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ACHLYS: AbataCept for the Treatment of Immune-cHeckpoint Inhibitors Induced mYocarditiS

Sponsor
Assistance Publique - Hôpitaux de Paris (Other)
Overall Status
Not yet recruiting
CT.gov ID
NCT05195645
Collaborator
(none)
21
Enrollment
3
Arms
26.6
Anticipated Duration (Months)

Study Details

Study Description

Brief Summary

Immune-checkpoint-inhibitors (ICI) have revolutionized treatment for 20 cancer types. They unleash anti-tumor immune responses. Unfortunately, in 0.36-1.23% of patients, this activation can also lead to lethal immune-related adverse events (irAEs) that can affect any organ. Among those irAEs, ICI-induced myocarditis are the most frequently fatal with death rate reaching 50% in a large case-series of over 100 patients.

This study is a dose-finding Phase II trial where 3 abatacept IV regimen (A-10 mg/kg; B-20 mg/kg and C-25 mg/kg every week) will be tested aiming at reaching promptly (after the first dose) and sustainably a CD86RO≥80% during the first 3 weeks of ICI-myocarditis management. The main objective is to find the lowest dose required to achieve a circulating monocytes CD86RO≥80% within the first week of treatment and sustainably over three weeks. The target population is all adult patients with cancer (all cancer types) treated by immune checkpoint inhibitors (anti-PD1, anti-PDL1, anti-CTLA4 monotherapies or combination) and presenting drug-induced myocarditis.

Condition or Disease Intervention/Treatment Phase
  • Drug: Abatacept 250 MG
 Phase 2

Detailed Description

Immune-checkpoint-inhibitors (ICI) have revolutionized treatment for 20 cancer types. They unleash anti-tumor immune responses. Unfortunately, in 0.36-1.23% of patients, this activation can also lead to lethal immune-related adverse events (irAEs) that can affect any organ. Among those irAEs, ICI-induced myocarditis are the most frequently fatal with death rate reaching 50% in a large case-series of over 100 patients. Other severe irAEs are pneumonitis, hepatitis and neuromyotoxicities (myositis, myasthenia gravis-like syndrome) with death rates of 20-25%. Co-occurrence of irAEs affecting multiple organs is frequent (30% for myocarditis and myositis) as they share underlying mechanisms with macrophages and cytotoxic T-cell infiltrates leading to organ destruction.

While rigorous studies for the treatment of irAEs are lacking, consensus guidelines recommend treatment with high-dose corticosteroids with progressive tapering and withholding ICI. When symptoms and biological markers do not improve, other immunosuppressive drugs (mycophenolate-mofetil, methotrexate, cyclosporine, cyclophosphamide, azathioprine, antithymocyte globulin, infliximab, tocilizumab, and rituximab) can be considered, depending on organs affected. Intravenous immunoglobulin or plasmapheresis can also be considered. In patients developing myocarditis, available therapeutics produce poor results and the fatality rate (40-50%) has stagnated between 2014-2019 despite increasing glucocorticoids use. No treatment has been shown to improve this situation. Thus, better reversal agents' strategies are urgently needed in the context of the increasing use of ICI and of associated irAEs. Abatacept and belatacept (CTLA4-immunoglobulin fusion proteins) have very promising properties: they inhibit CD80/CD86 mediated T-cell co-stimulation at the level of dendritic-cells, thereby abrogating activation of the T-cells upstream of the CTLA4 and PD1/PDL1 pathways. "CTLA4 agonists" leads to rapid global T-cell anergy with limited off-target effects, and specifically reverse ICI-activated pathways.

Abatacept is currently indicated in rheumatological disorders such as rheumatoid arthritis and belatacept is indicated in kidney rejection transplantation prophylaxis. In these latter indications, the circulating monocytes CD86 receptor occupancy (CD86RO) by "CTLA4 agonists" is a relevant pharmacodynamic biomarker of their clinical activity. The target CD86RO cut-off should be over 80%.

Confirming the rationale for "CTLA4 agonists" use in ICI-myocarditis, the investigators recently showed that abatacept was able to alleviate fatal myocarditis in CTLA4/PD1 genetic knock-out mice model. Finally, this group recently described the first cases of glucocorticoid-refractory myocarditis induced by nivolumab (anti-PD1) which resolved after treatment with abatacept. This success prompted the investigators to treat over 15 ICI-myocarditis patients in their institution and several other teams to use abatacept in ICI-induced myocarditis with encouraging results. Though, in their experience, initial doses of abatacept needed to promptly reach CD86RO≥80% in ICI-myocarditis setting were much higher than those needed in its usual indications.

