Polyradiculoneuropathy, Chronic Inflammatory Demyelinating Clinical Trial
Official title:
sCD163 & CD19 as Candidate Biomarkers in Chronic Inflammatory Demyelinating Polyneuropathy (CIDP) - A Study of sCD163 in the Cerebrospinal Fluid
Chronic inflammatory demyelinating polyneuropathy (CIDP) and multifocal motor neuropathy
(MMN) are characterized by progressive deterioration in muscle strength, loss of
sensibility, diminished or absent reflexes and impaired fine motor control. Often it is
caused by demyelination which is suitable for treatment but damage to the axons may also
occur especially in case of insufficient treatment.
CIDP and MMN are immune mediated neuropathies in which first choice of treatment is
intravenous immunoglobulin (IVIG), although the mechanisms underlying the effect of the IVIG
is not yet clarified.
The patients are diagnosed by electrophysiological examination and elevated level of protein
in the cerebrospinal fluid. The diagnosis may be difficult to make due to great clinical
variation and insensitive examinations methods including lack of biomarkers.
The purpose of this study is to define if patients treated with SCIG and IVIG for CIDP and
MMN have higher concentrations of sCD163 and CD19 in their cerebrospinal fluid and serum
compared with symptomatic control subjects and is related to disease severity. Furthermore
it is to define if patients newly diagnosed with CIDP or MMN have higher levels of sCD163
and CD19, than patients treated regularly with SCIG and IVIG.
Chronic inflammatory peripheral neuropathies are characterized by progressive deterioration
in muscle strength, loss of sensibility, diminished or absent reflexes and impaired fine
motor control. Often it is caused by demyelination which is suitable for treatment but
damage to the axons may also occur especially in case of insufficient treatment. Chronic
inflammatory demyelinating polyradiculoneuropathy (CIDP) and multifocal motor neuropathy
(MMN) are diagnosed by electrophysiological examination, which shows signs of demyelination
and conduction blocks. Moreover, in CIDP an elevated level of protein in the cerebrospinal
fluid and in MMN detection of anti-GM1 antibodies in the blood support the diagnosis.
The patients suffer from a disabling diffuse weakness of the muscles. The diagnosis
primarily relies on the neurophysiological examination and, however, the diagnosis may be
difficult to make due to great clinical variation and insensitive examinations methods
including lack of biomarkers.
Treatment of CIDP and MMN CIDP and MMN are immune mediated neuropathies in which first
choice of treatment is intravenous immunoglobulin (IVIG), although the mechanisms underlying
the effect of the IVIG is not yet clarified.
Previous study implies that Fc receptors on natural killer cells is the target for IVIG,
because the cytotoxic activity of NK cells was suppressed, partly caused by a dose-dependent
decline in the number of circulating NK cells. Furthermore, a dose-dependent blockage of
CD16 was present.
Subcutaneous administration of immunoglobulins (SCIG) has been studied as an alternative
route to IVIG in CIDP and MMN. The conclusion was that SCIG is feasible, safe and effective.
Thus SCIG improved muscle strength, walking performance and disability score compared to
placebo and IVIG. SCIG has only local side effects compared to IVIG and furthermore the
majority of patients preferred SCIG to IVIG, because of autonomy and maintenance of stable
levels of muscle performance.
It is well known that around 30% of CIDP patients over year no longer need treatment to
maintain muscle strength. Immunoglobulin treatment is costly and may, when administrated
intravenously, induce severe side effects (e.g. thromboembolism, hemolytic anemia and
exfoliative dermatitis). Therefore only patients that clearly respond should be treated. On
the other hand, it is important to treat in time to reduce morbidity and disability.
Present examination methods Patients suspected for CIDP or MMN will be diagnosed based on
the medical history, clinical examinations and neurophysiological findings. However, the
diagnosis includes a plethora of criteria, which illustrates the difficulty of developing
exact standards for CIDP and MMN that may have variable clinical presentations.
Furthermore, as described earlier electrophysiological examination is recommended for all
patients suspected for CIDP or MMN. The electrophysiological criteria consist of partial
conduction block, conduction velocity slowing, dispersion and distance dependent reduction
of compound motor action potential amplitude. As for the medical history and clinical
examinations, the electrophysiological examination is not always conclusive. The Koski
criteria and the criteria from EFNS /PNS are two different sets of criteria, which are
frequently used. Even so it is important to keep in mind that the Koski criteria have a
sensitivity and specificity of 63 and 99 percent, whereas the EFNS had a sensitivity and
specificity of 81 and 97 percent. In addition to this, early treatment for CIDP has made the
progression more difficult to characterize as a temporal component has been changed.
