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1 The Unbearable Lightness of Biomedical Informatics Barry Smith Saarbrücken/Buffalo http://ontologist.com
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2 if Medical WordNet* is the solution what is the problem? *Coling Proceedings, Vol. 1, pp. 371-380
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4 Cerebellar tumor
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5 DNA Protein Organelle Cell Tissue Organ Organism 10 -5 m 10 -1 m 10 -9 m
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6 The quantity-quality divide 30,000 genes in human 200,000 proteins 100s of cell types 100,000s of disease types 1,000,000s of biochemical pathways (including disease pathways) … legacy of Human Genome Project … and of attempts to institute the electronic health record
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7 DNA Protein Organelle Cell Tissue Organ Organism 10 -5 m 10 -1 m 10 -9 m
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8 FUNCTIONAL GENOMICS proteomics, reactomics, metabonomics, toxicopharmacogenomics phenomics, behaviouromics, …
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9 DNA Protein Organelle Cell Tissue Organ Organism 10 -5 m 10 -1 m 10 -9 m The method of annotations
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10 DNA Protein Organelle Cell Tissue Organ Organism 10 -5 m 10 -1 m 10 -9 m The method of indexing
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11 The Gene Ontology menopause sensitivity to blue light heptolysis
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13 How overcome incompatibilities between different scientific index terms? immunology genetics cell biology
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14 One answer (statistical) computational linguistics Pattern recognition based on string searches
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15 String searches need constraints we can’t leave it to luck to overcome terminological incompatibilities
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16 Remember –different disciplines are using different terminologies to refer to the same objects, processes, features in reality immunology genetics cell biology
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17 An alternative answer: “Ontology”
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18 Ontology, roughly: Overcome terminological incompatibilities by creating a standardized framework into which diverse vocabularies can be mapped
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19 Kinds of Ontologies Terms General Logic Thesauri formal Taxonomies Frames (OKBC) Data Models (UML, STEP) Description Logics (DAML+OIL) Principled, informal hierarchies ad hoc Hierarchies (Yahoo!) structured Glossaries XML DTDs Data Dictionaries (EDI) ‘ordinary’ Glossaries XML Schema DB Schema Glossaries & Data Dictionaries MetaData, XML Schemas, & Data Models Formal Ontologies & Inference Thesauri, Taxonomies Michael Gruninger
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20 Kinds of Ontologies A shared vocabulary plus a specification of its intended meaning meaning specified explicitly in a logically rigorous way Two extremes
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21 Kinds of Ontologies Terms General Logic Thesauri formal Taxonomies Frames (OKBC) Data Models (UML, STEP) Description Logics (DAML+OIL) Principled, informal hierarchies ad hoc Hierarchies (Yahoo!) structured Glossaries XML DTDs Data Dictionaries (EDI) ‘ordinary’ Glossaries XML Schema DB Schema Glossaries & Data Dictionaries MetaData, XML Schemas, & Data Models Formal Ontologies & Inference Thesauri, Taxonomies
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22 Kinds of Ontologies A shared vocabulary plus a specification of its intended meaning meaning specified explicitly in a logically rigorous way Too expensive
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23 Kinds of Ontologies A shared vocabulary plus a specification of its intended meaning Meaning specified informally via natural language Two extremes
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24 Work on biomedical ontologies grew out of work on medical thesauri and nomenclatures
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25 Kinds of Ontologies Terms General Logic Thesauri formal Taxonomies Frames (OKBC) Data Models (UML, STEP) Description Logics (DAML+OIL) Principled, informal hierarchies ad hoc Hierarchies (Yahoo!) structured Glossaries XML DTDs Data Dictionaries (EDI) ‘ordinary’ Glossaries XML Schema DB Schema Glossaries & Data Dictionaries MetaData, XML Schemas, & Data Models Formal Ontologies & Inference Thesauri, Taxonomies
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26 Fruit Orange Vegetable similarTo Apfelsine synonymWith NarrowerTerm Graph with labels edges (similarTo, Narrower, synonymWith) Fixed set of edge labels (a.k.a. relations) Goble & Shadbolt
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27 Unified Medical Language System (UMLS) UMLS Metathesaurus: 1 million biomedical concepts 2.8 million concept names from more than 100 controlled vocabularies and classifications built by US National Library of Medicine
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28 UMLS Source Vocabularies MeSH – Medical Subject Headings … ICD International Classification of Diseases … GO – Gene Ontology … FMA – Foundational Model of Anatomy …
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29 To reap the benefits of standardization we need to make ONE SYSTEM out of many different terminologies = UMLS “Semantic Network” nearest thing to an “ontology” in the UMLS
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30 UMLS SN Alexa McCray, “An Upper Level Ontology for the Biomedical Domain”, Comparative and Functional Genomics, 4 (2003), 80-84.
