New Brain Scan Brings Accuracy for ADHD in Children

A new brain scan displayed reduced thickness of certain brain areas, crucial for cognitive features in attention deficit kids.

Around 5% of children worldwide is affected with hyperactivity, inattention, and impulsive behavior. This restricts their social lives ().

A recent brain imaging technology, 'Traveling-subject' (TS) method along with magnetic brain scan (Magnetic Resonance Imaging - MRI) showed improved accuracy in ADHD (Attention Deficit/Hyperactivity Disorder) imaging data.

This ground breaking technique is essential for developing early diagnosis and individualized treatments for ADHD children.

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Attention Deficit Hyperactivity Disorder (ADHD) is a neurobiological disorder that affects normal behavior and impairs the ability to concentrate.

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Inconsistencies in ComBat Harmonization Technique

Although multiple studies have used MRI to understand ADHD in children, the results have been inconclusive. While some brain imaging studies have shown decreased gray matter volume (GMV) in children with ADHD, others have either reported no change or an increase in GMV compared to subjects without ADHD.

These conflicting results are mostly due to small sample sizes, differences in MRI machines used, or the variation among the subjects recruited. Previous studies have accounted for the bias caused by different MRI machines using a method called ComBat harmonization, which controls for site and MRI differences in large samples. However, ComBat overcorrects sampling bias, which may include biological characteristics of the sample; therefore, it may not be able to accurately correct the MRI differences.

The traveling-subject (TS) method is a new correction approach to account for variations in measurements across MRI machines for the same subject. In this method, measurement biases can be controlled for the same participants using MRI scans from multiple institutions, facilitating the collection of more accurate datasets.

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Traveling-Subject Method Provides Non-Biased Results

In this collaborative study, Assistant Professor Qiulu Shou and Associate Professor Yoshifumi Mizuno from the University of Fukui, Japan, Professor Yoshiyuki Hirano from Chiba University, Japan, and Professor Kuriko Kagitani-Shimono at The University of Osaka, Japan, validated the TS method in an independent dataset. Their findings were published in Molecular Psychiatry.

Dr. Shou introduces the methodological framework of the study: “MRI data of 14 TS, 178 typically developing (TD) children, and 116 children with ADHD were collected from multiple sites, and the TS method and ComBat were used to correct for measurement bias.”

Fourteen healthy subjects underwent MRI scans on four different machines over a three-month period to extract measurement biases across these machines. This was then applied to an independent dataset of children from the Child Developmental MRI (CDM) database.

The CDM database was jointly established by the University of Fukui, The University of Osaka, and Chiba University, with the goal of collecting brain imaging data from over 1,000 child participants for research on neurodevelopmental disorders such as ADHD. GMV was then estimated and compared between the two groups of children in the study.

The research team calculated measurement and sampling biases among TS-corrected, ComBat-corrected, and raw data. The results showed that compared to raw data, the TS method significantly reduced measurement bias while maintaining sampling bias.

In contrast, ComBat effectively reduced measurement bias and significantly decreased sampling bias.

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Reorganizing Neurodevelopmental Research

“TS-corrected data showed decreased brain volumes in the frontotemporal regions in the ADHD group compared to the TD group,” explains Dr. Mizuno while discussing their findings. “Patients with ADHD displayed smaller volumes in those regions of the brain that are crucial for cognitive functions, such as information processing and emotional control, which are often affected in these patients,” adds Dr. Shou.

Furthermore, if TS-harmonized multi-site MRI data on specific brain structure patterns can be associated with ADHD, they can then be used as neuroimaging biomarkers for accurate and early ADHD diagnosis, treatment, and treatment outcome monitoring, leading to effective personalized therapeutic strategies.

“By applying the TS harmonization method to correct for site-related biases in multi-site MRI data, this study aims to identify brain structure characteristics in children with ADHD. These identified characteristics could facilitate earlier diagnosis and more precise, individualized interventions. In the long term, this approach may improve the quality of life for affected children and reduce the risk of secondary psychiatric disorders,” concludes Dr. Shou.

Reference:

Brain structure characteristics in children with attention-deficit/hyperactivity disorder elucidated using traveling-subject harmonization - (https://www.nature.com/articles/s41380-025-03142-6)

Source-Eurekalert