Advanced Biomedical Ontology: Difference between revisions

From NCOR Wiki
Jump to navigationJump to search
 
(19 intermediate revisions by the same user not shown)
Line 158: Line 158:
----
----


==October 12: Building an Ontology (WC)==
==October 12: Building an Ontology==
[http://ncor.buffalo.edu/2017/SLO.htm SLO] 7
[http://ncor.buffalo.edu/2017/SLO.htm SLO] 7


Line 217: Line 217:


==October 26 Principles for ontology change management in biomedical information systems (WC)==
==October 26 Principles for ontology change management in biomedical information systems (WC)==
[http://ncor.buffalo.edu/2017/SLO.htm SLO] 8
[http://ncor.buffalo.edu/2017/SLO.htm SLO]  
 
[https://buffalo.box.com/s/98mk9zclp45kzap96f17bujs1biz920d Slides]


[https://buffalo.box.com/s/ju5eh12uhaakv17nve5vlywadcjv8i69 Video]
[https://buffalo.box.com/s/ju5eh12uhaakv17nve5vlywadcjv8i69 Video]
Line 269: Line 271:
[http://ncor.buffalo.edu/2017/SLO.htm SLO] 4, 6, 8
[http://ncor.buffalo.edu/2017/SLO.htm SLO] 4, 6, 8


[https://buffalo.box.com/s/zbvva3cdrolurqtkybuzv12rs72pvs9y Slides 1]
Barry Smith: The Evaluation of Ontologies
 
[https://buffalo.box.com/s/zbvva3cdrolurqtkybuzv12rs72pvs9y Slides 1]
 
[https://buffalo.box.com/s/6ojm7gm7n1o58zjqf0gsa7uo6pq6qqb7 Video 1]
[https://buffalo.box.com/s/6ojm7gm7n1o58zjqf0gsa7uo6pq6qqb7 Video 1]
Werner Ceusters: Evolutionary Quality Assessment of Ontologies
[http://www.referent-tracking.com/RTU/files/BMI708-20171026-Class12-OntologyEvaluation.pptx Slides 2]
[https://buffalo.box.com/s/h96gjcsyu9ahwmb3phpaazz4of77v7y5 Video 2]
[https://buffalo.box.com/s/h96gjcsyu9ahwmb3phpaazz4of77v7y5 Video 2]


Line 283: Line 293:
[http://ncor.buffalo.edu/2017/SLO.htm SLO] 6, 7
[http://ncor.buffalo.edu/2017/SLO.htm SLO] 6, 7


4:05p.m. Jonathan Blaisure: Ontological Study of Temporal Entities and Temporal Relations in Common Data Models
4:05p.m. Jonathan Blaisure: Ontological Study of Temporal Entities and Temporal Relations in Common Data Models [https://buffalo.box.com/s/sb4l09m44x7kv4vnk787p13kscjuw86w Slides]


4:30p.m. Alexander Cox: OGMS 2.0 – A Proposed Improvement and Extension of the Ontology for General Medical Science
4:30p.m. Sheryl Davies: Reliability, Signal, Population and Purpose [https://buffalo.box.com/s/t985zficevgmi4dyip5fiaz5ihca10wy Slides]


4:55p.m. Sheryl Davies: Reliability, Signal, Population and Purpose
5:00p.m. Sarah Mullin: Ontology-Based Classifier for Diseases


5:20p.m. Break
5:30pm Break


5:25p.m. Sarah Mullin: Ontology-Based Classifier for Diseases
5:35 Manoj Mammen: Adverse Events and Compound Interactions


5:50p.m. Mark Jensen: Linking Mental Disorders to Research Domain Criteria Constructs via OGMS and the Mental Disease Ontology
6:05 Alexander Cox: Diagnosing Alzheimer's Disease [https://buffalo.box.com/s/cc8orrafaijry0zjgdywwp1xxwh8xatu Slides]


6:15p.m. Manoj Mammen: Adverse Events and Compound Interactions
----
----


Line 301: Line 310:
[http://ncor.buffalo.edu/2017/SLO.htm SLO] 1, 4
[http://ncor.buffalo.edu/2017/SLO.htm SLO] 1, 4


4:05pm Matt Hudson: Ontology for the Computational Analysis of Novel Drug Opportunities
4:05pm Matt Hudson: Ontology for the Computational Analysis of Novel Drug Opportunities [https://buffalo.box.com/s/8w8him0x49encw2spdhot6r7q3itqvdq Slides]


