Myositis Interstitial Lung Disease Nintedanib Trial

Overview

About this study

The purpose of this study is to evaluate safety and how well the study drug, nintedanib improve symptoms in participants with myositis associated interstitial lung disease (MA-ILD).

Interstitial lung disease is a disorder caused by the abnormal accumulation of cells structures between air sacs of the lungs resulting in thickening, stiffness and scarring of the tissues of the lung. This study will enroll a total of 134 participants across 15 clinical sites located in the United States. A subset of participants will be enrolled remotely via telemedicine utilizing certified mobile home research nurses and various remote monitoring devices. The research visits may include a physical exam, vital signs (such as blood pressure, heart rate, etc.), pulmonary function tests (PFT and/or home spirometry), Computerized Tomography (or CT) scans of the chest, blood draws, wearing a physical activity monitor and completing questionnaires. Some of these events may be done at home, at a local facility or remotely (via telemedicine).

Participation eligibility

Participant eligibility includes age, gender, type and stage of disease, and previous treatments or health concerns. Guidelines differ from study to study, and identify who can or cannot participate. There is no guarantee that every individual who qualifies and wants to participate in a trial will be enrolled. Contact the study team to discuss study eligibility and potential participation.

Inclusion Criteria:

1. Subject has provided written informed consent
2. Approval from local treating physician (done at pre-screening only for remote patients as well as for local site patients not actively being managed at the local site).
3. Subject lives in the United States
4. Adult: Age ≥ 18 years
5. Subject can speak, read, and understand English or Spanish
6. Subject is willing and capable of performing all study procedures.
7. Validity/repeatability of home spirometry confirmed by PFT lab technician/MD through telemedicine as per American Thoracic Society guidelines.
8. Men and women of reproductive potential must agree to use 2 reliable methods of birth control during the trial period.
9. Clinical diagnosis of myositis or presence of one of the following myositis-specific or -associated autoantibodies).

1. Anti-synthetase autoantibody (Anti-Jo-1, -PL-7, -PL-12, -EJ, -OJ, -KS, -Tyr, -Zo)
2. Anti-MDA5, TIF1-gamma, Mi-2, NXP2/MJ, SAE, HMGCR, SRP
3. Anti-PM/Scl, Ku, U1RNP, Ro5,2/60, or SSA (in absence of clinical diagnosis of systemic sclerosis or primary Sjogren syndrome).
10. Fibrosing Interstitial Lung Disease (ILD):

1. HRCT chest within 12 months of screening visit with fibrosing ILD (reticular changes, traction bronchiectasis, and/or honeycombing)
2. No other identifiable cause of fibrosis
3. The following co-existing features are expected and accepted: ground glass opacity, upper lung or peri-bronchovascular predominance, mosaic attenuation, air trapping, consolidation, and centrilobular nodules.
11. Progressive ILD: Defined as meeting ≥1 of the following criteria within 24 months of the screening visit.

1. ≥10% relative decline in FVC% predicted (%pred)
2. ≥5 but \<10% relative decline in FVC %pred with worsening dyspnea.
3. ≥5 but \<10% relative decline in FVC %pred with worsening chest HRCT fibrotic changes
4. Worsening dyspnea with worsening chest HRCT fibrosis
5. Worsening dyspenea with FCV% \12. Standard of care (SOC) therapy: (See: SOC immunosuppression and washout under section 6.2 for details)

1. Allowable SOC includes a maximum of 2: 1 glucocorticoid (GC) and 1 Non-GC immunosuppressive medication (IS) Or 2 Non-GC immunosuppressive medications.
2. Allowable IS component of SOC regimen must have been started at least 12 weeks prior and be stable for at least 4 weeks before baseline visit.
3. In case a patient is not on any of the SOC immunosuppression, patient can be enrolled if at least 2 SOC immunosuppression are either previously failed or had intolerance or are contra-indicated.
4. Allowable GC component of SOC regimen must have been started at least 4 weeks prior and be stable for at least 2 weeks before baseline visit.
5. Allowable IS and GC:

Glucocorticoid (maximum dose ≤20 mg/day; prednisone equivalent). Mycophenolate mofetil (max dose 3 gm/day) Mycophenolic acid (max dose 2,160 mg/day) Azathioprine (max dose 2.5 mg/kg/day) Methotrexate (max dose 25 mg/week Tacrolimus (max dose 10 mg/day) Cyclosporine (max dose 200 mg/day) Leflunomide (max dose 20 mg/day) Sulfasalazine (max dose 3 gm/day) JAK inhibitors (tofacitinib max does 11 mg/day, upadacitinib max dose 15 mg/day, baricitinib max does 4 mg/day) IVIG (Intravenous immunoglobulin) or SQIG (subcutaneous immunoglobulin) (max dose 2 gm/kg/month) is allowed and not considered as SOC IS therapy Rituximab (maximum dose 1000 mg x 2 (2 weeks apart) or 375mg/m2 weekly dose x 4, repeated every \> 4 months) Hydroxychloroquine is allowed and not considered as SOC IS therapy. Orencia (max dose of 125 mg SQ once a week or 1 gm monthly IV infusion)
6. Inhaled medication(s) for lung disease is allowed if started \> 4 weeks before screening.

Should remain stable throughout the study.
13. Negative pregnancy test

Exclusion Criteria:

1. Planned major surgical procedures within the trial period of 24 weeks.
2. Women who are pregnant, nursing, or who plan to become pregnant while in the trial.
3. Women of childbearing potential\* not willing or able to use at least two highly effective methods of birth control.

1. For females of reproductive potential: use of highly effective contraception for at least 1 month before study drug administration and agreement to use such a method during study participation and for an additional 28 days after the end of study drug administration.
2. For males of reproductive potential\*\*: use of condoms or other methods to ensure effective contraception with a partner

Highly effective contraception examples are:
* An approved hormonal contraceptive such as oral contraceptives, emergency contraception used as directed, patches, implants, injections, rings, hormonally-impregnated intrauterine device (IUD), or nonhormonal IUD.
* Abstinence
* Condoms

* A woman is considered of childbearing potential, i.e. fertile, following menarche, and until becoming post-menopausal unless permanently sterile. Permanent sterilization methods include hysterectomy, bilateral salpingectomy, tubal occlusion, and bilateral oophorectomy.

* A man is considered permanently sterile if a vasectomy has been performed.
4. Severe lung disease is defined by the following within the last 6 months before the screening:

1. FVC ≤40 percent predicted
2. DLCO \<30% of percent predicted (corrected for Hb)
3. O2 requirement of ≥10 L at rest based on home oxygen prescription.
4. Patient listed for lung transplant or actively going through lung transplant evaluation.
5. Moderate to severe active muscle disease from myositis as per any one of the criteria:

1. Creatine kinase (CK) \> 2000 U/mL.
2. Moderate to severe dermatomyositis rashes as per investigator evaluation (if rash present)
3. Moderate to severe arthritis as per investigator evaluation
4. Moderate to severe muscle weakness as per Sit to Stand 30 seconds of \< 7.
6. History of or ongoing serious active, chronic, or recurrent infection within 4 weeks of screening
7. Significant Pulmonary Hypertension (PH) is defined by any of the following:

1. Current clinical diagnosis of moderate to severe PH or significant right heart failure.
2. History of echocardiographic evidence of significant right heart failure or moderate to severe PH (TR jet \>= 2.9 m/s and signs of right ventricle (RV) dysfunction; or TR jet \> 3.4; or an right ventricle systolic pressure (RVSP) \> 40-55 with evidence of RV strain or dysfunction; or RVSP \> 55 regardless.
3. History of right heart catheterization showing a cardiac index ≤ 2.2 l/min/m² or severity of pulmonary hypertension (mPAP) \>40 millimeters of mercury (mmHg) with a pulmonary capillary wedge pressure (PCWP) \<15mmHg
4. PH requiring oral, IV, or inhaled therapy (such as epoprostenol, treprostinil, iloprost, bosentan, ambrisentan, sildenafil, and tadalafil).
8. Increased bleeding risk, defined by any of the following:

1. Patients who require

* Fibrinolysis, full-dose therapeutic anticoagulation (e.g. vitamin K antagonists, direct thrombin inhibitors, heparin, factor Xa inhibitors, low molecular weight heparin)
* High dose antiplatelet therapy (\>325mg acetylsalicylic acid or \>75mg clopidogrel).
2. History of hemorrhagic central nervous system (CNS) event within 12 months of screening.
3. Any of the following within 3 months of screening:

* Hemoptysis or hematuria
* Active gastrointestinal (GI) bleeding or active GI ulcers.
4. Coagulation parameters: International normalized ratio (INR) \>2, prolongation of prothrombin time (PT) and by \>1.5 x ULN at screening.
9. History of a thrombotic event (including stroke and transient ischemic attack) within 12 months of screening.
10. Severe Cardiovascular disease, any of the following:

