Early-Onset Alzheimer’s Tests: A Guide to Available Testing Methods

July 7, 2021Henry Peck

Alzheimer’s disease, the most common form of dementia, is a progressive condition that affects memory, thinking, and behavior. More than 50 million people worldwide are living with Alzheimer’s or other forms of dementia.

Alzheimer’s is clinically characterized by a gradual decline in cognitive function and neuropathological hallmarks, including the presence of neuropil threads, neurofibrillary tangles, amyloid plaques, abnormal tau accumulations, amyloid angiopathy, and neuronal and synaptic loss. While Alzheimer’s most commonly affects older adults, it can also impact individuals under the age of 65—this is known as early-onset, or younger-onset, Alzheimer’s disease. While there is currently no cure, there are several promising Alzheimer’s drugs being tested today, such as ADUHELM™, which is produced and distributed by Biogen Inc. and Eisai Co., Ltd. The present focus is on catching the disease early and slowing or impeding the onset of the symptoms.

It is important to test early for Alzheimer’s due to the degenerative nature of the disease. When caught early enough, ideally before the onset of any symptoms, there is a better chance that it can be delayed. There are many diagnostic tools available to test for Alzheimer’s, though many of these tests fail to provide very early detection. The challenge facing the Alzheimer’s community is finding an early-onset Alzheimer’s test that is:

  • Able to provide earlier detection at a high accuracy
  • Non-invasive
  • Easily accessible
  • Inexpensive

Traditional Alzheimer’s and Early-Onset Alzheimer’s Tests

Most examinations of patients who are experiencing symptoms of early-onset Alzheimer’s disease begin with a medical exam and medical history overview, followed by a neurological exam in an office setting. This includes tests that address the patient’s reflexes, speech, coordination, eye movement, and sensations. From here, several tests can be performed to better indicate whether or not the patient will develop Alzheimer’s disease.

In this article, we’ll take a look at the testing methods used to diagnose early-onset Alzheimer’s disease and the pros and cons of each. The most widely used tests to diagnose early-onset Alzheimer’s disease are detailed below.

Amyloid PET Scan

An amyloid positron emission tomography (PET) scan can be used to detect signs of Alzheimer’s disease by utilizing radioactive tracers that highlight amyloid protein plaques within the brain. Extracellular plaque deposits of beta-amyloid peptides are a distinct pathology of Alzheimer’s. Beta-amyloid proteins originate from a larger protein found in the fatty membrane surrounding nerve cells and stick or clump together, eventually building up into a plaque.

Groups of smaller pieces of beta-amyloid may be more damaging than the plaques themselves, as they may block cell-to-cell signaling at synapses, activating immune system cells which devour disabled cells and cause inflammation. Amyloid PET scans have shown to have the ability to diagnose Alzheimer’s disease with 75% accuracy. In some cases, this method can detect Alzheimer’s disease before any symptoms are present, allowing the possibility of delaying the onset.


Magnetic resonance imaging (MRI) can be used to reveal the anatomical structure of the brain and rule out tumors, hemorrhages, hydrocephalus, and stroke, as these often present in a manner similar to Alzheimer’s. The primary role of an MRI is to assess volume loss in characteristic parts of the brain. More specifically, medial temporal lobe atrophy and parietal atrophy can be evaluated and used as a tool for diagnosis and progression monitoring. However, these volume losses cannot be seen in the early stages of this disease—in other words, an MRI may appear normal if performed in the early stages of Alzheimer's.

Medial temporal lobe atrophy can be assessed as a score that has shown to be predictive of progression from mild cognitive impairment (MCI) to dementia. Atrophy can be assessed directly by calculating parahippocampal volume loss or assessed indirectly by looking at the enlargement of parahippocampal fissures.

On the other hand, parietal atrophy can be scored and assessed to diagnose early-onset Alzheimer’s. This is done by examining the parieto-occipital sulcus and the posterior cingulate sulcus size, as well as the degree of atrophy of the precuneus and cortical surface of the parietal lobe. While MRI can diagnose Alzheimer’s disease with an accuracy of 69%, it does not provide early detection and requires continuous monitoring to assess changes.

Cerebrospinal Fluid

A sample of cerebrospinal fluid (CSF) can be collected from the subarachnoid space in the spine via a lumbar puncture (an invasive outpatient procedure) and analyzed for biomarkers associated with Alzheimer’s. Biomarkers refer to something that can be measured to reliably and accurately indicate the presence of a disease. Biochemical changes in the brain are reflected in CSF, as it is in direct contact with the extracellular space of the brain.

By measuring levels of beta-amyloid, total tau, and phospho-tau, Alzheimer’s disease can be diagnosed with an accuracy of 72%. Low levels of beta-amyloid 1-42, coupled with high levels of total tau and elevated levels of phospho-tau 181, are indicative of the presence of Alzheimer’s.

Current Early-Onset Alzheimer’s Tests

While these early-onset Alzheimer’s tests have relatively high diagnostic accuracy, there are significant downsides. Amyloid PET scans, MRIs, and CSF tests are costly, are not continuous by nature, meaning they can't be used continuously outside the clinic, and fail to provide very early detection. These tests require significant time and resources and cannot be scaled to account for the current trajectory of the number of individuals affected by Alzheimer’s. However, there have been significant and immensely promising advancements in diagnostic tools for Alzheimer’s.

Altoida is developing a platform and device to measure and analyze digital biomarkers associated with cognitive impairment. It is indicated as an adjunctive tool to aid in evaluating perceptual and memory function. In just 10 minutes, users complete a set of immersive augmented reality activities, representative of daily tasks, and receive personalized brain function measurements across 11 unique domains.

This iOS- and Android-based augmented reality (AR) technology utilizes a machine-learning algorithm and uses data from 784 unique biomarkers to predict function in three major cognitive areas:

  • Spatial and memory
  • Prospective memory
  • Executive functions

Altoida’s platform will use accelerometers, gyroscopes, and touch screen sensors in smart devices to detect micro-errors as both a prognostic and diagnostic digital biomarker. The vision for this assessment is for it to outperform gold standards for diagnosis. It will be cost-effective, scalable, and non-invasive.

To learn more about how Altoida is working to provide early-onset Alzheimer’s testing to keep you knowledgeable on the status of your brain, contact us today.

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At Altoida, we use digital biomarkers to radically change the method of assessing brain health and cognitive diseases. After nearly two decades of research, we are developing a platform and device to measure and analyze cognitive biomarkers associated with cognitive impairment to evaluate perceptual and memory function.
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