4:30pm Jim Schuler: Diabetes Ontology
4:30pm Jim Schuler: Diabetes Ontology [https://buffalo.box.com/s/4z675tvseu3g3uqwanl1klcr3imibsh2 Slides]


4:55pm Shyamashree Sinha: Evaluating the Ontology of Epidemics
5:00pm Shyamashree Sinha: Evaluating the Ontology of Epidemics [https://buffalo.box.com/s/8w8him0x49encw2spdhot6r7q3itqvdq Slides]


5:20pm Break
5:25pm Break


5:25pm Luc Serra: Cancer Cell Ontology
5:30pm Luc Serra: Cancer Cell Ontology [https://buffalo.box.com/s/dwlfb4pi5v7xsthvcrkzz2w2j48pkokp Slides]


5:50pm Jane Zhao: Ontology of Trauma Surgery
5:55pm Jane Zhao: Ontology of Trauma Surgery [https://buffalo.box.com/s/rvk9jza7qqsbn0k0o26k9r3t04hnkz72 Slides]

Latest revision as of 16:04, 11 December 2017

Background Information

Department of Biomedical Informatics and Department of Philosophy

Type of Instruction: Seminar
BMI 708 SEM, PHI 637 SEM
Semester: Fall 2017

• Thursday: 4pm to 6:50pm

• Number of Credits: 3

• Course prerequisites: BMI508 / PHI548 Biomedical Ontology or PHI549 Applied Ontology (can be waived if the student has enrolled in a suitable mentored research tutorial (BMI510 / PHI599) with Ceusters or Smith).

• Instructors

Biomedical Informatics: Werner Ceusters, MD. Contact: 77 Goodell Street, 5th floor, by

appointment only through wceusters@gmail.com

Philosophy: Barry Smith, PhD. Contact: 126 Park Hall, N Campus, by appointment only through

phismith@buffalo.edu

Course Description

The course begins with a review of the theories underlying biomedical knowledge representation and ontology. The methods and tools for applied ontology as well as the management and maintenance of biomedical ontologies will be discussed in detail, including the principles of ontological realism and the implementation thereof in the Basic Formal Ontology (BFO). Students will gain experience with the Web Ontology Language (OWL) and the limitations thereof, and with utilities to query ontologies expressed in OWL. The course will also provide an in-depth review of current research underlying the development of biomedical ontologies as well as a comparative critical analysis of the major current biomedical ontologies and of the methods and tools used in their application, development and evaluation.

Course Organization

The course begins with a review of the biomedical/clinical research and information dissemination system that results in the generation of new knowledge and its dissemination into clinical health care practice. This review will also include the current systems and techniques that have been used to model, represent and maintain our biomedical data, information and knowledge for use by clinicians and researchers. The remainder of the course will provide an in-depth review of current theories, methods and tools for the development of ontologies for the organization and management of biomedical data, information and knowledge as well as a critical comparative analysis of the major current biomedical ontologies used in health care and biomedical research settings.

Term paper deadlines

The course concludes with a series of presentations by class participants of their term papers, which should be on a topic in biomedical ontology related to the subject-matter of their PhD research. Relevant deadlines are as follows:

September 7: Selection of term paper topic
October 12: Submission of 300-400 word abstract.
November 9: Submission of draft of term paper.
November 16: Submission of draft of powerpoint presentation.

August 31: Systems and techniques for representing biomedical data, information and knowledge using ontologies (WC)

SLO (Student Learning Outcomes) 4, 5

Slides

Video

Advance reading

Yu, A.C., "in Biomedical Ontology", Journal of Biomedical Informatics 39 (2006) 252–266.
Robert Hoehndorf, Paul N. Schofield and Georgios V. Gkoutos, "The role of ontologies in biological and biomedical research: a functional perspective", Briefings in Bioinformatics, 2015, 1–12

September 5 (Optional extra session): Core Competency Lectures (WC)

5:00-6:30pm: How to use ontology to analyze a domain. Slides

6:30-8:00pm: Structure of Research Data Files (How to do it Right and Wrong) Slides


September 7: Best practice principles for building ontologies. Introduction to Basic Formal Ontology (BFO) (BS)

SLO 1

Slides

Video

Principles for building ontologies
Principles for defining ontology terms
Introduction to BFO (Part 1)
Discussion of a proposal to define 'capability' within the BFO framework
Video on functions, dispositions and capabilities
Today is the deadline for selection of the topic of your term paper.