1. Severe hypertension, uncontrolled under treatment (≥160/100 mmHg), within 6 months of screening.
2. Myocardial infarction or unstable cardiac angina within 6 months of screening.
11. Patients with underlying chronic liver disease (Child-Pugh A, B, or C hepatic impairment).
12. Known hypersensitivity to the trial medication or its components (i.e. soya lecithin)
13. Other diseases that may interfere with testing procedures or in the judgment of the Investigator may interfere with trial participation (such as significant GI issues like irritable bowel syndrome, inflammatory bowel disease, recent abdominal surgery, diverticular disease), or significant other lung diseases (such as severe obstructive lung disease such as severe asthma or severe chronic obstructive pulmonary disease, etc.) or may put the patient at risk when participating in this trial.
14. Life expectancy for a disease other than ILD \< 2.5 years (Investigator assessment).
15. In the opinion of the investigator, any condition precluding participation and completion of the study, including active alcohol and drug abuse or patients not able to understand or follow trial procedures.
16. Other investigational therapy was received within 1 month or 6 half-lives (whichever was greater) before the screening visit.
17. Current treatment with nintedanib or pirfenidone (taken the drug within 3 months of randomization or history of intolerance/side effects)
18. Current or recent use of one or more of the following medications (See: SOC immunosuppression and washout under section 6.2 for details)

1. Cyclophosphamide within 3 months of baseline.
2. Anti-tumor necrosis factor (infliximab, golimumab, or certolizumab) within 8 weeks or adalimumab within 4 weeks, and etanercept within 2 weeks of baseline.
3. Anakinra within 1 week of baseline.
4. Other biological agents such as tocilizumab, etc. within 4 weeks of baseline.
19. Safety laboratory abnormality as any one of below

1. Aspartate transferase (AST), alanine aminotransferase (ALT) \> 1.5 x ULN at screening, unless deemed due to active myositis by investigator, in which case CK is also abnormally elevated and the ratio of AST or ALT by CK levels (adjusted as x ULN) should be \< 2.0 and gamma-glutamyl transferase \< 2.0 x ULN.
2. Bilirubin \> 1.5 x ULN at screening
3. Creatinine clearance \<30 mL/min calculated by Cockcroft-Gault formula at screening.
4. Hgb \< 9.0
5. Platelet count \< 100,000/mm3
6. White blood cells \< 3000/mm3

Note: Other protocol defined Inclusion/Exclusion Criteria may apply.

Eligibility last updated 10/09/2024. Questions regarding updates should be directed to the study team contact.
 

Participating Mayo Clinic locations

Study statuses change often. Please contact the study team for the most up-to-date information regarding possible participation.

Mayo Clinic Location Status Contact

Scottsdale/Phoenix, Ariz.

Mayo Clinic principal investigator

Vivek Nagaraja, M.B.B.S., M.D.

Closed for enrollment

Contact information:

Vivek Nagaraja M.B.B.S., M.D.

