What Does it Cover?
Monitoring protein biomarkers in cerebrospinal fluid (CSF) of patients with Alzheimer’s Disease (AD) has been highly beneficial to understanding disease progression. While several CSF biomarkers can reproducibly distinguish normal and diseased samples, CSF is a difficult biological fluid to obtain in research studies. The need for blood-based biomarkers of AD has driven a continuous search for novel candidates.
Here we report the development of a multiplex immunoassay to quantitatively measure seven proteins present in both CSF and blood that are involved in neurological disease: Neurogranin, TREM2, ApoE4, FABP3, Ferritin, angiogenin, and prion protein. Notably, presence of the APOE4 allele is prominently associated with an increased risk for AD, in comparison to the APOE2 and APOE3 alleles. Although these ApoE isoforms differ at only one or two amino acids, our assay distinguished ApoE4 with minimal cross-reactivity. Using this novel immunoassay, we measured these 7 biomarkers in CSF, plasma, and serum from AD patients and healthy controls.
Additionally, we developed an ultrasensitive Single Molecule Counting (SMC®) assay for amyloid beta 1-42 (Aβ42). This kit could detect the Aβ42 peptide in CSF and plasma at sub-pg/mL concentrations. This study demonstrates the value of evaluating both novel and established biomarkers of neurodegeneration across distinct sample types.
What Will You Learn?
- The principles of Luminex® technology, and some tips for success.
- Gain insight into how to successfully integrate multiplexed immunoassays into your neuroscience workflow
- Learn how a new high-sensitivity immunoassay platform, the SMCxPRO®, can be used to advance your neuroscience research.
Who Should Attend?
Researchers interested in:
- Neurodegenerative disease biomarkers
- Multiplex protein detection
- High-sensitivity immunoassay technology
Research and disease areas
- Neuroscience research
Duration:41min
語言:English
會話 1:提出 September 11, 2018
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