This study is a dose-finding Phase II trial where 3 abatacept IV regimen (A-10 mg/kg; B-20 mg/kg and C-25 mg/kg every week) will be tested aiming at reaching promptly (after the first dose) and sustainably a CD86RO≥80% during the first 3 weeks of ICI-myocarditis management. The main objective is to find the lowest dose required to achieve a circulating monocytes CD86RO≥80% within the first week of treatment and sustainably over three weeks. The target population is all adult patients with cancer (all cancer types) treated by immune checkpoint inhibitors (anti-PD1, anti-PDL1, anti-CTLA4 monotherapies or combination) and presenting drug-induced myocarditis.

Study Design

Study Type:
Interventional
Anticipated Enrollment :
21 participants
Allocation:
Randomized
Intervention Model:
Parallel Assignment
Masking:
Double (Participant, Investigator)
Primary Purpose:
Treatment
Official Title:
AbataCept for the Treatment of Immune-cHeckpoint Inhibitors Induced mYocarditiS
Anticipated Study Start Date :
Jul 15, 2022
Anticipated Primary Completion Date :
Apr 22, 2024
Anticipated Study Completion Date :
Oct 1, 2024

Arms and Interventions

Arm Intervention/Treatment
Experimental: A-10mg/kg

Patients in arm A will receive doses of 10 mg/kg of Abatacept

Drug: Abatacept 250 MG
Abatacept will be administered by intravenous injection over 1h15 to 2h30 on D1, D5+/-2 and D14+/-2 at 10mg/kg (arm A), or 20mg/kg (arm B) or 25mg/kg (arm C) depending on the randomization (max 3 000 mg per administration). Starting Day 21 (after evaluation of the primary outcome), other injection of abatacept may be given (D22 at D90) with dosage (10 or 20mg/kg max) decided by the treating physician (max 2 500 mg per administration) as a function of the relapse or not of the ICI myocarditis after immunosuppressant therapeutics tapering. After day 21, the administrations will be carried out in open but the blind administration 1 to 3 (D1 to D21) will be kept.
Other Names:
  • ORENCIA® BMS

    		•
    Experimental: B-20mg/kg

    Patients in arm B will receive doses of 20 mg/kg of Abatacept

    Drug: Abatacept 250 MG
    Abatacept will be administered by intravenous injection over 1h15 to 2h30 on D1, D5+/-2 and D14+/-2 at 10mg/kg (arm A), or 20mg/kg (arm B) or 25mg/kg (arm C) depending on the randomization (max 3 000 mg per administration). Starting Day 21 (after evaluation of the primary outcome), other injection of abatacept may be given (D22 at D90) with dosage (10 or 20mg/kg max) decided by the treating physician (max 2 500 mg per administration) as a function of the relapse or not of the ICI myocarditis after immunosuppressant therapeutics tapering. After day 21, the administrations will be carried out in open but the blind administration 1 to 3 (D1 to D21) will be kept.
    Other Names:
  • ORENCIA® BMS

    		•
    Experimental: C-25mg/kg

    Patients in arm C will receive doses of 25 mg/kg of Abatacept

    Drug: Abatacept 250 MG
    Abatacept will be administered by intravenous injection over 1h15 to 2h30 on D1, D5+/-2 and D14+/-2 at 10mg/kg (arm A), or 20mg/kg (arm B) or 25mg/kg (arm C) depending on the randomization (max 3 000 mg per administration). Starting Day 21 (after evaluation of the primary outcome), other injection of abatacept may be given (D22 at D90) with dosage (10 or 20mg/kg max) decided by the treating physician (max 2 500 mg per administration) as a function of the relapse or not of the ICI myocarditis after immunosuppressant therapeutics tapering. After day 21, the administrations will be carried out in open but the blind administration 1 to 3 (D1 to D21) will be kept.
    Other Names:
  • ORENCIA® BMS

    		•

    Outcome Measures

    Primary Outcome Measures

    1. Proportion of patients with circulating monocytes CD86 receptor occupancy (CD86RO) saturation ≥ 80% [one hour before abatacept administration (Baseline)]

      CD86RO will be assessed versus baseline levels by isolating circulating monocytes by flux cytometry. A patient will be considered with a CD86RO saturation ≥80% within the first week of treatment if at least three CD86RO assessment are over 80% until Day 21 after the first abatacept administration.

