Arthritis, Rheumatoid Clinical Trial
Official title:
Identification of Novel Molecular Targets for the Development of Therapies in Patients With Rheumatoid Arthritis Responsive to Disease-modifying Antirheumatic (DMARDs) But Wirh Progressive Bone Erosion (AREOS)
Aims of this study is to identify the mechanisms of the dissociation between the inflammatory
activity and the joints destruction in patients with rheumatoid arthritis (RA) in remission
but presenting a progression of the bone erosions.
160 total patients will be enrolled. Males and females RA patients in clinical remission or
not, osteoarthritis patients and patients hospitalized for any other orthopedics pathology
(used as controls) will be enrolled. From RA patients with bone erosion, OA patients and
controls whole blood will be collected; from RA patients without bone erosion whole blood
will be collected. From whole blood mononuclear cells will be isolated and plasma will be
harvested. From both RA and OA patients synovial fluid will be collected along with
mononuclear cells present in this fluid and from both RA and OA patients candidate for total
articular replacement fragments of synovial membrane, cartilage, bone and bone marrow will be
collected during surgery as waste material.
The nuclear cells isolated from whole blood, synovial fluid and bone marrow will be
characterized using a panel of markers. Protein arrays on plasma samples obtained from RA, OA
patients and controls will be performed to identify a panel of acute phase proteins,
cytokines and chemokines present at systemic levels and to highlight analogies and
differences in the systemic protein profile.
The synovial fluid will be used to identify the proteins present in the synovial fluid of RA
and OA patients. The main identified target will be quantified and used as markers of erosion
progression, to develop intra-articular pharmacological therapies and to suggest the
therapeutic doses of drugs. The same kind of analysis will be performed even on tissues
obtained from surgical patients (RA and OA patients) to establish the pathways involved and
the tissue specific targets to be stimulated, i.e. with trophic factors, to promote the
tissue homeostasis after switching-off the autoimmune and inflammatory processes.
The general aim is to study the mechanisms of the dissociation between the inflammatory
activity and the joints destruction in patients with rheumatoid arthritis (RA) in remission
but presenting a progression of the bone erosions.
The primary aim is to detect differences between patients with AR in clinical remission, but
presenting progressive articular erosion and patients in complete clinical and radiological
remission, by characterizing the proteins, particularly the chromogranin A (CHGA), present
both at articular and systemic levels.
The secondary aims are: to characterize the cellular inflammatory intra-articular infiltrate
and the cells of the immune system present in the circulation; to characterize protein
profile of the cells resident in the synovium, cartilage and bone of the damaged
articulation. It is hypothesized that with this approach it is possible to detect protein or
cellular markers able to identify early the patients at risk to progress towards articular
erosion and to identify specific cellular and protein targets for the development of local or
systemic therapies suitable for the control of the erosive RA.
This is a, observational with additional procedure, court, prospective study. 160 patients 80
RA patients (Group 1) of which:
- Group 1A: at least 10 patients, maximum 70,with RA in remission, but presenting
progressive bone erosion who must undergo a surgical procedure.
- Group 1B: at least10 patients maximum 70, with RA in remission, without bone erosion A
group of 80 controls,
- Group 2: 10 patients with osteoarthritis (OA) who must undergo a surgical procedure.
- Group 3:70 without RA and OA but hospitalized for any other orthopedics pathology who
must undergo a surgical procedure.
Since several practical issues (e.g. unsuitableness or low amount of biological material) can
occurs, we envision the possibility to recruit additional patients until the achievement of
complete samples for the groups described.
Males and females RA patients in clinical remission or not, osteoarthritis patients and
patients hospitalized for any other orthopedics pathology (used as controls) will be
enrolled. For the RA patients, pharmacological treatment, laboratory data, RA activity,
assessment of bone erosions with hands and feet x-ray will be recorded.
From RA patients with bone erosion, OA patients and controls whole blood will be collected;
from RA patients without bone erosion whole blood will be collected. From whole blood
mononuclear cells will be isolated and plasma will be harvested. A further tube will be
collected for serum retrieval to perform CHGA dosage. From both RA and OA patients synovial
fluid will be collected along with mononuclear cells present in this fluid and from both RA
and OA patients candidate for total articular replacement fragments of synovial membrane,
cartilage, bone and bone marrow will be collected during surgery as waste material.
The nuclear cells isolated from whole blood, synovial fluid and bone marrow will be
characterized using a panel of markers indicated by the Human Immunology Project.
Protein arrays on plasma samples obtained from RA, OA patients and controls will be performed
to identify a panel of acute phase proteins, cytokines and chemokines present at systemic
levels and to highlight analogies and differences in the systemic protein profile.
The synovial fluid will be used to identify the proteins present in the synovial fluid of RA
and OA patients. The main identified target will be quantified and used as markers of erosion
progression, to develop intra-articular pharmacological therapies and to suggest the
therapeutic doses of drugs. The same kind of analysis will be performed even on tissues
obtained from surgical patients (RA and OA patients) to establish the pathways involved and
the tissue specific targets to be stimulated, i.e. with trophic factors, to promote the
tissue homeostasis after switching-off the autoimmune and inflammatory processes.
To reach this goal, the characterized protein profiles will be functionally evaluated by
using Systems Biology techniques based on the study of protein-protein (PPI) interaction
networks (8). Moreover, the protein profiles will be processed using statistics (Pearson,
Spearman) able to evaluate the dependence between variables and to allow the building of
protein co-expression networks (9). In both cases, PPI and/or co-expression networks, the
study of the networks structure will allow the identification of hubs, bottlenecks and moduli
(10) typical of the RA patients with or without erosion.
Serum will be sent to IRCCS Ospedale San Raffaele for the quantification of chromogranin A.
Part of cells obtained from whole blood and synovial fluid will be sent to the IRCCS Ospedale
pediatrico Bambino Gesù (Rome, Italy) for further immunological analysis.
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