Acute exacerbation of idiopathic pulmonary fibrosis (AE-IPF) is associated with a poor prognosis, with a 3-month mortality rate of over 50%. To date, no treatment has been proven to be effective in AI-FPI. The interest of glucocorticoids is controversial and needs to be confirmed. This confirmation is mandatory to validate the improvement of the prognosis of EA-IPF under this treatment but also to search for unsuspected deleterious effects as it has been shown with immunosuppressants in stable idiopathic pulmonary fibrosis.
Idiopathic pulmonary fibrosis (IPF) is the most frequent idiopathic interstitial lung disease (ILD) in adults. Its prognosis is poor with a median survival time ranging from 2 to 3 years. Acute exacerbation of IPF (IPF-AE) is defined as acute, clinically significant respiratory deterioration characterized by evidence of new widespread alveolar abnormalities. Recently, diagnosis criteria were defined now allowing standardized diagnosis of IPF-AE and thus its study. IPF-AE is a major event of the disease having a 5 to 10% annual incidence. In-hospital mortality after IPF-AE exceeds 50% and current evidence suggests that up to 46% of deaths in IPF patients are associated with IPF-AE. For the time being, no treatment has been proved to be effective in IPF-AE. While the clinical practice guideline suggests treatment with steroids, this recommendation is based only on expert opinion (low level evidence). Retrospective studies suggested the efficacy of thrombomodulin, cyclophosphamide or of therapeutic strategy including plasma exchange, rituximab and intravenous immunoglobulins. A recent Japanese randomized trial failed to show the efficacy of thrombomodulin alfa. Investigators performed a randomized trial assessing the role of cyclophosphamide on top of pulse steroid (EXAFIP-NCT02460588) and showed that cyclophosphamide did not reduce the 3-month mortality. A study assessing the effect of therapeutic plasma exchange, rituximab and intravenous immunoglobulins for severe form of IPF-AE patients admitted to Intensive Care Unit (ICU) is still ongoing (NCT03286556). Presently, the clinical benefit of corticosteroids is questioned. Indeed, 2 retrospective series reported an absence of outcome improvement by corticosteroids among IPF-AE patients and even suggested a potential detrimental outcome. It is therefore necessary to set-up a placebo-controlled randomized trial: investigator's goal is to test the hypothesis that a corticosteroid treatment is highly efficient in IPF-AE, compared to placebo. This underlines that, as no good evidence is available to support the use of glucocorticoids in IPF-AE, randomized controlled trials are also needed to address their efficacy and safety in this indication. The choices of glucocorticoids' dosage, primary objective (mortality) and primary assessment criteria (all cause mortality rate at Day 30) are driven by investigator's previous study, EXAFIP. In this study, glucocorticoids dosage was as follow: intravenous methylprednisolone, 10 mg/kg/d (without exceeding 1000 mg/d), 3 days in a row shift to prednisone at 1 mg/kg/d for 1 week, and 0.75 mg/kg/d for 1 week, then 0.5 mg/kg/d for 1 week, and 0.25 mg/kg/d for 1 week, and 10 mg/d if weight \> 65 kg; 7.5 mg if weight ≤ 65 kg until M6. The 1-month mortality of patient under this high dose of glucocorticoids was 20%. In view of the poor prognosis of IPF-AE, it seems also important to evaluate the effect of treatment on overall mortality at Day 90.