Advance reading

Barry Smith and Werner Ceusters, “Ontological Realism as a Methodology for Coordinated Evolution of Scientific Ontologies”, Applied Ontology, 5 (2010), 139–188.
Arp R, Smith B, Spear AD. Building Ontologies with Basic Formal Ontology. MIT Press, 2015, chapters 3-4.

September 14: Information Artifact Ontology (IAO) and Ontology for General Medical Science (OGMS) (BS)

SLO 2

Slides

Video

Introduction to BFO (Part 2)
Introduction to IAO
Introduction to OGMS

Advance reading

Arp R, Smith B, Spear AD. Building Ontologies with Basic Formal Ontology. MIT Press, 2015, chapters 5-6.
Aboutness: W. Ceusters, B. Smith, "Towards Foundations for the Information Artifact Ontology"
Scheuermann RH, Ceusters W, Smith B. "Toward an ontological treatment of disease and diagnosis," Summit Transl Bioinform, 2009 Mar 1;2009:116-20.

September 21: Protégé Quickstart for Users of BFO (Neil Otte)

SLO 7

Slides

Video

Class Exercise

Class Exercise (OWL)

Advance preparation

Before class, please download the Protégé Ontology Editor and install it locally on your laptop. Bring your laptop to class with you.

Advance reading

Protégé User Guide

After-class exercise

Implement in Protégé terms and definitions from Scheuermann et al. (Due date: September 26.)

September 28: The OBO Foundry (BS)

SLO 3

Slides

This session will include a review of the after-class exercises submitted on September 26.

Advance reading Barry Smith, et al., “The OBO Foundry: Coordinated Evolution of Ontologies to Support Biomedical Data Integration”, Nature Biotechnology, 25 (11), November 2007, 1251-1255. PMC2814061


October 3 (Optional extra session): Core Competency Lectures

Venue: CTRC 5019A&B
5:00pm: How to Write Grants (BS) Slides
6:30pm: How to Get published (BS) Slides

October 5: Using referent tracking for building ontologies (WC)

SLO 1, 2, 4, 6

Slides

Video

Advance reading

Arp R, Smith B, Spear AD. Building Ontologies with Basic Formal Ontology. MIT Press, 2015, chapter 7.
Hogan WR and Ceusters W. Diagnosis, misdiagnosis, lucky guess, hearsay, and more: an ontological analysis. Journal of Biomedical Semantics 2016;7(54).

After-class exercise

Read Alert fatigue and propose terms and definitions which need to be added to OGMS to create an ontology to address alert fatigue in EHRs. Due date: October 11

October 12: Building an Ontology

SLO 7

Team exercise

Class participants will be divided into groups. The task for each group will be
1. to identify some area in which ontology methods can be of value in understanding issues related to patient well-being, along the lines illustrated in the advance readings by Ceusters et al., and Souvignet et al. listed below.
2. to propose terms and definitions which need to be added to OGMS to create a corresponding ontology.
3. to make the results available electronically by the end of class.

Today is the deadline for submission of 300-400 word abstracts of your term paper. These abstracts will be critically reviewed in the meeting on October 19.

Advance readings

Ceusters W, Capolupo M, De Moor G, Devlies J, Smith B. "An Evolutionary Approach to Realism-Based Adverse Event Representations," Methods of Information in Medicine, 2011;50(1):62-73.
Souvignet J, Rodrigues JM. "Toward a patient safety upper level ontology," Stud Health Technol Inform. 2015;210:160-4.

October 17 (Optional extra session): Core Competency Lecture

Venue: CTRC 5019A&B
5:00-6:30pm: Data Ethics and Responsible Data Sharing (BS) Slides

October 19: Review of term-paper abstracts (WC, BS)

SLO 3, 7

4pm Students present their abstracts, max 4 minutes each, to be timed.

4:45pm Each group discusses the abstracts of all students NOT in their group. One rapporteur should be selected for each abstract to present conclusions highlighting 1) strengths, 2) weaknesses, 3) threats to successful completion. Presentations should be use roughly 3 powerpoint slides.

5:30pm Each abstract should be reported on by the corresponding rapporteur from the other group. Max 5 minutes per abstract.

