Amyotrophic Lateral Sclerosis Clinical Trial
Official title:
Inflammation in Amyotrophic Lateral Sclerosis - a Study of Soluble Cluster of Differentiation 163 in the Cerebrospinal Fluid
Amyotrophic lateral sclerosis (ALS) is a fatal disease with progressive muscle weakness
leading to severe disability and eventually death.Since the diagnosis relies on clinical
features and electromyographic abnormalities, which may occur rather late in the disease
course, there is a need to identify diagnostic tests that can confirm or exclude the
diagnosis of ALS in the earlier phase of the disease.
More recently, there are studies suggesting neuroinflammation to play a role for the
development of ALS. Cluster of differentiation 163 is found to be up regulated in a large
range of inflammatory diseases.
At the investigators lab, pilot data (Kallestrup M et al, unpublished data) has shown
promising results. There was an increased level of cluster of differentiation 163 (sCD163)
in cerebrospinal fluid in 7 patients with ALS compared with controls.
The purpose of the investigators study is to define the concentration of sCD163 in the
cerebrospinal fluid and serum in patients with ALS compared with controls (patients with
unspecified neurological symptoms). Furthermore, the investigators will define the
concentrations of protein, glucose, immunoglobulin G index and other factors in the spinal
fluid.
Introduction Amyotrophic lateral sclerosis (ALS) is a fatal disease with progressive muscle
weakness leading to severe disability and eventually death. It is the most common form of
motor neuron diseases and involves both the upper and lower motor neurons. The median
survival from debut of symptoms to dead is approximately 3 years.
Since the diagnosis relies on clinical features and electromyographic abnormalities, which
may occur rather late in the disease course, there is a need to identify diagnostic tests
that can confirm or exclude the diagnosis of ALS in the earlier phase of the disease.
ALS is a neurodegenerative disease, however the pathogenesis is not well established. The
causes are probably multifactorial and a complex interaction between genetic factors and
dysfunction of vital molecular pathways concerning the dominantly inherited c9orf72 gene and
impaired glutamate uptake in astrocytes (EAAT2-receptor) from the synaptic cleft and thereby
glutamate excitotoxicity. This glutamate excitotoxicity may cause oxidative stress,
voltage-gated persistent sodium channels and activation of microglia resulting in secretion
of proinflammatory cytokines.
More recently, there are studies suggesting neuroinflammation to play a role for the
development of ALS. A study from 2012 (a mouse model of ALS, that overexpress mutant
superoxide dismutase (mSOD1)), has documented that microglia can both protect and injure the
motor neurones depending on which phenotype of the microglia is activated. It seems like it
is a continuum between the protective M2 phenotypic state (disease onset) and the neurotoxic
M1 phenotypic state (disease end-stage). Furthermore, at disease onset the mice expressed
higher levels of Ym1, CD163 and brain-derived neurotrophic factor (markers of M2).
Of other molecular mechanisms, it is worth to mention the structural and functional
abnormalities of mitochondria, impairment of axonal transport systems and endosomal
trafficking and induction of the endoplasmic reticulum stress response although they appear
to be secondary events in ALS. The net result is degeneration of motor neurones in cerebral
cortex, the cranial nerve nuclei, the anterior horn of the spinal cord and the corticospinal
tracts. The only present treatment available is Riluzole that has proven to extend life or
time to onset of serious respiratory problems in patients with ALS. The mode of action for
Riluzole still has to be determined, possibly the dynamic is an inhibition of glutamate
release from the presynaptic neuron. (1,2,3,4,5,6) Though it seems that the inflammatory
process is a secondary event, it seems to be critical for neuronal degeneration. In a study,
ALS pathology was sought to be reduced through central nervous system targeted
glucocorticoid and succeeded by reducing brainstem pathology in mouse models of ALS. Of
different biomarkers, inflammatory markers have also been tested: the interleukin-1 family
cytokines. Among them only total interleukin-18, its endogenous inhibitor interleukin-18BP,
and the active form of the cytokine (free interleukin-18) were significantly higher in the
ALS patients than in controls. The cytokine showed no correlation to the different clinical
forms of ALS or the clinical setting of the disease. Cytokines have also been tried as
neuroprotective agents. Erythropoietin (EPO) is known as the growth factor that maintains
the number of circulating erythrocytes. However, the biological role of EPO has been
expanded to other cells, such as neurons, microglia, and astrocytes in the brain. EPO seems
to suppress the proinflammatory cytokines during disease progression, maintain the
anti-inflammatory cytokines until the late symptomatic stage and finally seems to delay
symptom onset and preserve number of motor neurons. (7,8,9,10) Cluster of differentiation
163 (CD-163) - a new way to monitor inflammation in ALS? 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 and cerebrospinal fluid, where
it is found to be up regulated in a large range of inflammatory diseases.
Strongly increased values (>20mg/l) is seen in diseases like macrophage activating
syndrome,hemophagocytic 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 increased a little (3-5 mg/l) is often seen
in inflammatory of infectious conditions and in cancer. (11,12,13,14) Pilot data At the
investigators lab, pilot data (Kallestrup M et al, unpublished data (15)) has shown
promising results. There was an increased level of sCD163 in cerebrospinal fluid in 7
patients with ALS compared with controls. Furthermore, both definite and probable ALS
patients have an increased level of sCD163. These results suggest a larger study to be
performed evaluating patients with ALS at early as well as later stages of the disease.