Study Type
INTERVENTIONAL
Allocation
RANDOMIZED
Purpose
TREATMENT
Masking
DOUBLE
Enrollment
110
Patients will be enrolled during their hospitalization in pneumology department, as part of current practice, within 7 days of the screening visit. The investigator will perform randomization by connecting to the eCRF, randomization be stratified for the severity of IPF and the treatment with antifibrotic therapy (Nintedanib or Pirfenidone) (yes/no). If patient is randomized in Glucocorticoids Group: * Day 1, 2 and 3: Intravenous Methylprednisolone 10 mg/kg/d (without exceeding 1000 mg/d). Vials of injectable solution of methylprednisolone® are diluted in 100 ml of NaCl 0.9% or G5%. Perfusion duration is between 20 to 30 minutes. * From day 4 to Day 30: Oral Prednisone slow tappering * 1 mg/kg/d for 7 days * 0.5 mg/kg/d for 7 days * 0.25 mg/kg/d for 7 days, * 10 mg/d until Day 30. For 10mg/kg, 1 mg/kg, 0.5 mg/kg, 0.25 mg/kg; rounding to 5 decimal lower if decimal ≤ 7 and the top ten if decimal ≥ 8.
Patients will be enrolled during their hospitalization in pneumology department, as part of current practice, within 7 days of the screening visit. The investigator will perform randomization by connecting to the eCRF, randomization be stratified for the severity of IPF and the treatment with antifibrotic therapy (Nintedanib or Pirfenidone) (yes/no). If patient is randomized in Placebo Group: Day 1, 2 and 3: Intravenous Methylprednisolone-Placebo From Day 4 to Day 30: Oral Prednisone-Placebo The Methylprednisolone-Placebo corresponds to 100 ml of NaCl 0.9 % or G5%. Perfusion duration is between 20 to 30 minutes. For the Prednisone-Placebo, the placebo was an oral solution formulated with a bittering agent (pharmaceutical excipient). Specifically, in place of prednisone, sucrose octaacetate (defined as a GRAS-'Generally Recognized as Safe' excipient by the EMA) was used at 5 mg/mL.
CHU ANgers
Angers, France
RECRUITINGCHU de Besancon
Besançon, France
RECRUITINGHôpital Avicenne
Bobigny, France
NOT_YET_RECRUITINGCHU BOrdeaux
Bordeaux, France
RECRUITINGCHU Caen
Caen, France
RECRUITINGCHU Clermont-Ferrand
Clermont-Ferrand, France
NOT_YET_RECRUITINGCHIC
Créteil, France
RECRUITINGCHU de Dijon
Dijon, France
RECRUITINGCHU Grenoble
Grenoble, France
NOT_YET_RECRUITINGCHRU Lille
Lille, France
NOT_YET_RECRUITING...and 19 more locations
Efficacy of glucocorticoids compared to placebo on mortality
This outcome corresponds to the all-cause mortality rate at day 30.
Time frame: Day 30
Time to death at Day 30
This outcome corresponds to the vital status assessment at Day 30 with time (in days) between randomization and death.
Time frame: Day 30
Time to death at Day 90
This outcome corresponds to the vital status assessment at Day 90 with time (in days) between randomization and death.
Time frame: Day 90
Death or transplantation at Day 90
This outcome corresponds to the vital status and transplantation at Day 90.
Time frame: Day90
Respiratory disease-specific mortality rate at Day 30
This outcome corresponds to the mortality linked to the respiratory disease: cause of death assessment at Day 30.
Time frame: Day 30
Respiratory disease-specific mortality rate at Day 90
This outcome corresponds to the mortality linked to the respiratory disease: cause of death assessment at Day 90.
Time frame: Day 90
Time to worsening
This outcome corresponds to the time (in days) from randomization to worsening from day4 to day30 (end of study treatment).
Time frame: Day30
Percentage of patients admitted to ICU
This outcome corresponds to the percentage of patients admitted to ICU from randomization to ICU's admission.
Time frame: Day90
Percentage of patients requiring invasive ventilation
This outcome corresponds to the percentage of patients requiring invasive ventilation from randomization to invasive ventilation.
Time frame: Day90
Length of hospital stay
This outcome corresponds to the length of hospital-stay: Time (in days) from randomization to hospital withdraw.