Nagaraja.Vivek@mayo.edu

More information

Publications

  • The antifibrotic therapies nintedanib and pirfenidone were first approved by the United States for the treatment of idiopathic pulmonary fibrosis in 2014. In 2020, nintedanib received U.S. Food and Drug Administration (FDA) approval for the treatment of all progressive fibrosing interstitial lung disease (ILD). Given that a major cause of mortality and morbidity in the idiopathic inflammatory myopathies (IIM) is progressive interstitial lung disease and respiratory failure, antifibrotic therapies may be useful as adjuvant to traditional immunosuppression. However, randomized controlled trials of antifibrotic therapies in IIM are lacking. The purpose of this review is to (1) summarize the mechanism of action of nintedanib and pirfenidone in ILD with possible role in IIM-ILD, (2) review the clinical data supporting their use in interstitial lung disease in general, and more specifically in connective tissue disease associated ILD, and (3) discuss the evidence and remaining challenges for using antifibrotic therapies in IIM-ILD. Read More on PubMed
  • To initially clarify the efficacy and tolerability of nintedanib in patients with idiopathic-inflammatory-myopathy-related interstitial lung disease (IIM-ILD). A retrospective, real-world analysis was conducted in IIM-ILD patients who regularly received outpatient visit or hospitalization from January 2018 to March 2020 in three centers. And the patients were divided into two groups depending on presence or absence of nintedanib therapy. Comparisons, Kaplan-Meier survival analysis and propensity score matching were made to identify difference in time to death from any cause, incidence of rapidly progressive interstitial lung disease (RP-ILD) and comorbidity of pulmonary infection between the two groups. The following logistic regression analyses and Cox proportional-hazard regression analyses were used to verify the therapeutic value of nintedanib as well as clinical significance of other factors. Adverse events were descriptively recorded. Thirty-six patients receiving nintedanib therapy and 115 patients without use of nintedanib were included. Before and after propensity score matching, the primary comparisons revealed better survival ( = 0.015, = 0016, respectively) and lower incidence of RP-ILD ( = 0.017, = 0.014, respectively) in patients with nintedanib therapy. Logistic regression analysis identified that disease activity ( < 0.001), percent-predicted diffusing capacity of the lung for carbon monoxide (DLCO%, = 0.036), nintedanib therapy ( = 0.004, OR value = 0.072) and amyopathic dermatomyositis (ADM, = 0.012) were significantly correlated with RP-ILD. Cox proportional hazards regression analysis suggested that disease activity ( < 0.001), anti-MDA5 antibody ( < 0.001) and nintedanib therapy ( = 0.013, HR value=0.268) were significantly associated with survival of IIM-ILD patients. Similar results can also be seen in analyses after propensity score matching. In the 36 patients with nintedanib therapy, diarrhea was the most common adverse event (44.4%) and hepatic insufficiency contributed to most dosage reduction (44.4% of nine patients) or therapy discontinuation (60.0% of five patients). Nintedanib was found to reduce incidence of RP-ILD and improve survival in IIM-ILD patients in a real-world setting. Anti-MDA5 antibody could be taken as a risk factor for unfavorable outcome. ADM was significantly correlated with occurrence of RP-ILD. In addition to the most frequent diarrhea, hepatic insufficiency was closely related to dosage reduction or therapy discontinuation. Read More on PubMed
  • This study reports a low dose combination therapy of cyclophosphamide (CYC) and pirfenidone (PFD) and the efficiency and safety of the therapy in refractory connective tissue disease associated interstitial lung disease (CTD-ILD) patients. Read More on PubMed
  • Preclinical data have suggested that nintedanib, an intracellular inhibitor of tyrosine kinases, inhibits processes involved in the progression of lung fibrosis. Although the efficacy of nintedanib has been shown in idiopathic pulmonary fibrosis, its efficacy across a broad range of fibrosing lung diseases is unknown. Read More on PubMed
  • Interstitial lung disease (ILD) is a common manifestation of systemic sclerosis and a leading cause of systemic sclerosis-related death. Nintedanib, a tyrosine kinase inhibitor, has been shown to have antifibrotic and antiinflammatory effects in preclinical models of systemic sclerosis and ILD. Read More on PubMed
  • To evaluate the efficacy of pirfenidone in patients with rapidly progressive interstitial lung disease (RPILD) related to clinically amyopathic dermatomyositis (CADM), we conducted an open-label, prospective study with matched retrospective controls. Thirty patients diagnosed with CADM-RPILD with a disease duration <6 months at Renji Hospital South Campus from June 2014 to November 2015 were prospectively enrolled and treated with pirfenidone at a target dose of 1800 mg/d in addition to conventional treatment, such as a glucocorticoid and/or other immunosuppressants. Matched patients without pirfenidone treatment (n = 27) were retrospectively selected as controls between October 2012 and September 2015. We found that the pirfenidone add-on group displayed a trend of lower mortality compared with the control group (36.7% vs 51.9%, p = 0.2226). Furthermore, the subgroup analysis indicated that the pirfenidone add-on had no impact on the survival of acute ILD patients (disease duration <3 months) (50% vs 50%, p = 0.3862); while for subacute ILD patients (disease duration 3-6 months), the pirfenidone add-on (n = 10) had a significantly higher survival rate compared with the control subgroup (n = 9) (90% vs 44.4%, p = 0.0450). Our data indicated that the pirfenidone add-on may improve the prognosis of patients with subacute ILD related to CADM. Read More on PubMed
  • Interstitial lung disease (ILD) is common in connective tissue disease (CTD) and is the leading cause of mortality. Investigators have used certain outcome measures in randomized controlled trials (RCT) in CTD-ILD, but the lack of a systematically developed, CTD-specific index that captures all measures relevant and meaningful to patients with CTD-ILD has left a large and conspicuous gap in CTD-ILD research. Read More on PubMed
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CLS-20568334

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