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31 UMLS SN 134 Semantic Types 54 types of edges (relations) yielding a graph containing more than 6,000 edges
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32 Fragment of UMLS SN
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35 UMLS SN Top Level entity event physical conceptual object entity organism
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36 conceptual entity Organism Attribute Finding Idea or Concept Occupation or Discipline Organization Group Group Attribute Intellectual Product Language
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37 conceptual entity Organism Attribute Finding Idea or Concept Occupation or Discipline Organization Group Group Attribute Intellectual Product Language
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38 Idea or Concept Functional Concept Qualitative Concept Quantitative Concept Spatial Concept Body Location or Region Body Space or Junction Geographic Area Molecular Sequence Amino Acid Sequence Carbohydrate Sequence Nucleotide Sequence
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39 Idea or Concept Functional Concept Qualitative Concept Quantitative Concept Spatial Concept Body Location or Region Body Space or Junction Geographic Area Molecular Sequence Amino Acid Sequence Carbohydrate Sequence Nucleotide Sequence
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40 Idea or Concept Functional Concept Qualitative Concept Quantitative Concept Spatial Concept Body Location or Region Body Space or Junction Geographic Area Molecular Sequence Amino Acid Sequence Carbohydrate Sequence Nucleotide Sequence
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41 Idea or Concept Functional Concept Qualitative Concept Quantitative Concept Spatial Concept Body Location or Region Body Space or Junction Geographic Area Molecular Sequence Amino Acid Sequence Carbohydrate Sequence Nucleotide Sequence
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42 Lake Geneva is an Idea or Concept
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43 Idea or Concept Functional Concept Qualitative Concept Quantitative Concept Spatial Concept Body Location or Region Body Space or Junction Geographic Area Molecular Sequence Amino Acid Sequence Carbohydrate Sequence Nucleotide Sequence
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44 UMLS Fingers is_a Body Location or Region Hand is_a Body Part, Organ, or Organ Component hand part_of body BUT NOT fingers part_of hand
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45 Problem: Running together of concepts and entities in reality bioinformatics à la UMLS SN ( like many “knowledge engineering” disciplines ) floats free from reality in a conceptual world of its own creation
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46 Blood Pressure Ontology The hydraulic equation: BP = CO*PVR arterial blood pressure (BP) is directly proportional to the product of blood flow (cardiac output, CO) and peripheral vascular resistance (PVR).
