AI Article Synopsis
- Neurofilament light chain (Nf-L) is identified as a potential biomarker for diagnosing neurological disorders in cattle, paralleling its established role in human neurology.
- The study found that Nf-L levels varied significantly between healthy and sick cattle, with consistent median levels detected in serum and cerebrospinal fluid (CSF) across different age groups.
- There is a promising association between Nf-L levels in serum and CSF, particularly in cattle with neurological disorders, indicating that Nf-L could serve as a valuable diagnostic tool in veterinary practices.
Article Abstract
Neurofilament light chain (Nf-L) is a biomarker for axonal damage in human neurology but is understudied in cattle. With this study we wanted to determine Nf-L stability at two different storage temperatures and Nf-L levels in healthy cattle and the relationship with age, evaluate whether Nf-L holds diagnostic potential for neurological disorders, and whether an association exists between Nf-L in serum and in cerebrospinal fluid (CSF). To do this, we measured Nf-L levels in CSF and serum samples from 49 healthy and 75 sick cattle. Storage at -80 °C or -20 °C had no impact on Nf-L concentration. Physiological median Nf-L levels were 6.3 pg/mL (serum) and 414 pg/mL (CSF) in calves and 5.5 pg/mL (serum) and 828 pg/mL (CSF) in adult cattle. There was no association between Nf-L levels in CSF and calf age (r 0.07, p = 0.13), while a weak association was found for Nf-L in serum (r 0.26, p = 0.01), and a significant association in adult cattle (CSF, r 0.69, p = 0.0001; serum, r 0.68, p = 0.0003). CSF Nf-L levels were higher in samples from animals with degenerative (median Nf-L 49971 pg/mL) and infectious central nervous system (CNS) disorders (median Nf-L, age < 2 months 8863 pg/mL; age 2-12 months 17474 pg/mL; age 1-6 years 3546 pg/mL), CNS anomalies and metabolic/toxic disorders. There was a significant association between CSF Nf-L and serum Nf-L in cattle with neurological disorders (r 0.2, p = 0.009). Taken together, these findings suggest the potential of Nf-L as a diagnostic tool in cattle neurology.
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