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Search for Diagnostic and Prognostic Biomarkers in Systemic Sclerosis and Inflammatory Myopathies (SCLEROMYOMICS)

Primary Purpose

Systemic Sclerosis, Inflammatory Myopathies

Status
Recruiting
Phase
Not Applicable
Locations
France
Study Type
Interventional
Intervention
Collection of biological samples
Sponsored by
University Hospital, Strasbourg, France
About
Eligibility
Locations
Outcomes
Full info

About this trial

This is an interventional basic science trial for Systemic Sclerosis focused on measuring Scleroderma, Myopathy, Multi-OMICS, Biomarkers, Single-cell

Eligibility Criteria

18 Years - undefined (Adult, Older Adult)All SexesDoes not accept healthy volunteers

Inclusion Criteria:

  • Control population without inflammatory myopathy (population 1), suspected myopathy for whom a blood test and muscle biopsy are required to confirm the diagnosis
  • Confirmed inflammatory myopathy (population 2)
  • Control population without systemic sclerosis (population 3), with primary Raynaud's phenomenon
  • Early diffuse systemic cutaneous scleroderma (population 4)
  • Male or female (age ≥ 18, no upper age limit)

Exclusion Criteria:

Populations 1 & 2

  • Contraindication to muscle biopsy
  • Diagnosed for another neuromuscular disease
  • Taking an immunosuppressant / immunomodulator treatment within 3 months before inclusion
  • Unbalanced cardiovascular pathology

Population 3 & 4

  • Contraindication to skin biopsy
  • Capillaroscopic and / or immunological anomaly suggesting scleroderma
  • Suspicion of scleroderma but diagnosed for another connectivitis
  • Immunosuppressive treatment (corticosteroids> 15 mg, methotrexate, mycophenolate mofetil) introduced for more than 1 month
  • Active or recent cancer <3 years (apart from non-melanoma skin cancer).