    2. Proportion of patients with circulating monocytes CD86 receptor occupancy (CD86RO) saturation ≥ 80% [once 1 to 3 hours after the first administration, 2nd and 3rd abatacept dose.]

      CD86RO will be assessed versus baseline levels by isolating circulating monocytes by flux cytometry. A patient will be considered with a CD86RO saturation ≥80% within the first week of treatment if at least three CD86RO assessment are over 80% until Day 21 after the first abatacept administration.

    3. Proportion of patients with circulating monocytes CD86 receptor occupancy (CD86RO) saturation ≥ 80% [once 24 to 72 hours after the first administration, 2nd and 3rd abatacept dose]

      CD86RO will be assessed versus baseline levels by isolating circulating monocytes by flux cytometry. A patient will be considered with a CD86RO saturation ≥80% within the first week of treatment if at least three CD86RO assessment are over 80% until Day 21 after the first abatacept administration.

    4. Proportion of patients with circulating monocytes CD86 receptor occupancy (CD86RO) saturation ≥ 80% [at Day 21 after the first administration of abatacept]

      CD86RO will be assessed versus baseline levels by isolating circulating monocytes by flux cytometry. A patient will be considered with a CD86RO

    Secondary Outcome Measures

    1. Quantification of proxies reflecting the resolution of systemic immune activation [one hour before abatacept treatment (Baseline), once 1 to 3 hours after, and once 24 to 72 hours after the first administration, 2nd and 3rd abatacept dose, then every ten days up to day 90, and then every three months up to a year of follow-up]

      % of regulator T-cells CTLA4+ will be assessed versus baseline levels. In case of additional doses of abatacept, it will also be additionally measured one hour before and one to three hours after each dose of abatacept.

    2. Quantification of proxies reflecting the resolution of systemic immune activation [one hour before abatacept treatment (Baseline), once 1 to 3 hours after, and once 24 to 72 hours after the first administration, 2nd and 3rd abatacept dose, then every ten days up to day 90, and then every three months up to a year of follow-up]

      Levels of pro and anti-inflammatory cytokines will be assessed versus baseline levels. In case of additional doses of abatacept, it will also be additionally measured one hour before and one to three hours after each dose of abatacept.

    3. Quantification of proxies reflecting the resolution of systemic immune activation [one hour before abatacept treatment (Baseline), once 1 to 3 hours after, and once 24 to 72 hours after the first administration, 2nd and 3rd abatacept dose, then every ten days up to day 90, and then every three months up to a year of follow-up]

      C-reactive protein levels will be assessed versus baseline levels. In case of additional doses of abatacept, it will also be additionally measured one hour before and one to three hours after each dose of abatacept.

    4. Quantification of proxies reflecting the resolution of systemic immune activation [one hour before abatacept treatment (Baseline), once 1 to 3 hours after, and once 24 to 72 hours after the first administration, 2nd and 3rd abatacept dose, then every ten days up to day 90, and then every three months up to a year of follow-up]

      % of circulating monocytes expressing PDL1 will be assessed versus baseline levels. In case of additional doses of abatacept, it will also be additionally measured one hour before and one to three hours after each dose of abatacept.

    5. Quantification of proxies reflecting the resolution of systemic immune activation [one hour before abatacept treatment (Baseline), once 1 to 3 hours after, and once 24 to 72 hours after the first administration, 2nd and 3rd abatacept dose, then every ten days up to day 90, and then every three months up to a year of follow-up]

      % of circulating T-cells expressing PD1 will be assessed versus baseline levels. In case of additional doses of abatacept, it will also be additionally measured one hour before and one to three hours after each dose of abatacept.

    6. Quantification of the corticosteroid decrease kinetics (total cumulative dose) and the proportion of patients for whom it was necessary to add other immunosuppressants in addition to glucocorticoids to control the disease [Between Day 0 and Day 90]

      Area under the curve of troponin-T levels

    7. Quantification of the corticosteroid decrease kinetics (total cumulative dose) and the proportion of patients for whom it was necessary to add other immunosuppressants in addition to glucocorticoids to control the disease [Between Day 0 and Day 90]

      Incidence of heart failure (defined as left-ventricular drop below 50%)

    8. Quantification of the corticosteroid decrease kinetics (total cumulative dose) and the proportion of patients for whom it was necessary to add other immunosuppressants in addition to glucocorticoids to control the disease [Between Day 0 and Day 90]

      Incidence of life-threatening cardiac arrhythmias (defined a sustained >30 seconds ventricular tachycardia epidose, ventricular fibrillation, cardiac arrest, sinus arrest >4 seconds and complete atrio-ventricular block).

