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| ID | Type | Description | Link |
|---|---|---|---|
| 2022-A02170-43 | Other Identifier | France : Ministry of Health |
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| Name | Class |
|---|---|
| Institut National de la Santé Et de la Recherche Médicale, France | OTHER_GOV |
| URC-CIC Paris Descartes Necker Cochin | OTHER |
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Early diagnosis is a key factor in the prevention and management of rheumatic diseases. Rheumatic diseases are classically diagnosed based on criteria combining clinical, biological and radiological features. However, in up to 20% of the cases, diagnoses remain unstated and underlying rheumatic diseases unclassified, which might lead to delayed specific treatment and unfavourable clinical outcomes. In addition, conventional methods could lack sensitivity and specificity for early diagnosis. Biological samples are attractive targets for the early detection of articular damage because they allow for collection of multiple levels of information from the clinic and the laboratory]. Biological samples most frequently collected from patients with rheumatic diseases are synovial fluid by joint aspiration, blood by venous puncture and tissue specimen by surgery. The investigators hypothesize that in challenging situations, novel biomarkers detected from synovial fluid or articular tissues using both conventional (e.g. histology, immunodetection, PCR) and innovative (e.g. Raman spectroscopy, nanospectroscopy) laboratory tests may help refining diagnosis and better classifying patients with rheumatic diseases.
Early diagnosis is a key factor in the prevention and management of rheumatic diseases. Rheumatic diseases are classically diagnosed based on criteria combining clinical, biological and radiological features. However, in up to 20% of the cases, diagnoses remain unstated and underlying rheumatic diseases unclassified, which might lead to delayed specific treatment and unfavourable clinical outcomes. In addition, conventional methods could lack sensitivity and specificity for early diagnosis. Biological samples are attractive targets for the early detection of articular damage because they allow for collection of multiple levels of information from the clinic and the laboratory. Biological samples most frequently collected from patients with rheumatic diseases are synovial fluid by joint aspiration, blood by venous puncture and tissue specimen by surgery. The investigators hypothesize that in challenging situations, novel biomarkers detected from synovial fluid, blood or articular tissues using both conventional (e.g. histology, immunodetection, PCR) and innovative (e.g. Raman spectroscopy, nanospectroscopy) laboratory tests may help refining diagnosis and better classifying patients with rheumatic diseases.
Synovial fluid is primarily composed of water, proteins, proteoglycans, glycosaminoglycans, lipids, small inorganic salts, and metabolites such as amino acids or sugars. Individual synovial fluid components may often perform multiple functions. For example, hyaluronic acid maintains the complex viscoelastic properties of synovial fluids and regulates the biological activity of advanced glycation end-products, cytokines, and enzymes associated with osteoarthritis. Normal joint function is dependent on the status of synovial fluid composition, especially considering the large interaction between the individual components. Although conventional laboratory tests have been used by rheumatologists for the past 50 years, they provide limited quantitative data and cannot specifically describe the biochemical and chemical changes, such as alterations in protein composition and proteomic profile undergone by synovial fluids in arthritic joints. Measurements that reflect the entire synovial fluid chemical, biological or viscoelastic profile could be interesting additional tools. An example of innovative measurement technique is Raman spectroscopy that can be used to detect changes in synovial fluid from patients with rheumatic diseases. Raman band intensity ratios vary significantly in spectra collected from synovial fluid in patients with radiological evidence of osteoarthritis damage. Changes to the protein secondary structure could be used as general marker of chemical changes in synovial fluid and that these changes can be associated with radiographic scoring of knee damage. Other publications focused on the Raman analysis of crystals extracted from synovial fluids. Our group developped Surface Enhanced Raman Spectroscopy (SERS) using nanoparticles that might be more sensitive than conventional Raman spectroscopy in characterizing biofluids especially the entire synovial fluid and deciphering specific rheumatic disease spectral signatures.
Blood biomarkers have long been used for the diagnosis and follow-up of rheumatic diseases. They are mainly markers of auto-immunity, inflammation, cartilage degradation or bone remodelling.
Articular tissues include articular cartilage, bone, meniscus, synovial membrane, fat, tendons, ligaments, muscles. They are obtained during surgery. Their analysis is precious to characterize auto-immunity, inflammation, cartilage degradation or bone remodelling local status and to study local activation of cellular and molecular pathways of interest using conventional techniques of cellular and molecular biology.
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| Label | Type | Description | Intervention Names |
|---|---|---|---|
| Patients with various bone and joint diseases | Patients with various bone and joint diseases |
|
| Name | Type | Description | Arm Group Labels | Other Names |
|---|---|---|---|---|
| Collection of joint fluid or tissue sample | Other | During a puncture or joint surgery planned as part of the routine care of the patient, a part of the joint fluid or tissue sample will be collected in order to carry out the analyzes planned for the research. |
| Measure | Description | Time Frame |
|---|---|---|
| Tissues and biofluid spectra using surface-enhanced Raman spectroscopy | Molecular signature of articular samples | Inclusion |
| Protein expression using immunodetection techniques and RNA expression using PCR | Cellular signature of articular samples | Inclusion |
| Measure | Description | Time Frame |
|---|---|---|
| Tissues and biofluid spectra using surface-enhanced Raman spectroscopy | Inclusion | |
| Protein expression using immunodetection techniques and RNA expression using PCR | Inclusion |
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Exclusion Criteria:
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¨Patients with various bone and joint diseases
| Name | Role | Phone | Extension | |
|---|---|---|---|---|
| Christelle Nguyen, MD, PhD | Contact | 00 33 1 58 41 29 45 | christelle.nguyen2@aphp.fr | |
| Marie Benhammani-Godard | Contact | 00 33 1 58 41 11 90 | marie.godard@aphp.fr |
| Name | Affiliation | Role |
|---|---|---|
| Christelle Nguyen, MD, PhD | Service de Médecine Physique et de Réadaptation, Hôpital Cochin | Principal Investigator |
| Facility | Status | City | State | ZIP | Country | Contacts |
|---|---|---|---|---|---|---|
| Service de Médecine Physique et de Réadaptation, Hôpital Cochin | Recruiting | Paris | IDF | 75014 | France |
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| ID | Term |
|---|---|
| D007592 | Joint Diseases |
| D010003 | Osteoarthritis |
| D001172 | Arthritis, Rheumatoid |
| ID | Term |
|---|---|
| D009140 | Musculoskeletal Diseases |
| D001168 | Arthritis |
| D012216 | Rheumatic Diseases |
| D003240 | Connective Tissue Diseases |
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| ID | Term |
|---|---|
| D006650 | Histocompatibility Testing |
| ID | Term |
|---|---|
| D007159 | Immunologic Tests |
| D019411 | Clinical Laboratory Techniques |
| D019937 | Diagnostic Techniques and Procedures |
| D003933 | Diagnosis |
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Joint fluid or tissue sample
| D017437 |
| Skin and Connective Tissue Diseases |
| D001327 | Autoimmune Diseases |
| D007154 | Immune System Diseases |
| D008919 | Investigative Techniques |
| D007158 | Immunologic Techniques |