For all

- Pregnancy or breast feeding

Sites / Locations

  • University Hospital of HautepierreRecruiting

Outcomes

Primary Outcome Measures

Evolution of the molecular profiles (i.e., genomic [New Generation Sequencing], transcriptomic [RNA chip], proteomic [mass spectrometry] and identification of cell population [single cell RNA sequencing]) of systemic sclerosis during 5 years.
This study is descriptive (non-analytical), without prior hypothesis. Molecular profiles will be assessed by integration of multi-OMIC tools from a wide range of areas of biochemistry, chemistry, physics, computing science and molecular biology. During the 5-year follow-up, the investigating physician will remain attentive to the appearance of a new clinical element which will mark the course of the systemic sclerosis.
Evolution of the molecular profiles (i.e., genomic [New Generation Sequencing], transcriptomic [RNA chip], proteomic [mass spectrometry] and identification of cell population [single cell RNA sequencing]) of systemic sclerosis during 5 years.
This study is descriptive (non-analytical), without prior hypothesis. Molecular profiles will be assessed by integration of multi-OMIC tools from a wide range of areas of biochemistry, chemistry, physics, computing science and molecular biology. During the 5-year follow-up, the investigating physician will remain attentive to the appearance of a new clinical element which will mark the course of the systemic sclerosis.
Evolution of the molecular profiles (i.e., genomic [New Generation Sequencing], transcriptomic [RNA chip], proteomic [mass spectrometry] and identification of cell population [single cell RNA sequencing]) of systemic sclerosis during 5 years.
This study is descriptive (non-analytical), without prior hypothesis. Molecular profiles will be assessed by integration of multi-OMIC tools from a wide range of areas of biochemistry, chemistry, physics, computing science and molecular biology. During the 5-year follow-up, the investigating physician will remain attentive to the appearance of a new clinical element which will mark the course of the systemic sclerosis.
Evolution of the molecular profiles (i.e., genomic [New Generation Sequencing], transcriptomic [RNA chip], proteomic [mass spectrometry] and identification of cell population [single cell RNA sequencing]) of inflammatory myopathies during 5 years.
This study is descriptive (non-analytical), without prior hypothesis. Molecular profiles will be assessed by integration of multi-OMIC tools from a wide range of areas of biochemistry, chemistry, physics, computing science and molecular biology. During the 5-year follow-up, the investigating physician will remain attentive to the appearance of a new clinical element which will mark the course of the inflammatory myopathies.
Evolution of the molecular profiles (i.e., genomic [New Generation Sequencing], transcriptomic [RNA chip], proteomic [mass spectrometry] and identification of cell population [single cell RNA sequencing]) of inflammatory myopathies during 5 years.
This study is descriptive (non-analytical), without prior hypothesis. Molecular profiles will be assessed by integration of multi-OMIC tools from a wide range of areas of biochemistry, chemistry, physics, computing science and molecular biology. During the 5-year follow-up, the investigating physician will remain attentive to the appearance of a new clinical element which will mark the course of the inflammatory myopathies.
Evolution of the molecular profiles (i.e., genomic [New Generation Sequencing], transcriptomic [RNA chip], proteomic [mass spectrometry] and identification of cell population [single cell RNA sequencing]) of inflammatory myopathies during 5 years.
This study is descriptive (non-analytical), without prior hypothesis. Molecular profiles will be assessed by integration of multi-OMIC tools from a wide range of areas of biochemistry, chemistry, physics, computing science and molecular biology. During the 5-year follow-up, the investigating physician will remain attentive to the appearance of a new clinical element which will mark the course of the inflammatory myopathies.
Comparison of the molecular profiles between systemic sclerosis and inflammatory myopathies at disease early stage.
Comparison of the molecular profiles (i.e., genomic [New Generation Sequencing], transcriptomic [RNA chip], proteomic [mass spectrometry] and identification of cell population [single cell RNA sequencing] between systemic sclerosis and inflammatory myopathies at disease early stage.
Comparison of the molecular profiles between systemic sclerosis and inflammatory myopathies at one year and versus disease early stage.
Comparison of the molecular profiles (i.e., genomic [New Generation Sequencing], transcriptomic [RNA chip], proteomic [mass spectrometry] and identification of cell population [single cell RNA sequencing] between systemic sclerosis and inflammatory myopathies at one year and versus disease early stage.
Comparison of the molecular profiles between systemic sclerosis and inflammatory myopathies at 5 years and versus disease early stage.
Comparison of the molecular profiles (i.e., genomic [New Generation Sequencing], transcriptomic [RNA chip], proteomic [mass spectrometry] and identification of cell population [single cell RNA sequencing] between systemic sclerosis and inflammatory myopathies at 5 years and versus disease early stage.

Secondary Outcome Measures

Identification of molecular profiles specific to the evolution of clinical and biological characteristics of systemic sclerosis and inflammatory myopathies
Study of the molecular profile (i.e., genomic [New Generation Sequencing], transcriptomic [RNA chip], proteomic [mass spectrometry] and identification of cell population [single cell RNA sequencing]) of systemic sclerosis during a systemic or infectious complication (initial profile compared to the profile at the time of the complication)
Identification of molecular profiles specific to the impact of the implementation of targeted treatments in systemic sclerosis and inflammatory myopathies
Study of the molecular profile (i.e., genomic [New Generation Sequencing], transcriptomic [RNA chip], proteomic [mass spectrometry] and identification of cell population [single cell RNA sequencing]) of systemic sclerosis before and after the implementation of targeted treatments (immunomodulators, cell therapies).
Assessment of the presence of discriminating molecular profiles in different tissues (blood, skin, muscle) in systemic sclerosis and inflammatory myopathies
Compare the molecular profiles of blood (serum, PMBC), skin (sclerotic, healthy) and muscle, of early and advanced systemic sclerosis and inflammatory myopathies
Assessment of the presence of discriminating molecular profiles in different cell subpopulations within these tissues (blood, skin, muscle) in systemic sclerosis and inflammatory myopathies
Compare the molecular profiles in different cell subpopulations within blood, skin and muscle tissues by single cell analysis in systemic sclerosis and inflammatory myopathies

Full Information

First Posted
April 22, 2021
Last Updated
December 14, 2021
Sponsor
University Hospital, Strasbourg, France
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1. Study Identification