    9. Quantification of proxies reflecting the resolution of myocarditis [at admission and at the following time points: one hour before, once 1 to 3 hours after, and once 24 to 72 hours after the first, 2nd and 3rd abatacept dose, then every ten days up to day 90, at 3 months, every three months up to a year of follow-up]

      troponin-T and -I levels

    10. Quantification of proxies reflecting the resolution of myocarditis [at admission and at the following time points: one hour before, once 1 to 3 hours after, and once 24 to 72 hours after the first, 2nd and 3rd abatacept dose, then every ten days up to day 90, at 3 months, every three months up to a year of follow-up]

      CK level

    11. Quantification of proxies reflecting the resolution of myocarditis [at admission and at the following time points: one hour before, once 1 to 3 hours after, and once 24 to 72 hours after the first, 2nd and 3rd abatacept dose, then every ten days up to day 90, at 3 months, every three months up to a year of follow-up]

      NT-proBNP

    12. Quantification of proxies reflecting the resolution of myocarditis [at admission and at the following time points: one hour before, once 1 to 3 hours after, and once 24 to 72 hours after the first, 2nd and 3rd abatacept dose, then every ten days up to day 90, at 3 months, every three months up to a year of follow-up]

      left ventricular ejection fraction by echocardiography

    13. Quantification of proxies reflecting the resolution of myocarditis [at admission and at the following time points: one hour before, once 1 to 3 hours after, and once 24 to 72 hours after the first, 2nd and 3rd abatacept dose, then every ten days up to day 90, at 3 months, every three months up to a year of follow-up]

      Cardiac inflammation and myocardial edema quantification

    14. Quantification of proxies reflecting the resolution of myocarditis [at admission and at the following time points: one hour before, once 1 to 3 hours after, and once 24 to 72 hours after the first, 2nd and 3rd abatacept dose, then every ten days up to day 90, at 3 months, every three months up to a year of follow-up]

      Arrhythmias and ventricular conductive disorders quantified on electrocardiographic Holter acquisitions

    15. Quantification of proxies reflecting the resolution of myocarditis [at admission and at the following time points: one hour before, once 1 to 3 hours after, and once 24 to 72 hours after the first, 2nd and 3rd abatacept dose, then every ten days up to day 90, at 3 months, every three months up to a year of follow-up]

      Humoral autoimmunity against the myocardium or the muscles (anti-troponin I and T, anti-myosin, anti-muscle specific kinases (musK), anti-acetylcholine receptor antibodies).

    16. Quantification of proxies reflecting the involvement and resolution of any associated myositis: electromyogram [These modalities will be assessed at least once as soon as possible after admission, 3 months and one year after the first abatacept administration.]

      Presence/absence of myogenic syndrome (0/1) Presence/absence of diaphragmatic nerve dysfunction (0/1 Presence/absence of decrement on assessment of neuromuscular dysfunction (0/1)

    17. Quantification of proxies reflecting the involvement and resolution of any associated myositis: capnography. [These modalities will be assessed at least once as soon as possible after admission, 3 months and one year after the first abatacept administration.]

      Number of significant hypoxemic episodes

    18. Quantification of proxies reflecting the involvement and resolution of any associated myositis: capnography. [These modalities will be assessed at least once as soon as possible after admission, 3 months and one year after the first abatacept administration.]

      Proportion of time with abnormal CO2 (%)

    19. Quantification of proxies reflecting the involvement and resolution of any associated myositis: capnography. [These modalities will be assessed at least once as soon as possible after admission, 3 months and one year after the first abatacept administration.]

      Maximum C02 (mmHg)

    20. Quantification of proxies reflecting the involvement and resolution of any associated myositis: functional respiratory exploration. [These modalities will be assessed at least once as soon as possible after admission, 3 months and one year after the first abatacept administration.]

      Presence/absence of restrictive syndrome (0/1) Presence/absence of sign of diaphragmatic failure (0/1)

    21. Quantification of proxies reflecting the involvement and resolution of any associated myositis: functional respiratory exploration. [These modalities will be assessed at least once as soon as possible after admission, 3 months and one year after the first abatacept administration.]

      Maximal/minimal Inspiratory Pressure (mmHg)

    22. Quantification of proxies reflecting the involvement and resolution of any associated myositis: diaphragmatic MRI and echography. [These modalities will be assessed at least once as soon as possible after admission, 3 months and one year after the first abatacept administration.]