Time frame: Day 90
Radiological evolution
This outcome corresponds to the progression of pulmonary fibrosis: Chest HRCT scan comparison before Acute Exacerbation (if available) and at Day 90. Chest CT scans exacerbation, were analyzed by 2 thoracic radiologists' expert in interstitial lung diseases (PYBrillet, MPDebray). Before chest CT scans were evaluated for the pattern of ILD, according to the 2018 ATS/ERS classification for the diagnosis of IPF. The extent of interstitial fibrosing features on "Before" and "D90" CT scan was calculated by summing the extent of honeycombing, the extent of ground glass attenuation causing traction bronchiectasis both to the nearest 5% of the whole lungs, and the extent of reticular opacities. For this latter, the extension was estimated to the nearest 10% at three lung zones (delimited by the carina and the lowest inferior pulmonary vein for both lungs) and averaged between these 3 zones.
Time frame: Day90
Pulmonary function tests evolution: Forced Vital Capacity
This outcome corresponds to the Absolute change in percent Forced Vital Capacity: Pulmonary function tests (PFTs) comparison before Acute Exacerbation (if available) and at Day 90.
Time frame: Day90
Pulmonary function tests evolution: DLCO
This outcome corresponds to the Absolute change in percent DLCO: Pulmonary function tests (PFTs) comparison before Acute Exacerbation (if available) and at Day 90.
Time frame: Day90
Occurence of Infectious disease
This outcome corresponds to the occurence of infectious disease from D1 to Day 90.
Time frame: Day 90
Occurence of Diabetes mellitus
This outcome corresponds to the occurence of diabetes mellitus by Capillary blood glucose monitoring and/or fasting blood glucose daily from D1 to Day 90.
Time frame: Day90
Occurence of Cardiovascular disorder
This outcome corresponds to the occurence of cardiovascular disorder (heart rate, blood pressure, clinical history daily) from D1 to Day 90.
Time frame: Day90
Occurence of Neuropsychological disturbances
This outcome corresponds to the occurence of neuropsychological disturbances from D1 to Day 90.
Time frame: Day90
Occurence of Clinical laboratory evaluation
This outcome corresponds to the occurence of clinical laboratory evolution (blood count, serum chemistries and creatinin measurement) from Day 4 to Day 90.
Time frame: Day 90
Compare both arms in terms of Dyspnea
This outcome corresponds to the 0-100-mm visual analogue (VAS) scale anchored with 0 ''no breathlessness'' and 10 or 100 ''worst imaginable breathlessness", at Day1, Day 30 and Day 90.
Time frame: Day1, Day30, Day90
Compare both arms in terms of Anxiety
This outcome corresponds to theHospital Anxiety and Depression Scale (HADs), daily from randomization to hospital withdraw, Day 30 and Day 90. The HAD scale is an instrument that screens for anxiety and depressive disorders. It includes 14 questions rated from 0 to 3. Seven questions relate to anxiety (Total A) and seven others to the depressive dimension (Total D), thus making it possible to obtain both scores (maximum score for each score = 21).
Time frame: Day 90
Compare both arms in terms of Depression
This outcome corresponds to the Anxiety and Depression Scale (HADs), from Day 1 to Day 90. The HAD scale is an instrument that screens for anxiety and depressive disorders. It includes 14 questions rated from 0 to 3. Seven questions relate to anxiety (Total A) and seven others to the depressive dimension (Total D), thus making it possible to obtain both scores (maximum score for each score = 21).
Time frame: Day90
Compare both arms in terms of Clinical status at day 15
This outcome corresponds to the -category ordinal scale: 1: not hospitalized and no limitations of activities, 2: not hospitalized, with limitations of activities, home oxygen requirement, or both, 3: hospitalized, not requiring supplemental oxygen and no longer requiring ongoing medical care (used if hospitalization was extended for infection-control or other nonmedicala reason, 4: hospitalized requiring any supplemental oxygen, 5: hospitalized, requiring use of high high-flow oxygen device or noninvasive ventilation, 6: hospitalize, receiving invasive mechanicalventilation or extra corporeal membrane oxygenation (ECMO), 7: death.
Time frame: Day15
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