The test is based on an immuno-chemical analysis using an infrared sensor. The sensor's surface is coated with highly specific antibodies which extract biomarkers for Alzheimer's from the blood or the cerebrospinal fluid, taken from the lower part of the back (lumbar liquor), researchers said.
The infrared sensor analyses if the biomarkers show already pathological changes, which can take place more than 15 years before any clinical symptoms appear, they said.
A major problem of Alzheimer's disease diagnosis is the fact that, by the time the first clinical symptoms appear, massive irreversible damage to the brain has already occurred. At that point, symptomatic treatment is the only available option, researchers said.
For the novel test, the secondary structure of the so-called Amyloid beta peptides serves as biomarker. This structure changes in Alzheimer's patients, researchers said.
In the misfolded, pathological structure, more and more Amyloid beta peptides can accumulate, gradually forming visible plaque deposits in the brain that are typical for Alzheimer's disease. This happens more than 15 years before first clinical symptoms appear, they said.
Together with researchers from German Centre for Neurogenerative Diseases (DZNE), Gerwert and colleagues developed an infrared sensor for detecting misfolding of Amyloid beta peptides.
The infrared sensor extracts the Amyloid beta peptide from body fluids. After initially working with cerebrospinal fluid, the researchers subsequently expanded the method towards blood analysis.
"We do not merely select one single possible folding arrangement of the peptide; rather, we detect how all existing Amyloid beta secondary structures are distributed, in their healthy and in their pathological forms," said Gerwert.
The test showed an increase of misfolded biomarkers as spectral shift of Amyloid beta band below threshold, thus diagnosing Alzheimer's, researchers said.
The findings were published in the journal Biophotonics.