It is still controversial whether CIDP and MMN are specific disease entities or rather
syndromes. MMN is in many ways similar to CIDP but as opposed to CIDP MMN is characterized
by no sensory disturbance, slower progression and with asymmetric presentation.
The specific causes of the diseases are still unknown but it is generally accepted that the
pathologies of CIDP and MMN are immunologically based with multiple triggers. According to
this theory both the cellular and the humoral part of the immune system is involved.
Several inflammatory biomarkers have been studied in relation to CIDP Including cytokines in
CSF. The study measured Interleukin (IL)-12 and IL-15 (the major growth and differentiation
factors for Th-1 cells) and IL-17 (a marker of Th-17 cell expansion and activation).
Especially IL-12 was found to be involved as potential marker of immune activation in CIDP.
Nerve biopsy has also been used in search of in situ biomarkers. The conclusion was that
even though the total numbers of inflammatory cells did not distinguish well between CIDP
and non-inflammatory neuropathies, the pattern of macrophage clusters around endoneurial
vessels could be a simple marker of inflammation with good sensitivity and specificity.
Furthermore, another study has found that CIDP is associated with a high level of
haptoglobin in the CSF. The underlying mechanisms behind this has not yet been clarified.
Nevertheless, this opens for haptoglobin as a possible useful biomarker.
Cluster of differentiation 19 (CD-19)- a promising B cell target! A study on spontaneous
autoimmune polyneuropathy (SAP) in B7-2 knock- out non-obese diabetes mice, which is an
animal model and mimics the chronic progressive form of human CIDP, has showed that
treatment with anti-CD19 monoclonal antibody (mAb) results in depletion of B-cells and
plasmablasts accompanied by decreased serum IgG and IgM levels and depletion of P0-specific
plasmablasts and B-cells. CD-19 is a protein found on the surface of normal and neoplastic
B-cells, from the early pre-B cell stage of development through to the early stages of
plasma cell differentiation. The majority of B-cell lineage malignancies express CD19 at
high levels. Therefore, CD19 is a broad marker of the B-cell lineage and represents a
potentially important target for unconjugated mAb immunoteraphy. In another study by
stimulating the CD19 B cell isolated from blood samples of CIDP patients, the B-cell
immunoreactivity was enhanced but within 3 days of IVIG infusions, the B-cell level in CIDP
was downregulated.
Cluster of differentiation 163 (CD-163) - a new way to measure CIDP and MMN? CD-163 is a
scavenger receptor (recognizes and uptakes macromolecules) which marks the
monocyte-macrophage activation. CD163 works for macrophages as a receptor for
hemoglobin-haptoglobin complexes. The soluble form of the receptor is called sCD163 and is
found in plasma, where it is found to be up regulated in a large range of inflammatory
diseases.
Values which is Increased strongly (>20mg/l) is seen in diseases like macrophage activating
syndrome, haemophagocytic syndrome and acute hepatic failure. Furthermore, the level of
sCD163 reflects the activity of the disease. Patients with increasing and high values are
found to have unfavorable prognosis. Increased values (5-20 mg/l) are seen in hepatic
disease, sepsis and Gaucher's disease. Septic patients with values greater than 10 mg/l have
a 10 times greater risk of fatal outcome. Values which is slightly increased (3-5 mg/l) is
often seen in inflammatory of infectious conditions and in cancer.
Hypothesis Patients treated with SCIG for CIDP and MMN have higher concentrations of sCD163
and CD19 in their cerebrospinal fluid and serum compared with healthy control subjects and
is related to disease severity.
Patients newly diagnosed with CIDP or MMN have higher levels of sCD163 and CD19, than
patients treated regularly with SCIG.
Purpose To define the concentration of sCD163 and CD19 in the cerebrospinal fluid and serum
in patients with CIDP or MMN compared with controls (patients with unspecified neurological
symptoms or disease).
Method Data Sources Data used in this study will originate from several sources, such as the
Danish Civil Registration Registry, the Danish National Patient Registry and the Danish
national prescription registry.
Information from the medical record will be included and used in this project including past
medical history, actual use of drugs, results of biochemical analyses and brain imaging,
abnormalities at the clinical examinations and the conclusions from the doctors diagnostic
workup.
Study population
The study population will consist of four subgroups:
Recruitment All participants will receive information about the project and will be asked to
give their content to participation.
Participants will receive written and oral information about the study. The oral information
will take place at Department of Neurology, Aarhus Universitetshospital. Moreover, the
pamphlet " Før du deltager i et sundhedsvidenskabeligt forsøg"(about participating in a
clinical trial) will be handed out.
The information will be given by consultant Henning Andersen, MD Lars Makrvardsen or stud.
med Malalai Musleh . It is possible for the participants to bring a companion and they are
offered one week to consider the participation.
