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Handheld Wireless Biosensor Accurately Detects Alzheimer’s

The Biosensor is as accurate as state-of-the-art testing methods and will allow testing at home. Next step: test saliva and urine samples.
Bioengineering senior Armando Ramil holds the biosensor.

An international team of researchers has developed a handheld, non-invasive device that can detect biomarkers for Alzheimer’s and Parkinson’s Diseases. The biosensor can also transmit the results wirelessly to a laptop or smartphone. 

The team tested the device on in vitro samples from patients. The tests showed the device is as accurate as the state of the art testing methods. Ultimately, researchers plan to test saliva and urine samples with the biosensor. The device could be modified to detect biomarkers for other conditions as well. 

Researchers present their findings in the Nov. 13, 2023 issue of the Proceedings of the National Academy of Science. 

Electrical Detection Easier and More Accurate

The device relies on electrical rather than chemical detection, which researchers say is easier to implement and more accurate. 

“This portable diagnostic system would allow testing at-home and at point of care, like clinics and nursing homes, for neurodegenerative diseases globally,” said Ratnesh Lal, a bioengineering, mechanical engineering and materials science professor at the UC San Diego Jacobs School of Engineering and one of the paper’s corresponding authors.

By the year 2060, about 14 million Americans will suffer from Alzheimer’s Disease. Other neurodegenerative diseases, such as Parkinson’s, are also on the rise. Current state of the art testing methods for Alzheimer’s and Parkinson’s require a spinal tap and imaging tests, including an MRI. As a result, early detection of the disease is difficult, as patients balk at the invasive procedures. Testing is also difficult for patients who are already exhibiting symptoms and have difficulty moving as well as those who have no early access to local hospitals or medical facilities. 

Non-invasive Test

One of the prevailing hypotheses in the field, which Lal has focused on, is that Alzheimer’s Disease is caused by soluble amyloid peptides that come together in larger molecules, which in turn form ion channels in the brain. 

Lal wanted to develop a test that would be able to detect amyloid beta and tau peptides – biomarkers for Alzheimer’s – and alpha synuclein proteins – biomarker for Parkinson’s – non invasively, specifically from saliva and urine. He wanted to rely on electrical rather than chemical detection, as he believes it is easier to implement and more accurate. He also wanted to build a device that could wirelessly transmit the test results to the patient’s family and physicians. The device is the result of his three decades of expertise, as well as his collaboration with researchers globally, including those co-authors in this work from Texas and China.

Improve Quality-of-Life

“I am trying to improve quality of life and save lives,” he said. 

To realize Lal’s vision, he and colleagues adapted a device they developed during the COVID pandemic to detect the spike and nucleoprotein proteins in the live SARS-CoV-2 virus, which they described in PNAS in 2022. That breakthrough had been made possible by chip miniaturization and by large-scale automation of biosensor manufacturing. 

Schematic of sensing platform and detection methodology. A schematic of the biosensor testing process utilized throughout the paper. Top-left: Amyloid proteins were immunoprecipitated from homogenized brain tissue from autopsied AD and PD patients. The brain-derived proteins were then applied to the silicone well in the GFET biosensor chip (Top-right). Bottom-left: The 3D models of neurodegenerative amyloid proteins (PDB IDs for Aβ, Tau, and αS are 6cvj, 1xq8, and 2mxu) are shown produced with the software, ChimeraX (1922). Bottom-right: The graphene surface of the GFET chip is functionalized with an aptamer (probe) that binds to the specific analyte (shown as Aβ monomer) and analyte-probe-specific interaction shifts the Dirac point in the plots of the gate voltage vs drain–source currents. The Dirac point shift between the baseline (control I–V curve without an analyte) and the I–V curve in the presence of the biomarker sample is recorded and analyzed by the reader (18).

How the device is made and how it works

The device described in the 2023 PNAS study, consists of a chip with a high sensitivity transistor, commonly known as a field effect transistor (FET). In this case, each transistor is made of a graphene layer that is a single atom thick (GFET, with the G standing for graphene) and three electrodes–source and drain electrodes, connected to the positive and negative poles of a battery, to flow electric current, and a gate electrode to control the amount of current flow.

Connected to the gate electrode is a single DNA strand, which serves as a probe that specifically binds to either amyloid beta, tau or synuclein proteins. The binding of these amyloids with their specific DNA strand probe, called an aptamer, changes the amount of current flow between the source and drain electrode. The change in this current or voltage is the signal used to detect the specific biomarkers, like amyloids or COVID 19 proteins. 

Picture of a biosensor

The biosensor consists of a chip with a highly sensitive transistor, made of a graphene layer that is a single atom thick and three electrodes–source and drain electrodes, connected to the positive and negative poles of a battery, to flow electric current, and a gate electrode to control the amount of current flow.

The research team tested the device with brain-derived amyloid proteins from Alzheimer’s and Parkinson’s deceased patients. The experiments showed that the biosensors were able to detect the specific biomarkers for both conditions with great accuracy, on par with existing state of the art methods. The device also works at extremely low concentrations, meaning that it needs small quantities for samples–down to just a few microliters.

Reliable Results from 3 Different Biomarkers

In addition, the tests showed that the device performed well even when the samples analyzed contained other proteins. Tau proteins were more difficult to detect. But because the device looks at three different biomarkers, it can combine results from all three to arrive at a reliable overall result.

The technology has been licensed from UC San Diego to a biotechnology startup Ampera Life. Lal is the company’s chairman but does not receive financial support for his research from the company. 

Next steps include testing blood plasma and cerebro-spinal fluid with the device, then finally saliva and urine samples. The tests would take place  in hospital settings and nursing homes. If those tests go well, Ampera Life plans to apply for FDA approval for the device, hopefully in the next five or six months. The ultimate goal is to have the device on the market in a year. 

More Information


PNAS: In pursuit of degenerative brain disease diagnosis: dementia biomarkers detected by DNA aptamer-attached portable graphene biosensor

Close of a biosensor

 A close up of the silicon well in the biosensor with the graphene-based transistor at the bottom.

Research Sites:

  • University of California San Diego
  • Shanghai Institute of Microsystem Information Technology
  • University of the Chinese Academy of Sciences
  • University of Texas Medical Branch, Galveston, Texas
    University of Illinois Urbana-Champaign

Funding for the research came from:

  • The National Institutes of Health
  • The University of California San Diego
  • The Chinese Academy of Sciences.
  • In addition, researchers used facilities that are a part of the NSF-funded UC San Diego Materials Research Science and Engineering Center.
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November 19, 2023 11:26 pm

I would definitely be interested in testing this device

Linda Stahl
Linda Stahl
November 20, 2023 3:52 pm

This would absolutely be amazing.

B. Berger

B. Berger

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