Unique Protocol Identification Number
NCT04917705
Brief Title
Search for Diagnostic and Prognostic Biomarkers in Systemic Sclerosis and Inflammatory Myopathies
Acronym
SCLEROMYOMICS
Official Title
Search for Diagnostic and Prognostic Biomarkers (Molecular Signatures) in Systemic Sclerosis and Inflammatory Myopathies by a Multi-OMIC Strategy Integrating a Single Cell Analysis Approach
Study Type
Interventional

2. Study Status

Record Verification Date
December 2021
Overall Recruitment Status
Recruiting
Study Start Date
November 25, 2021 (Actual)
Primary Completion Date
June 2023 (Anticipated)
Study Completion Date
June 2028 (Anticipated)

3. Sponsor/Collaborators

Responsible Party, by Official Title
Sponsor
Name of the Sponsor
University Hospital, Strasbourg, France

4. Oversight

Studies a U.S. FDA-regulated Drug Product
No
Studies a U.S. FDA-regulated Device Product
No
Data Monitoring Committee
No

5. Study Description

Brief Summary
Systemic sclerosis and inflammatory myopathies, which sometimes combine (scleromyositis), have shared pathophysiological elements. In both diseases, many cell subtypes are involved in damage to organs such as T lymphocytes, B lymphocytes, and unconventional (non-B, non-T) lymphocytes called innate lymphoid cell (ILC). The increasing complexity of our understanding of the immune system (multiplication of recognized cell subtypes) also makes the strategies for analyzing pathophysiological mechanisms more complex. Currently, no biomarker perfectly predicts the phenotype and evolution of patients. Multi-OMIC analyzes will be performed (identification of cell populations as well as genomic, transcriptomic and proteomic characterization) in blood and tissue samples (skin and muscle biopsy) in patients with systemic sclerosis and inflammatory myopathies, with the objective of identifying discriminating molecular signatures (biomarkers) according to the characteristics of the disease and its evolution.
Detailed Description
Cohort study, monocentric, comparative, non-randomized, open-label, prospective and longitudinal, quasi-experimental. Participating subjects will be classified according to their clinical, biological and additional investigations into one of the 4 populations presented in the eligibility criteria. A 1st sampling point will be carried out at inclusion visit (baseline). Prospective follow-up of participating patients will be carried out as part of their routine care (1 to 2 visits per year or more if disease complications appear). During the 5-year follow-up, the investigating physician will remain attentive to the appearance of a new clinical element which will mark the course of the disease. During the follow-up, 2 more sampling points will be carried out (blood and / or skin) on each participating patient. Blood samples and muscle biopsies will be carried out in the usual way during diagnostic and therapeutic management. An additional volume of blood, an additional muscle biopsy (on the occasion of the one performed for diagnosis) and two superficial skin biopsies (1 sclerotic tissue & 1 healthy tissue) will be taken for research purposes. Inclusion in this cohort will not change the management of the patient, either with regard to his treatment or his follow-up. Multi-omics analyzes will include single cell RNAseq, as well as proteomics and genomics analysis: Transcriptomic analysis will be performed on PMBC, muscle and skin. Genomic analysis (exome & whole genome) will be performed on PMBC, muscle and skin. Proteomic analysis will be performed on serum, PMBC, muscle and skin. Single cell analysis will be performed on PMBC, muscle and skin. During the analysis, the clinical characteristics of baseline, the treatments and the evolutions during the follow-up will be compared to reveal the clinical relevance of the multi-OMIC signatures.

6. Conditions and Keywords

Primary Disease or Condition Being Studied in the Trial, or the Focus of the Study
Systemic Sclerosis, Inflammatory Myopathies
Keywords
Scleroderma, Myopathy, Multi-OMICS, Biomarkers, Single-cell

7. Study Design

Primary Purpose
Basic Science
Study Phase
Not Applicable
Interventional Study Model
Single Group Assignment
Masking
None (Open Label)
Allocation
N/A
Enrollment
55 (Anticipated)

