Amyotrophic Lateral Sclerosis (ALS) Clinical Trial
Official title:
A Study to Evaluate the Sensitivity, Specificity, and Overall Accuracy of an Amyotrophic Lateral Sclerosis Diagnostic Test Developed by Iron Horse Diagnostics
Prospective multicenter study of subjects who were recently diagnosed with amyotrophic
lateral sclerosis (ALS) or another neurodegenerative disease (including spinal cord
diseases, muscle diseases and neurological diseases such as multiple sclerosis, multifocal
motor neuropathy, myasthenia gravis and spinal muscular atrophy) or who are currently
undergoing diagnostic procedures for the aforementioned diseases.
Approximately 300 subjects will be enrolled. Subjects will undergo a lumbar puncture (LP)
for cerebro-spinal fluid (CSF) collection; blood collection for serum, plasma, RNA, and DNA
(optional); urine collection (optional); and skin biopsy (optional) in a single visit. No
study treatment will be administered.
Subjects will be managed and treated by their respective physicians; choice of therapy or
laboratory tests will not be impacted by the study. Clinical diagnosis may be confirmed by
the subject's physician and communicated to the study's Principal Investigator (PI) by
scheduled telephone calls.
ALS, also known as Lou Gehrig's disease, is a rapidly progressive, degenerative disease of
motor neurons in the brain and spinal cord that leads to muscle atrophy and spasticity in
limb and bulbar muscles. Clinical presentations of this fatal disease include weakness, loss
of ambulation, oropharyngeal dysfunction, weight loss, and ultimately respiratory failure.
Average survival is approximately 3 years after symptom onset. The initial symptoms are
similar to other neuropathies (e.g., motor neuropathy, progressive muscle atrophy, etc.) and
include limb weakness leading to partial or total paralysis, and increasing difficulties in
speech and breathing. ALS clinical diagnosis typically takes 12 months from symptom onset
and relies on exclusion of other potential causes of the clinical symptoms. To date there
are no FDA-approved diagnostic tests for ALS. Diagnostic tools for accurate and early
diagnosis are under investigation. These tools would not only permit early intervention, but
also would improve clinical trial design for new drug therapies.
Axonal degeneration and inflammation are among proposed pathogenic mechanisms for ALS;
therefore, proteins that function within these pathways are being evaluated as potential
biomarkers. Iron Horse Diagnostics, Inc. (Iron Horse) has focused its ALS diagnostic efforts
on studying the levels of cytoskeletal and inflammatory proteins in the cerebrospinal fluid
(CSF) of ALS patients.
Cytoskeletal proteins, including neurofilament proteins and tau, have been shown to be
elevated in the CSF of patients with various neurodegenerative diseases. Interestingly,
levels of phosphorylated neurofilament heavy subunit (pNfH) have been found to be
significantly increased in the CSF of ALS patients as compared with healthy subjects,
Alzheimer's disease patients or disease mimics Numerous inflammatory proteins, including
cytokines and complement proteins, have been shown to be altered in ALS; complement
proteins, including complement c3 (C3), have been found to be increased in the CSF of ALS
patients.
Iron Horse has evaluated CSF samples from 106 subjects (45 ALS patients, 25 disease controls
with a range of neurodegenerative conditions, and 36 healthy controls.CSF levels of pNfH,
tau, C3, and C reactive protein (CRP) were measured. pNfH was significantly elevated in CSF
from ALS subjects as compared with healthy and disease controls; there were no significant
differences for CRP or tau. To further distinguish between ALS subjects and disease
controls, data from cytoskeletal and inflammatory pathways were combined. A ratio of CSF
levels of pNfH and C3 showed significant differences between ALS and both the disease and
healthy control groups. Results were verified on a separate test set of CSF samples.
Overall, the predictive pNfH/C3 ratio identified ALS with 87.3 % sensitivity and 94.6%
specificity in a total of 71 ALS subjects, 52 disease control subjects, and 40 healthy
subjects.
In the same study, it was observed that plasma levels of pNfH were significantly elevated in
ALS subjects as compared with healthy controls; however there was no significant difference
between ALS and disease controls. Comparison of pNfH levels between the CSF and plasma for
each study subject revealed a weak correlation between plasma and CSF pNfH levels.
The accuracy of pNfH and pNfH/C3 ratio as ALS predictors has also been tested by Iron Horse
in a recent prospective, blinded study in collaboration with the Northeast ALS Consortium
(NEALS) [unpublished data]. CSF (n=126) and plasma (n=220) samples were collected from
subjects from 30 medical centers across the United States (US) who were undergoing
diagnostic assessment for neurodegenerative conditions or who were recently diagnosed with
ALS. Accuracy for predicting ALS diagnosis was 93% for CSF pNfH/C3 ratio and 82% for pNfH
plasma levels.
The prospective study proposed in this concept will test the sensitivity, specificity, and
overall accuracy of pNfH and pNfH/C3 ratio as ALS predictors on a separate sample set. CSF
and matching plasma samples will be collected at up to 6 neurodegenerative clinics from up
to 300 subjects who were recently diagnosed with ALS or another similar neurologic disease
or who are currently undergoing diagnostic procedures.
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