Amyotrophic lateral sclerosis (ALS) is the most common motor neuron disease among adults. With diagnosis reached relatively late into the disease process, extensive motor cell loss narrows the window for therapeutic opportunities. Clinical heterogeneity in ALS and the lack of disease‐specific biomarkers have so far led to large‐sized clinical trials with long follow‐up needed to define clinical outcomes. In advanced ALS patients, there is presently limited scope to use imaging or invasive cerebrospinal fluid (CSF) collection as a source of disease biomarkers. The development of more patient‐friendly and accessible blood biomarker assays is hampered by analytical hurdles like the matrix effect of blood components. However, blood also provides the opportunity to identify disease‐specific adaptive changes of the stoichiometry and conformation of target proteins and the endogenous immunological response to low‐abundance brain peptides, such as neurofilaments (Nf). Among those biomarkers under investigation in ALS, the change in concentration before or after diagnosis of Nf has been shown to aid prognostication and to allow the
a priori
stratification of ALS patients into smaller sized and clinically more homogeneous cohorts, supporting more affordable clinical trials. Here, we discuss the technical hurdles affecting reproducible and sensitive biomarker measurement in blood. We also summarize the state of the art of non‐CSF biomarkers in the study of prognosis, disease progression, and treatment response. We will then address the potential as disease‐specific biomarkers of the newly discovered cryptic peptides which are formed down‐stream of TDP‐43 loss of function, the hallmark of ALS pathobiology.
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