AI Detects Rare Forms of Dementia

Summary: Machine learning algorithms can effectively recognize patterns in a patient’s neuroimaging data that are specific to rare forms of dementia, allowing for early diagnosis and monitoring of disease progression.

Source: Max Planck Institute

Researchers at MPI CBS and University of Leipzig Medical Center have used new artificial intelligence (AI) and machine learning techniques to detect rare forms of dementia on MRI images.

In their study, the researchers show that AI can automatically recognize patterns in patient imaging data that are specific to rare forms of dementia, enabling early diagnosis.

They included Alzheimer’s disease with memory impairment as well as many other diseases that may be characterized by changes in language, personality or motor function.

Mr. M. noticed at the age of 40 that some words no longer occurred to him. This particularly affected rarely used words such as “flipper” or “filler.” However, understanding language functioned in everyday professional and private life.

He also could no longer remember the names of acquaintances and colleagues. His wife noticed that he no longer listened to her properly and could not switch off from work. What was wrong with him?

In the hospital, a decrease in brain volume was detected in the temporal lobe. But what disease was Mr. M. suffering from? An Alzheimer’s dementia, but did he have problems with his memory? Yet he was still relatively young—didn’t only older people have such diseases?

The doctors found out that Mr. M. could not correctly name things shown to him, especially animals. He was unsure which characteristics were typical for certain things, e.g. whether a giraffe has fur or scales. There were also problems with memory.

Matthias Schroeter, who conducts research at the MPI CBS and works as a consultant psychiatrist at the Clinic for Cognitive Neurology at University of Leipzig Medical Center, explains, “Questions such as those posed by Mr. M., a patient in our study, are typical in everyday clinical practice. First and foremost, the question arises as to the correct diagnosis so that the therapy can be adapted to each individual patient and their specific disease.”

“However, in addition to Alzheimer’s dementia, which is the best-known neurodegenerative disease and is characterized by impairments in memory, there are very many other diseases that also require a different therapy. These so-called ‘orphan diseases,’ or rare diseases that can often occur at an early age, require specialized medical centers.”

In their study, Schroeter and his colleague Leonie Lampe used new artificial intelligence and machine learning techniques to automatically detect these diseases. The researchers used magnetic resonance imaging (MRI) to analyze the structure of the brains of patients at University of Leipzig Medical Center and from other clinical centers in Germany. They were able to show that rare forms of dementia can be detected early in this way.

In addition to patients who had Alzheimer’s disease with memory impairment, they also included many other diseases that can be characterized by a change in language, personality or motor skills.

This shows a drawing of a computer and a brain
They were able to show that rare forms of dementia can be detected early in this way. Image is in the public domain

“Compared to previous studies, we were not only able to identify diseases very well when compared to healthy individuals, but in addition we were able to identify the specific disease compared to other dementia diseases. This is a decisive step on the way to tailored therapy adapted to each individual affected person and their disease,” Matthias Schroeter summarizes.

Mr. M. was eventually diagnosed with a disease of language functions—a semantic variant of primary progressive aphasia. Intensive therapy enabled him to compensate for his problems, so that he can continue to work in his profession as a salesman eight years after the diagnosis.

“Even if the course of these diseases progresses, those affected in early stages of the disease can continue to work and manage their daily lives with support. This is why early diagnosis and individual adaptation of therapy measures are crucial,” says Matthias Schroeter.

About this AI and dementia research news

Author: Bettina Hennebach
Source: Max Planck Institute
Contact: Bettina Hennebach – Max Planck Institute
Image: The image is in the public domain

Original Research: Open access.
Multiclass prediction of different dementia syndromes based on multi-centric volumetric MRI imaging” by Leonie Lampe et al. NeuroImage: Clinical


Abstract

Multiclass prediction of different dementia syndromes based on multi-centric volumetric MRI imaging

Introduction

Dementia syndromes can be difficult to diagnose. We aimed at building a classifier for multiple dementia syndromes using magnetic resonance imaging (MRI).

Methods

Atlas-based volumetry was performed on T1-weighted MRI data of 426 patients and 51 controls from the multi-centric German Research Consortium of Frontotemporal Lobar Degeneration including patients with behavioral variant frontotemporal dementia, Alzheimer’s disease, the three subtypes of primary progressive aphasia, i.e., semantic, logopenic and nonfluent-agrammatic variant, and the atypical parkinsonian syndromes progressive supranuclear palsy and corticobasal syndrome. Support vector machine classification was used to classify each patient group against controls (binary classification) and all seven diagnostic groups against each other in a multi-syndrome classifier (multiclass classification).

Results

The binary classification models reached high prediction accuracies between 71 and 95% with a chance level of 50%. Feature importance reflected disease-specific atrophy patterns. The multi-syndrome model reached accuracies of more than three times higher than chance level but was far from 100%. Multi-syndrome model performance was not homogenous across dementia syndromes, with better performance in syndromes characterized by regionally specific atrophy patterns. Whereas diseases generally could be classified vs controls more correctly with increasing severity and duration, differentiation between diseases was optimal in disease-specific windows of severity and duration.

Discussion

Results suggest that automated methods applied to MR imaging data can support physicians in diagnosis of dementia syndromes. It is particularly relevant for orphan diseases beside frequent syndromes such as Alzheimer’s disease.

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