Hypothesis Patients with ALS have up-regulated levels of sCD-163 in their cerebrospinal
fluid and serum compared with healthy subjects and the level is related to the severity of
the disease.
Purpose To define the concentration of sCD-163 in the cerebrospinal fluid and serum in
patients with ALS compared with controls (patients with unspecified neurological symptoms).
Furthermore, we will define the concentrations of protein, glucose, immunoglobulin G index
and other factors in the spinal fluid.
Method Study population The study population will be all patients with established and
suspected ALS at the Department of Neurology, Aarhus University Hospital.
Patients with established ALS who participate will undergo lumbar puncture as a part of this
study. Subjects suspected to suffer from ALS will undergo lumbar puncture as a part of their
diagnostic work up and the level of sCD163 in their cerebrospinal fluid will be analysed.
At the Department of Neurology, Aarhus University Hospital there are approximately 80
patients with established ALS. We expect that 50 of these patients are willing to
participate and are eligible for inclusion (31-08-2015). Furthermore, we expect to include 8
patients who will be diagnosed with ALS at Department of Neurology, Aarhus University
Hospital during the study period.
The controls include patients with various neurological symptoms or diseases who will
undergo a lumbar puncture at the Department of Neurology at Aarhus University Hospital as
part of their diagnostic work-up irrespective of this study. In the final analyses only
controls will be included who end up having either no neurological disease or a neurological
disease which is believed not to involve the spinal fluid. We expect to include 40-50
controls.
Recruitment Participants will receive written and oral information about the study. The oral
information will take place at Department of Neurology, Aarhus University Hospital.
Moreover, the pamphlet "Forsøgspersoners rettigheder i et sundhedsvidenskabeligt
forskningsprojekt" will be handed out. Consultants at the department of neurology will give
the information, to patients with suspected ALS. Controls and patients with established ALS
will receive information from the doctors at the department of Neurology and research year
student Anne Sofie Vinther.
It is possible to bring a companion and the participants are offered at least 24 hours to
consider 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.
All participants will receive information about the research project and will be asked to
give their content to participation. The participation implies extraction of 5-6 ml spinal
fluid and a blood sample (30ml), which will be used for analysis of sCD-163.
Participants will not receive any form of payment, but can receive compensation for
transportation.
Inclusion criteria:
ALS Patients diagnosed with ALS and patients suspected to have ALS. Age >18 Controls Age >18
Exclusion criteria (for all groups):
Acute infections including neuroinfection Other disorders known to have elevated levels of
sCD163 Disorders or treatments that contraindicate a lumbar puncture. Other established
neurological disorders. At all times during the diagnostic work-up and consequently in the
research project we 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.
Analysis The spinal fluid and the serum will be analysed at the Department of Clinical
Biochemistry, Aarhus University Hospital. The spinal fluid and blood samples will be
deposited in a research biobank at Aarhus University Hospital. It is planned that all
biochemical analyses will be performed when all samples are collected. At the end of the
project, the samples will be pseudo anonymised. Due to the possibility of developing new
knowledge in this area, the samples will be deposited in the biobank 5 years after this
project has been finished.
The concentrations of sCD-163 in spinal fluid and serum will be analyzed by already
established techniques at the Department of Clinical Biochemistry, Aarhus University
Hospital.
Examination The examination consists of a medical history and a clinical examination. We use
the Revised ALS functional rating scale (ALSFRS-R), which is at rating instrument for
monitoring the progression of disability in patients with ALS. 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, results from the ALSFRS-R,
results from the electromyography, abnormalities at the clinical examinations and the
conclusions from the diagnostic work-up.
Power and Statistical analyses Since the investigators pilot data (n=7) showed a 50%
increase in the level of CD163 in the cerebrospinal fluid in ALS patients inclusion of 40
patients is expected to enable detection of smaller difference also in serum and relations
between CD163 and clinical findings.
The program ANOVA 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 It is of importance to identify prognostic biomarkers in ALS. The pathology of
ALS is still unknown but it seems that inflammation is a crucial factor in the process. In
several studies, sCD163 has shown to be up regulated in a large range of inflammatory
diseases and together with the investigators promising pilot data sCD163 is a potential
marker for ALS. (4) The assessment of drug efficacy in ALS remains clinically based, relying
on measuring the rate of disease progression through the utilization of the ALS rating
scale-revised (ALSFRS-R). Such clinical scales may be insensitive, especially in the early
stages of the disease process. The development of reliable quantifiable biomarkers remains
elusive in ALS, and development of prognostic biomarkers would be crucial for effective
evaluation of a therapeutic agent in the early stages of development.
Ethical consideration The tests performed on the patients involved in this research project
are lumbar puncture and blood samples.
It involves some risks 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 underscore that lumbar puncture is part of
routine diagnostic workup at the Department of Neurology at Aarhus University Hospital.
In consideration of the low risk involved in this project, the bad prognosis for the disease
and the potential to improve diagnosis and treatment for future patients with ALS 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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