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47 UMLS SN blood pressure is an Organism Function cardiac output is a Laboratory or Test Result or Diagnostic Procedure
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48 BP = CO*PVR thus asserts that blood pressure is proportional either to a laboratory or test result or to a diagnostic procedure
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49 Problem: Confusion of reality with our (ways of gaining) knowledge about reality
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50 UMLS Semantic Network entity physical conceptual object entity
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51 Physical Object Substance Food Chemical Body
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52 Chemical Viewed Structurally Functionally
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53 Problem: Confusion of objects with our ways of referring to objects
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54 Chemical Viewed Structurally Functionally Inorganic Organic Enzyme Biomedical or Chemical Chemical Dental Material
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55 This multiple inheritance leads to errors in coding Gene Ontology will eliminate multiple inheritance
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56 UMLS Semantic Network entity physical conceptual object entity organism is_a
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57 UMLS SN is_a = def. If one item ‘is_a’ another item then the first item is more specific in meaning than the second item. (Italics added)
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58 fish is_a vertebrate copulation is_a biological process both testes is_a testis Nazi is_a Nazism plant parts is_a plant
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60 What are the nodes in this graph? Almost all nodes are linked to other nodes by a multiplicity of different types of edges Compare: swimming is healthy swimming has 8 letters
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61 Semantic Network Definition: Concept = def. An abstract concept, such as a social, religious, or philosophical concept UMLS Definition: Concept = def. A class of synonymous terms
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63 How can concepts figure as relata of these relations? part_of = def. Composes, with one or more other physical units, some larger whole causes =def. Brings about a condition or an effect. contains =def. Holds or is the receptacle for fluids or other substances.
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64 How can a set of synonymous terms serve as a receptacle for fluids or other substances? How can sets of synonymous terms stand in relations such as affects or causes?
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65 connected_to =def. Directly attached to another physical unit as tendons are connected to muscles. How can a concept be directly attached to another physical unit?
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66 What are the relata which are linked by the edges in the SN graph?
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67 To answer this question we need to distinguish clearly between concepts and classes: concepts are creatures of cognition classes are invariants (types, kinds, universals) out there in reality
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68 If ontologies are about meanings / concepts it becomes impossible to deal coherently with those relations between entities in reality which involve appeal to both classes and their instances.
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69 Illustration re: part_of heart part_of human human heart part_of human testis part_of human human testis part_of human
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70 For instances: part_of = instance-level parthood (for example between Mary and her heart) For classes A part_of B =def. given any instance a of A there is some instance b of B such that a part_of b This is an assertion about As.
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71 a adjacent_to b (instance-level adjacency, for example between Mary’s head and Mary’s neck) For classes: A adjacent_to B =def. given any instance a of A there is some instance b of B which is such that a adjacent_to b
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72 A adjacent_to B as an assertion about classes is never an assertion about As exclusively
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73 A adjacent_to B =def. given any instance a of A there is some instance b of B which is such that a adjacent_to b and given any instance b of B there is some instance a of A which is such that a adjacent_to b
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74 Almost all of the 54 types of edges in SN are dealt with incoherently part_of HAS INVERSE has_part nucleus part_of cell cell has_part nucleus
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76 Acquired Abnormality affects Fish Experimental Model of Disease affects Fungus Food causes Experimental Model of Disease Bacterium causes Experimental Model of Disease Biomedical or Dental Material causes Mental or Behavioral Dysfunction Manufactured Object causes Disease or Syndrome Vitamin causes Injury or Poisoning
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77 How to do better?
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78 How to do better? How to create a network of biomedically relevant terms/classes, with coherently defined relations between them, to which expert terms of the UMLS can be assigned in a maximally intelligible way?
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79 What linguistic framework is shared in common by immunologists, geneticists and cell biologists, by phenobehavioromists and by toxicopharmacogenomists?