8. Arms, Groups, and Interventions

Intervention Type
Other
Intervention Name(s)
Collection of biological samples
Intervention Description
Skin, muscle fiber and blood sampling
Primary Outcome Measure Information:
Title
Evolution of the molecular profiles (i.e., genomic [New Generation Sequencing], transcriptomic [RNA chip], proteomic [mass spectrometry] and identification of cell population [single cell RNA sequencing]) of systemic sclerosis during 5 years.
Description
This study is descriptive (non-analytical), without prior hypothesis. Molecular profiles will be assessed by integration of multi-OMIC tools from a wide range of areas of biochemistry, chemistry, physics, computing science and molecular biology. During the 5-year follow-up, the investigating physician will remain attentive to the appearance of a new clinical element which will mark the course of the systemic sclerosis.
Time Frame
At Day 1
Title
Evolution of the molecular profiles (i.e., genomic [New Generation Sequencing], transcriptomic [RNA chip], proteomic [mass spectrometry] and identification of cell population [single cell RNA sequencing]) of systemic sclerosis during 5 years.
Description
This study is descriptive (non-analytical), without prior hypothesis. Molecular profiles will be assessed by integration of multi-OMIC tools from a wide range of areas of biochemistry, chemistry, physics, computing science and molecular biology. During the 5-year follow-up, the investigating physician will remain attentive to the appearance of a new clinical element which will mark the course of the systemic sclerosis.
Time Frame
At 12 months
Title
Evolution of the molecular profiles (i.e., genomic [New Generation Sequencing], transcriptomic [RNA chip], proteomic [mass spectrometry] and identification of cell population [single cell RNA sequencing]) of systemic sclerosis during 5 years.
Description
This study is descriptive (non-analytical), without prior hypothesis. Molecular profiles will be assessed by integration of multi-OMIC tools from a wide range of areas of biochemistry, chemistry, physics, computing science and molecular biology. During the 5-year follow-up, the investigating physician will remain attentive to the appearance of a new clinical element which will mark the course of the systemic sclerosis.
Time Frame
5 years
Title
Evolution of the molecular profiles (i.e., genomic [New Generation Sequencing], transcriptomic [RNA chip], proteomic [mass spectrometry] and identification of cell population [single cell RNA sequencing]) of inflammatory myopathies during 5 years.
Description
This study is descriptive (non-analytical), without prior hypothesis. Molecular profiles will be assessed by integration of multi-OMIC tools from a wide range of areas of biochemistry, chemistry, physics, computing science and molecular biology. During the 5-year follow-up, the investigating physician will remain attentive to the appearance of a new clinical element which will mark the course of the inflammatory myopathies.
Time Frame
At Day 1
Title
Evolution of the molecular profiles (i.e., genomic [New Generation Sequencing], transcriptomic [RNA chip], proteomic [mass spectrometry] and identification of cell population [single cell RNA sequencing]) of inflammatory myopathies during 5 years.
Description
This study is descriptive (non-analytical), without prior hypothesis. Molecular profiles will be assessed by integration of multi-OMIC tools from a wide range of areas of biochemistry, chemistry, physics, computing science and molecular biology. During the 5-year follow-up, the investigating physician will remain attentive to the appearance of a new clinical element which will mark the course of the inflammatory myopathies.
Time Frame
At 12 months
Title
Evolution of the molecular profiles (i.e., genomic [New Generation Sequencing], transcriptomic [RNA chip], proteomic [mass spectrometry] and identification of cell population [single cell RNA sequencing]) of inflammatory myopathies during 5 years.
Description
This study is descriptive (non-analytical), without prior hypothesis. Molecular profiles will be assessed by integration of multi-OMIC tools from a wide range of areas of biochemistry, chemistry, physics, computing science and molecular biology. During the 5-year follow-up, the investigating physician will remain attentive to the appearance of a new clinical element which will mark the course of the inflammatory myopathies.
Time Frame
5 years
Title
Comparison of the molecular profiles between systemic sclerosis and inflammatory myopathies at disease early stage.
Description
Comparison of the molecular profiles (i.e., genomic [New Generation Sequencing], transcriptomic [RNA chip], proteomic [mass spectrometry] and identification of cell population [single cell RNA sequencing] between systemic sclerosis and inflammatory myopathies at disease early stage.
Time Frame
Day 1
Title
Comparison of the molecular profiles between systemic sclerosis and inflammatory myopathies at one year and versus disease early stage.
Description
Comparison of the molecular profiles (i.e., genomic [New Generation Sequencing], transcriptomic [RNA chip], proteomic [mass spectrometry] and identification of cell population [single cell RNA sequencing] between systemic sclerosis and inflammatory myopathies at one year and versus disease early stage.
Time Frame
At 12 months
Title
Comparison of the molecular profiles between systemic sclerosis and inflammatory myopathies at 5 years and versus disease early stage.
Description
Comparison of the molecular profiles (i.e., genomic [New Generation Sequencing], transcriptomic [RNA chip], proteomic [mass spectrometry] and identification of cell population [single cell RNA sequencing] between systemic sclerosis and inflammatory myopathies at 5 years and versus disease early stage.
Time Frame
At 5 years
Secondary Outcome Measure Information:
Title
Identification of molecular profiles specific to the evolution of clinical and biological characteristics of systemic sclerosis and inflammatory myopathies
Description
Study of the molecular profile (i.e., genomic [New Generation Sequencing], transcriptomic [RNA chip], proteomic [mass spectrometry] and identification of cell population [single cell RNA sequencing]) of systemic sclerosis during a systemic or infectious complication (initial profile compared to the profile at the time of the complication)
Time Frame
5 years
Title
Identification of molecular profiles specific to the impact of the implementation of targeted treatments in systemic sclerosis and inflammatory myopathies
Description
Study of the molecular profile (i.e., genomic [New Generation Sequencing], transcriptomic [RNA chip], proteomic [mass spectrometry] and identification of cell population [single cell RNA sequencing]) of systemic sclerosis before and after the implementation of targeted treatments (immunomodulators, cell therapies).
Time Frame
5 years
Title
Assessment of the presence of discriminating molecular profiles in different tissues (blood, skin, muscle) in systemic sclerosis and inflammatory myopathies
Description
Compare the molecular profiles of blood (serum, PMBC), skin (sclerotic, healthy) and muscle, of early and advanced systemic sclerosis and inflammatory myopathies
Time Frame
5 years
Title
Assessment of the presence of discriminating molecular profiles in different cell subpopulations within these tissues (blood, skin, muscle) in systemic sclerosis and inflammatory myopathies
Description
Compare the molecular profiles in different cell subpopulations within blood, skin and muscle tissues by single cell analysis in systemic sclerosis and inflammatory myopathies
Time Frame
5 years