Group 1:

Blaisure: Ontological Study of Temporal Entities and Temporal Relations in Common Data Models

Cox: OGMS 2.0 – A Proposed Improvement and Extension ofthe Ontology for General Medical Science

Davies: Ontology for National Quality Forum Evaluation Forms

Jensen: Linking Mental Disorders to Research Domain Criteria Constructs via OGMS and the Mental Disease Ontology

Mammen: Adverse Events and Compound Interactions

Group 2:

Hudson: Ontology for the Computational Analysis of Novel Drug Opportunities

Mullin: Ontology-Based Classifier for Diseases

Schuler: Diabetes Ontology

Shyamashree Sinha: Evaluating the Ontology of Epidemics

Serra: Cancer Cell Ontology

Zhao: Ontology of Trauma Surgery


October 26 Principles for ontology change management in biomedical information systems (WC)

SLO

Slides

Video

Advance readings

Ceusters W. "Applying Evolutionary Terminology Auditing to the Gene Ontology", Journal of Biomedical Informatics 2009;42:518–529.
Ceusters W. "SNOMED CT Revisions and Coded Data Repositories: When to Upgrade?" American Medical Informatics Association 2011 Annual Symposium Proceedings, Washington DC, October 22-26, 2011:197-206

After-class exercise

Correct and improve the results of the exercises described under Sep. 21, Oct. 5 and Oct. 12 above, adhering to the principles of change management outlined on Oct. 26, and taking into account the representation here.

November 2 Ontological principles for combining healthcare data in big data repositories (WC,BS)

SLO 4, 5, 7

Slides1

Slides2

Video

Advance readings:

Gliklich RE, et al. "Interfacing Registries With Electronic Health Records", ch. 15 of Registries for Evaluating Patient Outcomes: A User's Guide, Rockville, MD: Agency for Healthcare Research and Quality, 2014.
Ceusters W, Hsu CY, Smith B. "Clinical Data Wrangling using Ontological Realism and Referent Tracking", International Conference on Biomedical Ontologies (ICBO 2014), CEUR Workshop Proceedings 2014;1237:27-32.

Assess the extent to which the ontology resulting from the post-lecture assignment from Oct. 12 can be used to facilitate combining healthcare data in big data repositories.


November 9 Team exercise: use OGMS to improve biomedical informatics resources (WC, BS)

SLO 3, 7

Advance reading: OMOP

J. Blaisure and W. Ceusters, Improving Common Data Models ‘Fitness for Purpose’ by the Application of Realism Based Ontology
Observational Medical Outcomes Partnership (OMOP) Common Data Model (CDM)

Advance Reading: RDoC

W. Ceusters, M. Jensen and A. D. Diehl, Ontological Realism for the Research Domain Criteria for Mental Disorders
M. Jensen and A. D. Diehl, Integrating an ontology for RDOC with existing biomedical ontologies
Research Domain Criteria (RDoC)

Today is the deadline for submission of the draft of your term paper.


November 16 Evaluation of ontologies (WC, BS)

SLO 4, 6, 8

Barry Smith: The Evaluation of Ontologies

Slides 1

Video 1

Werner Ceusters: Evolutionary Quality Assessment of Ontologies

Slides 2

Video 2

Advance reading

Barry Smith, “Ontology (Science)”, in C. Eschenbach and M. Grüninger (eds.), Formal Ontology in Information Systems. Proceedings of the Fifth International Conference (FOIS 2008), Amsterdam: IOS Press, 21-35.
Obrst L, Ceusters W, Mani I, Ray S, Smith B. "The Evaluation of Ontologies: toward Improved Semantic Interoperability," in: Baker, Christopher J.O.; Cheung, Kei-Hoi (Eds.) Semantic Web: Revolutionizing Knowledge Discovery in the Life Sciences. Springer, Heidelberg, 2007;:139-58.

FALL RECESS


November 30 Student presentations 1

SLO 6, 7

4:05p.m. Jonathan Blaisure: Ontological Study of Temporal Entities and Temporal Relations in Common Data Models Slides

4:30p.m. Sheryl Davies: Reliability, Signal, Population and Purpose Slides

5:00p.m. Sarah Mullin: Ontology-Based Classifier for Diseases

5:30pm Break

5:35 Manoj Mammen: Adverse Events and Compound Interactions

6:05 Alexander Cox: Diagnosing Alzheimer's Disease Slides


December 7 Student presentations 2

SLO 1, 4

4:05pm Matt Hudson: Ontology for the Computational Analysis of Novel Drug Opportunities Slides

4:30pm Jim Schuler: Diabetes Ontology Slides

5:00pm Shyamashree Sinha: Evaluating the Ontology of Epidemics Slides

5:25pm Break

5:30pm Luc Serra: Cancer Cell Ontology Slides

5:55pm Jane Zhao: Ontology of Trauma Surgery Slides