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Dementia-related volumetric assessments in neuroradiology reports: a natural language processing-based study.

Authors

Mayers AJ,Roberts A,Venkataraman AV,Booth C,Stewart R

Affiliations (4)

  • King's College London, Institute of Psychiatry Psychology & Neuroscience, London, UK [email protected].
  • Guy's and St Thomas' NHS Foundation Trust, London, UK.
  • King's College London, Institute of Psychiatry Psychology & Neuroscience, London, UK.
  • South London and Maudsley NHS Foundation Trust, London, UK.

Abstract

Structural MRI of the brain is routinely performed on patients referred to memory clinics; however, resulting radiology reports, including volumetric assessments, are conventionally stored as unstructured free text. We sought to use natural language processing (NLP) to extract text relating to intracranial volumetric assessment from brain MRI text reports to enhance routine data availability for research purposes. Electronic records from a large mental healthcare provider serving a geographic catchment of 1.3 million residents in four boroughs of south London, UK. A corpus of 4007 de-identified brain MRI reports from patients referred to memory assessment services. An NLP algorithm was developed, using a span categorisation approach, to extract six binary (presence/absence) categories from the text reports: (i) global volume loss, (ii) hippocampal/medial temporal lobe volume loss and (iii) other lobar/regional volume loss. Distributions of these categories were evaluated. The overall F1 score for the six categories was 0.89 (precision 0.92, recall 0.86), with the following precision/recall for each category: presence of global volume loss 0.95/0.95, absence of global volume loss 0.94/0.77, presence of regional volume loss 0.80/0.58, absence of regional volume loss 0.91/0.93, presence of hippocampal volume loss 0.90/0.88, and absence of hippocampal volume loss 0.94/0.92. These results support the feasibility and accuracy of using NLP techniques to extract volumetric assessments from radiology reports, and the potential for automated generation of novel meta-data from dementia assessments in electronic health records.

Topics

Natural Language ProcessingDementiaMagnetic Resonance ImagingBrainNeuroimagingJournal Article

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