A molecular biofluid signature of multiple system atrophy (MSA): CSF neurofilament light chain and α-synuclein seeding as complementary biomarkers allow to distinguish MSA from sporadic adult-onset ataxia

BackgroundAccurate diagnosis of multiple system atrophy (MSA) is critical for clinical management and efficient trial designs, yet remains challenging, particularly distinguishing MSA (especially cerebellar-subtype [MSA-C]) from sporadic adult-onset ataxia (SAOA). Combining a marker of neuroaxonal degeneration, neurofilament light chain (NfL), with a marker of the pathogenic MSA hallmark, -synuclein seeding activity, may define a mechanistically-informed CSF signature of MSA, enabling sensitive and specific differentiation from SAOA even in early disease. MethodsWe analyzed 60 cross-sectional patient CSF samples (n=32 clinically diagnosed MSA [MSAclin] 22/32 MSA-C; n=28 SAOA) for NfL (Simoa)