Access to patient records will be requested, which will be provided in the written
information material.
If new knowledge about disadvantages of participating in the study appears the participants
will be informed immediately. Moreover, the participant will be informed if evaluations
during the study bring knowledge about the general health status of the patient, unless this
has been clearly rejected by the patient.
By the end of the study it is possible for participants to contact the study coordinator to
get information about study results.
Participants will not receive any form of payment, but can receive compensation for
transportation The participation implies extraction 3-5 ml of spinal fluid and a blood
sample about 10 ml, which will be used for analysis of certain biomarkers, such as sCD163,
CD19 and myelin proteins.
Other examination
Patients with CIDP and treatment with SCIG or IVIG plus drug-naïve CIDP patients will
undergo a clinical examination with the following:
- Neuropathy Impairment Score (NIS)
- Overall Disability Sum Score (ODSS)
- Neuropathy Symptom Score (NSS) Disorders or treatments that contraindicate a lumbar
puncture. In case an included patient turn out to meet the exclusion criteria after
analyses of the spinal fluid, the patient will be replaced by a new patient.
At all times during the diagnostic work-up and consequently in the research project the
investigators will do this with respect for the patients mental and physical condition. The
research project will be carried out according to the Act on Processing of Personal Data
and, furthermore, the project will be submitted to the common regional information system
for Region Midtjylland.
Analyses The spinal fluid and the serum will be analysed at the Department of Clinical
Medicine, Aarhus University Hospital. The spinal fluid and blood samples will be deposited
in a research biobank at Aarhus University Hospital. The plan is to carry out all the
biochemical analyses at the same time when all samples are collected. In the end of the
project, the samples will be pseudo anonymised. Any excess biological material will be
transferred to a biobank for future research.
The concentrations of sCD163 in spinal fluid and serum will be analyzed by already
established techniques at the Department of Clinical Medicine, Aarhus University Hospital.
The concentrations of CD19 in spinal fluid and serum will be analyzed by established
techniques at the Department of Immunology, Aarhus University Hospital.
Power and Statistical analyses Because of the rareness of both CIDP and MMN and the few
number of patients it is not relevant to make Power calculations.
The program STATA will be used for statistical analyses. Parametric or non-parametric tests
will be used depending of the normal distribution of data. In all statistical analysis a 5%
level of significance will be used.
Perspectives Due to the many clinical variants of inflammatory polyneuropathies and due to
the lack of biomarkers, it remains difficult to diagnose CIDP. It is very important to
identify new methods for diagnosis and monitoring of patients with CIDP. This may also
enable better prediction of the prognosis and the level of treatment needed.
The pathology of CIDP is still unknown but it is known to be immune mediated. In several
studies sCD163 has been shown to up regulated in a larger range of inflammatory diseases
suggesting sCD163 to be a relevant biomarker for CIDP.
It has also been proved that CD19 is a promising B-cell target for the development of
disease-modifying agents in autoimmune neuropathies.
These findings can be used as diagnostic markers in patients with CIDP and MMN. Ethical
considerations All the participants will be informed orally and in writing about the study
and will receive consideration with a view to whether they want to participate. Signed
consent will be given.
The tests performed on the patients involved in this research project are lumbar puncture,
blood sampling and clinical examination.
A lumbar puncture is a procedure used to collect cerebral spinal fluid (CSF) for analysis.
CSF is a promising source of biomarkers in CIDP since the proximal nerve roots, which are
affected early in the disease, are in close anatomical contact with the CSF space. During
the procedure a hollow needle is used to penetrate the spinal canal at the level of the
third- to-fourth or fourth-to-fifth lumbar vertebra in the low back. CSF then drips out
through the needle and is collected. It involves some risk to perform a lumbar puncture,
which include post lumbar puncture headache with an incidence of 12%, most common in younger
patients. Most frequently, the headache has a short duration and it may be cured with
application of a blood -patch. Moreover, lumbar puncture can cause temporary lumbar pain and
an accumulation of blood underneath the skin. There is a very low risk of bleeding in the
epidural space with compression of spinal nerves and an even lower risk of infections
(meningitis or meningoencephalitis).
However, it is important to highlight that lumbar puncture is part of routine diagnostic
workout for neuropathy. However, CIDP patients treated with SCIG or IVIG will have a lumbar
puncture for research purposes only. There are no further risks associated with collection
of an extra sample of spinal fluid or blood. In consideration of the low risk involved in
this project, the seriousness and costs of the disease and the potential to identify a
relevant biomarker in CIDP, we consider this project to be ethically acceptable.
Publication Positive, negative as well as inconclusive results from this study will be
published. The results will be written in an article for publication in an English written
peer reviewed journal.
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