      Excursion of the right diaphragmatic border (mm) Excursion of the left diaphragmatic border (mm)

    23. Pharmacokinetic/pharmacodynamic (PK-PD) modelling of abatacept in ICI-myocarditis [one hour before abatacept treatment (baseline) and once 1 to 3 hours after, and once 24 to 72 hours after the first administration, 2nd and 3rd abatacept dose, then every ten days up to day 90, and then every three months up to a year of follow-up.]

      Pharmacokinetic/pharmacodynamic (PK-PD) modelling of abatacept in ICI-myocarditis with determination of the volume of distribution (Liter). In case of additional doses of abatacept, this proxy will also be additionally measured one hour before and one to three hours after each dose of abatacept.

    24. Pharmacokinetic/pharmacodynamic (PK-PD) modelling of abatacept in ICI-myocarditis [one hour before abatacept treatment (baseline) and once 1 to 3 hours after, and once 24 to 72 hours after the first administration, 2nd and 3rd abatacept dose, then every ten days up to day 90, and then every three months up to a year of follow-up.]

      Pharmacokinetic/pharmacodynamic (PK-PD) modelling of abatacept in ICI-myocarditis with determination of terminal half-life (days). In case of additional doses of abatacept, this proxy will also be additionally measured one hour before and one to three hours after each dose of abatacept.

    25. Pharmacokinetic/pharmacodynamic (PK-PD) modelling of abatacept in ICI-myocarditis [one hour before abatacept treatment (baseline) and once 1 to 3 hours after, and once 24 to 72 hours after the first administration, 2nd and 3rd abatacept dose, then every ten days up to day 90, and then every three months up to a year of follow-up.]

      Pharmacokinetic/pharmacodynamic (PK-PD) modelling of abatacept in ICI-myocarditis with determination of clearance (ml/min/kg). In case of additional doses of abatacept, this proxy will also be additionally measured one hour before and one to three hours after each dose of abatacept

    26. Pharmacokinetic/pharmacodynamic (PK-PD) modelling of abatacept in ICI-myocarditis [one hour before abatacept treatment (baseline) and once 1 to 3 hours after, and once 24 to 72 hours after the first administration, 2nd and 3rd abatacept dose, then every ten days up to day 90, and then every three months up to a year of follow-up.]

      Pharmacokinetic/pharmacodynamic (PK-PD) modelling of abatacept in ICI-myocarditis with determination of maximum concentration of circulating abatacept (Cmax, µg/ml). In case of additional doses of abatacept, this proxy will also be additionally measured one hour before and one to three hours after each dose of abatacept

    27. Pharmacokinetic/pharmacodynamic (PK-PD) modelling of abatacept in ICI-myocarditis [one hour before abatacept treatment (baseline) and once 1 to 3 hours after, and once 24 to 72 hours after the first administration, 2nd and 3rd abatacept dose, then every ten days up to day 90, and then every three months up to a year of follow-up.]

      Pharmacokinetic/pharmacodynamic (PK-PD) modelling of abatacept in ICI-myocarditis with determination of residual concentration of circulating abatacept (Cmin). In case of additional doses of abatacept, this proxy will also be additionally measured one hour before and one to three hours after each dose of abatacept

    28. Pharmacokinetic/pharmacodynamic (PK-PD) modelling of abatacept in ICI-myocarditis [one hour before abatacept treatment (baseline) and once 1 to 3 hours after, and once 24 to 72 hours after the first administration, 2nd and 3rd abatacept dose, then every ten days up to day 90, and then every three months up to a year of follow-up.]

      Pharmacokinetic/pharmacodynamic (PK-PD) modelling of abatacept in ICI-myocarditis with determination of time to Cmax (hours). In case of additional doses of abatacept, these proxies will also be additionally measured one hour before and one to three hours after each dose of abatacept

    29. Pharmacokinetic/pharmacodynamic (PK-PD) modelling of abatacept in ICI-myocarditis [one hour before abatacept treatment (baseline) and once 1 to 3 hours after, and once 24 to 72 hours after the first administration, 2nd and 3rd abatacept dose, then every ten days up to day 90, and then every three months up to a year of follow-up.]

      Modelling of the 50% median effective concentration (µg/ml) of abatacept to saturate CD86 receptor on circulating monocytes (%) and to normalize troponin levels (ng/ml). In case of additional doses of abatacept, these proxies will also be additionally measured one hour before and one to three hours after each dose of abatacept

    30. Quantification of tumor progression by appropriate examination depending on the tumor type (e.g. CT-scan for lung or renal cancer) using the best monitoring work-up used in standard of care. [The imaging modalities will be assessed at least once as soon as possible after admission, after 3 months and one year after abatacept start.]

