Embedding Transfer for Low-Resource Medical Named Entity Recognition: A Case Study on Patient Mobility

Denis Newman-Griffis, Ayah Zirikly


Abstract
Functioning is gaining recognition as an important indicator of global health, but remains under-studied in medical natural language processing research. We present the first analysis of automatically extracting descriptions of patient mobility, using a recently-developed dataset of free text electronic health records. We frame the task as a named entity recognition (NER) problem, and investigate the applicability of NER techniques to mobility extraction. As text corpora focused on patient functioning are scarce, we explore domain adaptation of word embeddings for use in a recurrent neural network NER system. We find that embeddings trained on a small in-domain corpus perform nearly as well as those learned from large out-of-domain corpora, and that domain adaptation techniques yield additional improvements in both precision and recall. Our analysis identifies several significant challenges in extracting descriptions of patient mobility, including the length and complexity of annotated entities and high linguistic variability in mobility descriptions.
Anthology ID:
W18-2301
Volume:
Proceedings of the BioNLP 2018 workshop
Month:
July
Year:
2018
Address:
Melbourne, Australia
Venue:
BioNLP
SIG:
Publisher:
Association for Computational Linguistics
Note:
Pages:
1–11
Language:
URL:
https://aclanthology.org/W18-2301
DOI:
10.18653/v1/W18-2301
Bibkey:
Cite (ACL):
Denis Newman-Griffis and Ayah Zirikly. 2018. Embedding Transfer for Low-Resource Medical Named Entity Recognition: A Case Study on Patient Mobility. In Proceedings of the BioNLP 2018 workshop, pages 1–11, Melbourne, Australia. Association for Computational Linguistics.
Cite (Informal):
Embedding Transfer for Low-Resource Medical Named Entity Recognition: A Case Study on Patient Mobility (Newman-Griffis & Zirikly, BioNLP 2018)
Copy Citation:
PDF:
https://preview.aclanthology.org/emnlp-22-attachments/W18-2301.pdf
Code
 drgriffis/NeuralVecmap
Data
MIMIC-III