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80 Answer: the natural language they all use to talk about biological (biomedical) phenomena
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81 BioWordNet joint work with Christiane Fellbaum (see paper in Proceedings)
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82 BioWordNet use WordNet’s biomedical vocabulary, to create a better alternative to UMLS SN
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83 Strengths of WordNet 2.0 Open source Very broad coverage Is-a / part-of architecture Tool for automatic sense disambiguation
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84 Weaknesses of WordNet 2.0 Problems with relations Mixes up expert and non-expert vocabulary Errors Gaps Noise all prevent WordNet’s being used in scientific context as substitute for UMLS SN
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85 Fix WordNet’s relations by using the methodology outlined above already applied to: Foundational Model of Anatomy Gene Ontology Open Biological Ontologies
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86 Institute for Formal Ontology and Medical Information Science Saarbrücken http://ifomis.org
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87 WordNet mixes up expert and non-expert vocabulary, both current and medieval: suppuration#2 {pus, purulence, suppuration, ichor, sanies, festering}
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88 WordNet contains biomedically relevant errors snore-sleep WordNet: if someone snores, then he necessarily also sleeps snoring = the respiratory induced vibration of glottal tissues associated not only with sleep but also with relaxation or obesity
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89 WordNet has too much noise for purposes of scientific applications
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90 13 senses for feel is a verb experience – She felt resentful find – I feel that he doesn't like me feel – She felt small and insignificant; feel – We felt the effects of inflation feel – The sheets feel soft grope –He felt for his wallet finger – Feel this soft cloth! explore – He felt his way around the dark room) feel – It feels nice to be home again feel – He felt the girl in the movie theater)
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91 Medical senses of ‘feel’ palpate – examine a body part by palpation: The runner felt her pulse. sense – perceive by a physical sensation, e.g. coming from the skin or muscles: He felt his flesh crawl feel – seem with respect to a given sensation: My cold is gone – I feel fine today
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92 WordNet has gaps even in its coverage of biomedical natural language
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93 WordNet seness of ‘regulation’ 1. regulation (ordinance, rule) 2. rule, regulation -- (a principle that customarily governs behavior; "short haircuts were the regulation") 3. regulation -- (the state of being controlled or governed) 4. regulation -- (the ability of an early embryo to continue normal development after its structure has been somehow damaged) 5. regulation, regularization, regularisation -- (the act of bringing to uniformity) 6. regulation, regulating -- (the act of controlling according to rule; "fiscal regulations are in the hands of politicians")
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94 Biological sense of ‘regulation’: A process that modulates the frequency, rate or extent of behavior (Gene Ontology)
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95 WordNet senses of ‘inhibition’ 1. inhibition, suppression -- ((psychology) the conscious exclusion of unacceptable thoughts or desires) 2. inhibition -- (the quality of being inhibited) 3. inhibition -- the process whereby nerves can retard or prevent the functioning of an organ or part; "the inhibition of the heart by the vagus nerve") 4. prohibition, inhibition, forbiddance -- (the action of prohibiting or forbidding)
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96 Biological senses of ‘inhibition’ much broader inhibition = negative regulation enzymes can be inhibited reactions can be inhibited … and not only by nerves
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97 WordNet senses of ‘binding’ 1. binding -- (the capacity to attract and hold something) 2. binding -- (a strip sewn over or along an edge for reinforcement or decoration) 3. dressing, bandaging -- (the act of applying a bandage) 4. binding, book binding; "the book had a leather binding")
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98 biological sense of ‘binding’ interacting selectively with (Gene Ontology)
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99 Remove errors, noise and gaps in a two-stage process 1.select biomedically relevant natural- language terms from WordNet 2.0 extended by standard biomedical information sources 2.validate these terms and the relations between them
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100 Validation each arc in BWN is converted into a natural- language sentence e.g. ‘mumps is an inflammation’ via controlled human subjects experiments: are accredited 1. as intelligible by non-experts 2. as true by experts
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101 we use logical methods to ensure a coherent treatment of BWN’s upper-level classes and relations and thereby also bring logical rigor in a practical fashion to the whole of the UMLS Metathesaurus
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102 Bring ontological rigour to BWN Terms General Logic Thesauri formal Taxonomies Frames (OKBC) Data Models (UML, STEP) Description Logics (DAML+OIL) Principled, informal hierarchies ad hoc Hierarchies (Yahoo!) structured Glossaries XML DTDs Data Dictionaries (EDI) ‘ordinary’ Glossaries XML Schema DB Schema Glossaries & Data Dictionaries MetaData, XML Schemas, & Data Models Formal Ontologies & Inference Thesauri, Taxonomies
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103 The long-term goal BWN should serve as scaffolding/indexing system for the much larger and denser net of expert biomedical terminology which is the UMLS Metathesaurus
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104 The End
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