    31. Quantification of the number and severity (in particular fatal) of adverse events, in particular infectious, according to the CTCAE v5.0 classification. [Full clinical examination : Before starting treatment, during the treatment course and during 1 year / Active clinical monitoring during the treatment course and for 1 year / Biological monitoring : During the first 4 weeks, at 3 months and one year]

      A Full clinical examination searching for any ongoing infection before starting treatment and active clinical monitoring of any sign of new infection during the treatment course and for 1 year. The biological monitoring will include with a blood PCR seeking for CMV reactivation weekly for 4 weeks and then at 3 months and one year (in patients carrying a positive serology for CMV); as well as a blood next generation sequencing seeking for pathogens will be assessed at least once as soon as possible after admission, then at day 14, 3 months and one year after the first abatacept administration.

    Eligibility Criteria

    Criteria

    Ages Eligible for Study:
    18 Years and Older
    Sexes Eligible for Study:
    All
    Accepts Healthy Volunteers:
    No
    Inclusion Criteria:
    1. Age ≥ 18 years old 2. Weight ≥ 40 kg and ≤ 125 kg 2. Patients treated with ICI immunotherapy (monotherapy or combination), including anti-PD1, anti-PDL1, anti-CTLA4; and including any type of cancer (even those in which ICI is not currently approved by regulatory) 3. Definite, probable or possible ICI-induced myocarditis according to the diagnostic criteria of the most recent expert consensus recommendations (e.g27, to be updated with any new recommendations to be published) 4. Severe or corticosteroid-resistant
    ICI-myocarditis:

    • Severe ICI-myocarditis is defined either 1/ by the appearance of an alteration of the LVEF<50% or a wall motion kinetics abnormality, or 2/ by the appearance of ventricular tachycardias or high-grade conductive disorders (atrioventricular block grade 2 or 3) or 3/ by the association with myasthenia gravis-like-syndrome (diplopia, ptosis, diaphragmatic dysfunction, dysarthria, dysphonia, dysphagia).

    • Corticosteroid-resistant ICI-myocarditis is defined by the absence of decrease in troponin levels or the appearance/persistence of severity criteria despite receiving prednisone dose ≥0.5 mg/kg/day for ≥2 days 4/ by troponin-T levels above 32 times the upper limit of the normal (a population at very high-risk ~75% of major cardiomuscular evets in the month following initial presentation).

    1. Signature of informed consent before any trial procedure from the patient or legal representative or the close relative 6. Patients covered by social security regimen (excepting AME) 7. Withhold of ICI
    Exclusion Criteria:

    1. Untreated and/or uncontrolled bacterial, fungal, or viral infection

    2. Pregnancy, breast-feeding or planning to become pregnant during the study period

    3. For women of childbearing age, lack of effective contraception throughout the duration of participation in the study

    4. Being treated with abatacept or belatacept within 3 months prior to inclusion

    5. Known hypersensitivity to abatacept or belatacept

    6. Being treated with anti-thymoglobulin, or alemtuzumab within 6 weeks of the first scheduled dose of abatacept

    7. Patient participating to another interventional study (RIPH 1 only)

    8. People under legal protection measure (tutorship, curatorship or safeguard measures)

    Contacts and Locations

    Locations

    No locations specified.

    Sponsors and Collaborators

    • Assistance Publique - Hôpitaux de Paris

    Investigators

    • Study Director: Stéphane EDERHY, Dr, Saint-Antoine Hospital , APHP

    Study Documents (Full-Text)

    None provided.

    More Information

    Publications

    None provided.
    Responsible Party:
    Assistance Publique - Hôpitaux de Paris
    ClinicalTrials.gov Identifier:
    NCT05195645
    Other Study ID Numbers:
    • APHP210303
    First Posted:
    Jan 19, 2022
    Last Update Posted:
    Jul 8, 2022
    Last Verified:
    Dec 1, 2021
    Studies a U.S. FDA-regulated Drug Product:
    No
    Studies a U.S. FDA-regulated Device Product:
    No
    Keywords provided by Assistance Publique - Hôpitaux de Paris
    Myocarditis
    Immune-checkpoint-inhibitors (ICI)
    ICI-induced myocarditis
    immune-related adverse events
    Abatacept
    Dose-finding
    Additional relevant MeSH terms:
    Myocarditis
    Abatacept

    Study Results

    No Results Posted as of Jul 8, 2022