Patterns of Risk-Using Machine Learning and Structural Neuroimaging to Identify Pedophilic Offenders

Overview

Journal Front Psychiatry

Specialty Psychiatry

Date 2023 May 8

PMID 37151966

Authors

David Popovic

Maximilian Wertz

Carolin Geisler

Joern Kaufmann

Markku Lahteenvuo

Johannes Lieslehto

Joachim Witzel

Bernhard Bogerts

Martin Walter

Peter Falkai

Nikolaos Koutsouleris

Kolja Schiltz

Affiliations

Soon will be listed here.

Abstract

Background: Child sexual abuse (CSA) has become a focal point for lawmakers, law enforcement, and mental health professionals. With high prevalence rates around the world and far-reaching, often chronic, individual, and societal implications, CSA and its leading risk factor, pedophilia, have been well investigated. This has led to a wide range of clinical tools and actuarial instruments for diagnosis and risk assessment regarding CSA. However, the neurobiological underpinnings of pedosexual behavior, specifically regarding hands-on pedophilic offenders (PO), remain elusive. Such biomarkers for PO individuals could potentially improve the early detection of high-risk PO individuals and enhance efforts to prevent future CSA.

Aim: To use machine learning and MRI data to identify PO individuals.

Methods: From a single-center male cohort of 14 PO individuals and 15 matched healthy control (HC) individuals, we acquired diffusion tensor imaging data (anisotropy, diffusivity, and fiber tracking) in literature-based regions of interest (prefrontal cortex, anterior cingulate cortex, amygdala, and corpus callosum). We trained a linear support vector machine to discriminate between PO and HC individuals using these WM microstructure data. , we investigated the PO model decision scores with respect to sociodemographic (age, education, and IQ) and forensic characteristics (psychopathy, sexual deviance, and future risk of sexual violence) in the PO subpopulation. We assessed model specificity in an external cohort of 53 HC individuals.

Results: The classifier discriminated PO from HC individuals with a balanced accuracy of 75.5% (sensitivity = 64.3%, specificity = 86.7%, = 0.018) and an out-of-sample specificity to correctly identify HC individuals of 94.3%. The predictive brain pattern contained bilateral fractional anisotropy in the anterior cingulate cortex, diffusivity in the left amygdala, and structural prefrontal cortex-amygdala connectivity in both hemispheres. This brain pattern was associated with the number of previous child victims, the current stance on sexuality, and the professionally assessed risk of future sexual violent reoffending.

Conclusion: Aberrant white matter microstructure in the prefronto-temporo-limbic circuit could be a potential neurobiological correlate for PO individuals at high-risk of reoffending with CSA. Although preliminary and exploratory at this point, our findings highlight the general potential of MRI-based biomarkers and particularly WM microstructure patterns for future CSA risk assessment and preventive efforts.

Citing Articles

Neuroanatomical and Neurocognitive Differences Between the Executive Functions in Child Sexual Offenders: A Systematic Review.

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The Future of Artificial Intelligence in Mental Health Nursing Practice: An Integrative Review.

Milasan L, Scott-Purdy D Int J Ment Health Nurs. 2025; 34(1):e70003.

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