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Related Concept Videos

The Respiratory System01:16

The Respiratory System

The respiratory system is comprised of the organs that enable breathing. Air enters the nostrils and mouth, followed by the pharynx (throat) and larynx (voice box), which lead to the trachea (windpipe). In the thoracic cavity, the trachea splits into two bronchi that allow air to enter the lungs. The bronchi split into progressively smaller bronchioles and terminate in small groups of tiny sacs in the lungs called alveoli, where gas exchange occurs.
Common Respiratory Disorders01:31

Common Respiratory Disorders

Respiratory disorders, a prevalent health concern globally, are generally divided into two primary categories: upper and lower respiratory tract disorders. The categorization is based on the area of the respiratory system they affect.
Upper respiratory disorders impact the airways above the vocal cords, encompassing areas like the nose, sinuses, and throat. Various conditions fall under this category, including the common cold and allergic rhinitis. These disorders can stem from several causes,...
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Respiratory Syncytial Virus Disease

Human respiratory syncytial virus (RSV) is a widespread pathogen that primarily targets infants and young children but also poses a serious health risk to elderly and immunocompromised individuals. Belonging to the Pneumoviridae family, RSV is a negative-sense, single-stranded RNA virus within the Pneumovirus genus. Its global health burden is significant, with millions of cases annually resulting in hospitalizations and mortality, particularly in resource-limited settings. Although most...

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A Metadata Extraction Approach for Clinical Case Reports to Enable Advanced Understanding of Biomedical Concepts
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Natural Language Processing for Clinical Laboratory Data Repository Systems: Implementation and Evaluation for

Elham Dolatabadi1,2,3, Branson Chen4, Sarah A Buchan3,4,5,6

  • 1Vector Institute, Toronto, ON, Canada.

JMIR AI
|June 14, 2024
PubMed
Summary
This summary is machine-generated.

A novel deep learning natural language processing (NLP) model efficiently extracts data from laboratory reports. This approach offers a scalable alternative to manual data extraction for improved secondary data use.

Keywords:
EHRelectronic health recordhealthinformaticsknowledge extractionnatural language processing

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Area of Science:

  • Medical Informatics
  • Computational Biology
  • Artificial Intelligence

Background:

  • Laboratory data repositories are growing in volume and complexity, making manual data extraction for secondary uses challenging.
  • Natural Language Processing (NLP) offers automated solutions for extracting clinically meaningful information from unstructured text.

Purpose of the Study:

  • To evaluate a deep learning-based NLP model as an alternative to resource-intensive rule-based systems for information extraction.
  • To develop and assess an NLP model for extracting knowledge from text-based laboratory reports.

Main Methods:

  • A hierarchical multilabel classifier NLP model was trained on 87,500 laboratory reports for 14 respiratory viruses.
  • The model was trained to classify reports into 24 fine-grained and 6 coarse-grained labels.
  • Performance was evaluated for stability, variation, and generalizability across internal and external test sets.

Main Results:

  • The NLP model achieved microaveraged F1-scores >94% across all classes on internal, historical, and external test sets.
  • Higher precision and recall were observed on internal and historical data, with performance variations due to data imbalance.
  • The model's performance was lower for virus detection cases (lowest F1-score of 57%) compared to testing cases.

Conclusions:

  • Deep learning NLP models show significant promise for extracting information from laboratory reports.
  • These models provide scalable, timely, and practical access to high-quality encoded laboratory data.
  • Integration into laboratory information systems can enhance data accessibility and utility.