10. Eligibility

Sex
All
Minimum Age & Unit of Time
18 Years
Accepts Healthy Volunteers
No
Eligibility Criteria
Inclusion Criteria: Control population without inflammatory myopathy (population 1), suspected myopathy for whom a blood test and muscle biopsy are required to confirm the diagnosis Confirmed inflammatory myopathy (population 2) Control population without systemic sclerosis (population 3), with primary Raynaud's phenomenon Early diffuse systemic cutaneous scleroderma (population 4) Male or female (age ≥ 18, no upper age limit) Exclusion Criteria: Populations 1 & 2 Contraindication to muscle biopsy Diagnosed for another neuromuscular disease Taking an immunosuppressant / immunomodulator treatment within 3 months before inclusion Unbalanced cardiovascular pathology Population 3 & 4 Contraindication to skin biopsy Capillaroscopic and / or immunological anomaly suggesting scleroderma Suspicion of scleroderma but diagnosed for another connectivitis Immunosuppressive treatment (corticosteroids> 15 mg, methotrexate, mycophenolate mofetil) introduced for more than 1 month Active or recent cancer <3 years (apart from non-melanoma skin cancer). For all - Pregnancy or breast feeding
Central Contact Person:
First Name & Middle Initial & Last Name or Official Title & Degree
Alain MEYER, MD
Phone
+ 33 3 88 12 79 55
Email
alain.meyer1@chru-strasbourg.fr
Facility Information:
Facility Name
University Hospital of Hautepierre
City
Strasbourg
State/Province
Bas-Rhin
ZIP/Postal Code
67000
Country
France
Individual Site Status
Recruiting
Facility Contact:
First Name & Middle Initial & Last Name & Degree
Alain MEYER, MD
Phone
03 88 12 79 55
Ext
+33
Email
alain.meyer1@chru-strasbourg.fr

12. IPD Sharing Statement

Learn more about this trial

Search for Diagnostic and Prognostic Biomarkers in Systemic Sclerosis and Inflammatory Myopathies

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