Literature DB >> 16779082

Automating tissue bank annotation from pathology reports - comparison to a gold standard expert annotation set.

Kaihong Liu1, Kevin J Mitchell, Wendy W Chapman, Rebecca S Crowley.   

Abstract

Surgical pathology specimens are an important resource for medical research, particularly for cancer research. Although research studies would benefit from information derived from the surgical pathology reports, access to this information is limited by use of unstructured free-text in the reports. We have previously described a pipeline-based system for automated annotation of surgical pathology reports with UMLS concepts, which has been used to code over 450,000 surgical pathology reports at our institution. In addition to coding UMLS terms, it annotates values of several key variables, such as TNM stage and cancer grade. The object of this study was to evaluate the potential and limitations of automated extraction of these variables, by measuring the performance of the system against a true gold standard - manually encoded data entered by expert tissue annotators. We categorized and analyzed errors to determine the potential and limitations of information extraction from pathology reports for the purpose of automated biospecimen annotation.

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Mesh:

Year:  2005        PMID: 16779082      PMCID: PMC1560700     

Source DB:  PubMed          Journal:  AMIA Annu Symp Proc        ISSN: 1559-4076


  6 in total

1.  MEDSYNDIKATE--a natural language system for the extraction of medical information from findings reports.

Authors:  Udo Hahn; Martin Romacker; Stefan Schulz
Journal:  Int J Med Inform       Date:  2002-12-04       Impact factor: 4.046

2.  A simple algorithm for identifying negated findings and diseases in discharge summaries.

Authors:  W W Chapman; W Bridewell; P Hanbury; G F Cooper; B G Buchanan
Journal:  J Biomed Inform       Date:  2001-10       Impact factor: 6.317

3.  Implementation and evaluation of a negation tagger in a pipeline-based system for information extract from pathology reports.

Authors:  Kevin J Mitchell; Michael J Becich; Jules J Berman; Wendy W Chapman; John Gilbertson; Dilip Gupta; James Harrison; Elizabeth Legowski; Rebecca S Crowley
Journal:  Stud Health Technol Inform       Date:  2004

4.  A submission model for use in the indexing, searching, and retrieval of distributed pathology case and tissue specimens.

Authors:  Ahmad H Namini; David A Berkowicz; Isaac S Kohane; Henry Chueh
Journal:  Stud Health Technol Inform       Date:  2004

5.  Automatic indexing of pathology data.

Authors:  G S Dunham; M G Pacak; A W Pratt
Journal:  J Am Soc Inf Sci       Date:  1978-03

6.  A general natural-language text processor for clinical radiology.

Authors:  C Friedman; P O Alderson; J H Austin; J J Cimino; S B Johnson
Journal:  J Am Med Inform Assoc       Date:  1994 Mar-Apr       Impact factor: 4.497
  6 in total
  10 in total

1.  caTIES: a grid based system for coding and retrieval of surgical pathology reports and tissue specimens in support of translational research.

Authors:  Rebecca S Crowley; Melissa Castine; Kevin Mitchell; Girish Chavan; Tara McSherry; Michael Feldman
Journal:  J Am Med Inform Assoc       Date:  2010 May-Jun       Impact factor: 4.497

2.  Using a statistical natural language Parser augmented with the UMLS specialist lexicon to assign SNOMED CT codes to anatomic sites and pathologic diagnoses in full text pathology reports.

Authors:  Henry J Lowe; Yang Huang; Donald P Regula
Journal:  AMIA Annu Symp Proc       Date:  2009-11-14

3.  Biomedical ontologies in action: role in knowledge management, data integration and decision support.

Authors:  O Bodenreider
Journal:  Yearb Med Inform       Date:  2008

4.  A comparative study of current Clinical Natural Language Processing systems on handling abbreviations in discharge summaries.

Authors:  Yonghui Wu; Joshua C Denny; S Trent Rosenbloom; Randolph A Miller; Dario A Giuse; Hua Xu
Journal:  AMIA Annu Symp Proc       Date:  2012-11-03

5.  Thyroid Ultrasound Reports: Will the Thyroid Imaging, Reporting, and Data System Improve Natural Language Processing Capture of Critical Thyroid Nodule Features?

Authors:  Kallie J Chen; Priya H Dedhia; Joseph R Imbus; David F Schneider
Journal:  J Surg Res       Date:  2020-08-13       Impact factor: 2.192

6.  Classification of cervical biopsy free-text diagnoses through linear-classifier based natural language processing.

Authors:  Jim Wei-Chun Hsu; Paul Christensen; Yimin Ge; S Wesley Long
Journal:  J Pathol Inform       Date:  2022-07-01

Review 7.  What can natural language processing do for clinical decision support?

Authors:  Dina Demner-Fushman; Wendy W Chapman; Clement J McDonald
Journal:  J Biomed Inform       Date:  2009-08-13       Impact factor: 6.317

8.  The feasibility of using natural language processing to extract clinical information from breast pathology reports.

Authors:  Julliette M Buckley; Suzanne B Coopey; John Sharko; Fernanda Polubriaginof; Brian Drohan; Ahmet K Belli; Elizabeth M H Kim; Judy E Garber; Barbara L Smith; Michele A Gadd; Michelle C Specht; Constance A Roche; Thomas M Gudewicz; Kevin S Hughes
Journal:  J Pathol Inform       Date:  2012-06-30

9.  FasTag: Automatic text classification of unstructured medical narratives.

Authors:  Guhan Ram Venkataraman; Arturo Lopez Pineda; Oliver J Bear Don't Walk Iv; Ashley M Zehnder; Sandeep Ayyar; Rodney L Page; Carlos D Bustamante; Manuel A Rivas
Journal:  PLoS One       Date:  2020-06-22       Impact factor: 3.240

10.  Facilitating accurate health provider directories using natural language processing.

Authors:  Matthew J Cook; Lixia Yao; Xiaoyan Wang
Journal:  BMC Med Inform Decis Mak       Date:  2019-04-04       Impact factor: 2.796
  10 in total

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