for effective treatment to halt lung function decline, delay or avoid exacerbation (flare-ups), and ultimately to reduce the death rate. In a large Phase 2 trial (1199.30) (NCT00514683), investigating the effects of 52 weeks of treatment with BIBF 1120 in patients with IPF, a positive effect was seen on lung function of patients treated with high dose of BIBF 1120 compared to placebo. Hence it is the purpose of this trial to investigate and confirm the efficacy and safety of BIBF 1120 at a high dose in treating patients with IPF, compared with placebo. The trial will be conducted as a prospective, randomised design with the aim to collect safety and efficacy data. Respiratory function is globally accepted for assessment of treatment effects in IPF patients. The chosen endpoint (Forced Vital Capacity (FVC) decline) is easy to obtain and is part of the usual examinations done in IPF patients.
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Trial website
https://clinicaltrials.gov/study/NCT01335464
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Trial related presentations / publications
Glaspole I, Bonella F, Bargagli E, Glassberg MK, Caro F, Stansen W, Quaresma M, Orsatti L, Bendstrup E. Efficacy and safety of nintedanib in patients with idiopathic pulmonary fibrosis who are elderly or have comorbidities. Respir Res. 2021 Apr 26;22(1):125. doi: 10.1186/s12931-021-01695-y. Jouneau S, Crestani B, Thibault R, Lederlin M, Vernhet L, Valenzuela C, Wijsenbeek M, Kreuter M, Stansen W, Quaresma M, Cottin V. Analysis of body mass index, weight loss and progression of idiopathic pulmonary fibrosis. Respir Res. 2020 Nov 25;21(1):312. doi: 10.1186/s12931-020-01528-4. Brown KK, Martinez FJ, Walsh SLF, Thannickal VJ, Prasse A, Schlenker-Herceg R, Goeldner RG, Clerisme-Beaty E, Tetzlaff K, Cottin V, Wells AU. The natural history of progressive fibrosing interstitial lung diseases. Eur Respir J. 2020 Jun 25;55(6):2000085. doi: 10.1183/13993003.00085-2020. Print 2020 Jun. Richeldi L, Kolb M, Jouneau S, Wuyts WA, Schinzel B, Stowasser S, Quaresma M, Raghu G. Efficacy and safety of nintedanib in patients with advanced idiopathic pulmonary fibrosis. BMC Pulm Med. 2020 Jan 8;20(1):3. doi: 10.1186/s12890-019-1030-4. Kreuter M, Koegler H, Trampisch M, Geier S, Richeldi L. Differing severities of acute exacerbations of idiopathic pulmonary fibrosis (IPF): insights from the INPULSIS(R) trials. Respir Res. 2019 Apr 11;20(1):71. doi: 10.1186/s12931-019-1037-7. Xu Z, Li H, Wen F, Bai C, Chen P, Fan F, Hu N, Stowasser S, Kang J. Subgroup Analysis for Chinese Patients Included in the INPULSIS(R) Trials on Nintedanib in Idiopathic Pulmonary Fibrosis. Adv Ther. 2019 Mar;36(3):621-631. doi: 10.1007/s12325-019-0887-1. Epub 2019 Feb 7. Costabel U, Behr J, Crestani B, Stansen W, Schlenker-Herceg R, Stowasser S, Raghu G. Anti-acid therapy in idiopathic pulmonary fibrosis: insights from the INPULSIS(R) trials. Respir Res. 2018 Sep 3;19(1):167. doi: 10.1186/s12931-018-0866-0. Collard HR, Richeldi L, Kim DS, Taniguchi H, Tschoepe I, Luisetti M, Roman J, Tino G, Schlenker-Herceg R, Hallmann C, du Bois RM. Acute exacerbations in the INPULSIS trials of nintedanib in idiopathic pulmonary fibrosis. Eur Respir J. 2017 May 19;49(5):1601339. doi: 10.1183/13993003.01339-2016. Print 2017 May. Paterniti MO, Bi Y, Rekic D, Wang Y, Karimi-Shah BA, Chowdhury BA. Acute Exacerbation and Decline in Forced Vital Capacity Are Associated with Increased Mortality in Idiopathic Pulmonary Fibrosis. Ann Am Thorac Soc. 2017 Sep;14(9):1395-1402. doi: 10.1513/AnnalsATS.201606-458OC. Rinciog C, Watkins M, Chang S, Maher TM, LeReun C, Esser D, Diamantopoulos A. A Cost-Effectiveness Analysis of Nintedanib in Idiopathic Pulmonary Fibrosis in the UK. Pharmacoeconomics. 2017 Apr;35(4):479-491. doi: 10.1007/s40273-016-0480-2. Kolb M, Richeldi L, Behr J, Maher TM, Tang W, Stowasser S, Hallmann C, du Bois RM. Nintedanib in patients with idiopathic pulmonary fibrosis and preserved lung volume. Thorax. 2017 Apr;72(4):340-346. doi: 10.1136/thoraxjnl-2016-208710. Epub 2016 Sep 26. Corte T, Bonella F, Crestani B, Demedts MG, Richeldi L, Coeck C, Pelling K, Quaresma M, Lasky JA. Safety, tolerability and appropriate use of nintedanib in idiopathic pulmonary fibrosis. Respir Res. 2015 Sep 24;16:116. doi: 10.1186/s12931-015-0276-5. Richeldi L, du Bois RM, Raghu G, Azuma A, Brown KK, Costabel U, Cottin V, Flaherty KR, Hansell DM, Inoue Y, Kim DS, Kolb M, Nicholson AG, Noble PW, Selman M, Taniguchi H, Brun M, Le Maulf F, Girard M, Stowasser S, Schlenker-Herceg R, Disse B, Collard HR; INPULSIS Trial Investigators. Efficacy and safety of nintedanib in idiopathic pulmonary fibrosis. N Engl J Med. 2014 May 29;370(22):2071-82. doi: 10.1056/NEJMoa1402584. Epub 2014 May 18. Erratum In: N Engl J Med. 2015 Aug 20;373(8):782. doi: 10.1056/NEJMx150012. Richeldi L, Cottin V, Flaherty KR, Kolb M, Inoue Y, Raghu G, Taniguchi H, Hansell DM, Nicholson AG, Le Maulf F, Stowasser S, Collard HR. Design of the INPULSIS trials: two phase 3 trials of nintedanib in patients with idiopathic pulmonary fibrosis. Respir Med. 2014 Jul;108(7):1023-30. doi: 10.1016/j.rmed.2014.04.011. Epub 2014 Apr 29.
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Boehringer Ingelheim
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What supporting documents are/will be available?
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Results are available at
https://clinicaltrials.gov/study/NCT01335464
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