To tackle the human health challenges that face the world today, the FNIH develops collaborations with top experts from government, industry, academia and the not-for-profit sector and provides a neutral environment where we can work productively toward a common goal.
Rheumatoid Arthritis (RA), Systemic Lupus Erythematosus & Related Autoimmune Disorders is an initiative of the Accelerating Medicines Partnership (AMP), which is a multi-sector, pre-competitive partnership among government, industry, and nonprofit organizations, the goal of which is to harness collective capabilities, scale and resources toward improving current efforts to develop new therapies for complex, heterogeneous diseases.
This project will aim to standardize and validate measurement methods for inflammatory markers associated with Alzheimer’s Disease and/or Major Depressive Disorder to ultimately identify a unique biosignature of disease. The identified biosignature would greatly assist with medication development, patient diagnosing, and patient selection for clinical trials.
The goal of this three-year project is to validate the novel radiographic measures, MRI measures and biochemical markers from the Phase I OA Biomarkers Consortium Project, and to qualify those biomarkers via the formal regulatory qualification process with both the FDA and EMA.
The Biomarkers Consortium’s TARGET Biomarker Study seeks to utilize validated proteomic biomarkers of rheumatoid arthritis (RA) disease activity and inflammation to categorize baseline and disease-modifying antirheumatic drug (DMARD)-associated changes in vascular inflammation in RA patients.
The Biomarkers Consortium’s Longitudinal CSF Proteomics Project, completed in Q4Y20, was the third stage of a multi-phased effort utilizing samples from the Alzheimer’s Disease Neuroimaging Initiative (ADNI) expanding on the identification of promising proteins in a previous Biomarkers Consortium project to provide early validation for candidate AD biomarkers. Concentrations of the candidate biomarkers in CSF were measured using a state-of-the-art targeted stable isotope-based quantitative mass spectrometry assay developed and implemented during the first two program stages.