Prosthetic Joint Infections Clinical Trial
Official title:
Identification of New Biological Marker for Diagnosis of Periprosthetic Infections
Implant infections are among the most dramatic complications in orthopaedic surgery with
heavy impact on life quality and health system. Their diagnosis is still challenging since,
till now, none othe proposed markers has shown a sensitivity and a specificity of100%.
Therefore, efforts in identification of new markers of infections are required. This study
aims to evaluate the applicability of Interleukin (IL)-6, Triggering receptor expressed on
myeloid cells (TREM-1), CC chemokine ligand 2 (CCL2), matrix metalloproteinases (MMP-9),
osteopontin (OPN), IL-1 receptor antagonist (IL1-RA), IL-6 receptor beta (GP130), C5a,
receptor for advanced glycation end products (sRAGE), urokinases and presepsin as serum
markers of prosthetic joint infection.
At this purpose, serum from 65 patients with infected implant and from 65 with aseptic
failure of their prosthesis will be collected before surgery and after 2 and 7 days from
revision.
Management of prosthetic joint infections involves long antibiotic therapy and, in most
cases, additional revision surgery with worsening of life quality for patients and high costs
for health system. Prosthetic joint infections occur at a rate of 1-2% but their incidence
grows up to 15-20% after the first revision surgery. Gram positive cocci, particularly
staphylococci, are the main pathogens responsible for these infections. Diagnostic workflow
is rather complicated, since a gold standard assay characterized by high sensitivity and
specificity has not been recognized. Consequently, the diagnosis is based on fulfillment of a
series of major and minor criteria derived from biochemical, hematological, microbiological,
histological analyses combined with clinical and radiological observations. Therefore, it is
evident that there is an urgent need to find early markers of infection, characterized by
high sensitivity and specificity able to differentiate between aseptic failure and prosthetic
joint infections caused by both high and low virulent microorganisms.
In the recent years, presepsin has been described as a marker for sepsis also able to
discriminate sepsis severity. Presepsin is a fragment of soluble receptor CD14 which is
released from monocyte surface during inflammation. The new inflammatory marker TREM-1 links
the activity of presepsin to other actors of inflammation process like Toll Like Receptors,
monocytes, inflammatory cytokines like IL-1 and IL-6, the chemokine CCL2. Presepsin activity
is also related to suPAR an inflammatory marker, we have recently shown to be associated with
prosthetic joint infections. Another potential marker of infection is osteopontin (OPN), a
multifunctional protein with pro-inflammatory properties, which correlates with mortality and
is associated to suPAR in inflammatory response. Similarly, receptor CD163, highly expressed
by macrophages during inflammation has been proposed as a promising serum marker of
inflammation. Equally important in inflammatory process is the role played by neutrophils,
which represent the first line of defense against infection, being able to kill bacteria by
producing oxygen reactive species (ROS). Recently ROS have been correlated with serum
Advanced Glycation End Products(AGEs) that are increased by oxidative stress. AGEs are able
to interact with their receptor RAGE, which exists in its soluble forms in plasma. For this
reason, RAGE might be used as serum biomarker to diagnose infection and related oxidative
stress. Despite the amount of scientific papers on the role of the above mentioned molecules,
a panel combining them for diagnosis of prosthetic joint infections is not yet available.
Aim of the study will be to evaluate new biological markers of prosthetic joint infection in
order to improve diagnostic workflow to support and integrate data from microbiological,
hematological and clinical examination.
At this purpose, differences in serum concentrations of IL-6, TREM-1, CCL2, MMP-9, OPN,
IL-1RA, GP-130, C5a, sRAGE, urokinases and presepsin between infected and not infected
patients will be evaluated by measuring sensitivity, specificity, positive and negative
predictive values, likelihood ratio for each parameter. Moreover, concentration of each
biomarker will be correlated with markers routinely used for diagnosis of these infections.
A total of 130 patients will be enrolled in the study: 65 patients with diagnosis of aseptic
failure, and 65 diagnosed with infection of prosthetic implant.
All of them will sign an informed consent before enrollment. An aliquot of serum sent to the
Laboratory for pre- and post-operative (2 and 7 days after surgery) routine analyses will be
stored at -20°C.
Serum concentrations of IL-6, TREM-1, CCL2, MMP-9, OPN, IL-1RA, GP-130, C5a, sRAGE, urokinase
and presepsin will be determined by means of commercially available ELISA assays.
Data regarding preoperative Erythrocyte Sedimentation Rate (ESR) and C-reactive protein
(CRP), Synovial fluid analysis (if available, both pre and intra operative), and
microbiological culture (implant and periprosthetic tissues) will be also collected.
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| Status | Clinical Trial | Phase | |
|---|---|---|---|
| Completed |
NCT01957228 -
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|
N/A | |
| Terminated |
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Phase 2 |