Forms of Life

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Forms of Life

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Title: Forms of Life

1
Forms of Life
Barry Smith http//ifomis.org
2
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Scales of anatomy
Organism
Organ
Tissue
10-1 m
Cell
Organelle
10-5 m
Protein
DNA
10-9 m
4
New Golden Age of Classification

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

5
FUNCTIONAL GENOMICS

proteomics,
reactomics,
metabonomics,
phenomics,
behaviouromics,
toxicopharmacogenomics

6
The problem is

each (chemical, clinical, pathological,
immunological, toxicological, pharmacological,
anatomical ) information system uses its own
classification system
How can we overcome the incompatibilities which
become apparent when data from distinct sources
is combined?

7
Answer

Ontology

8
Google hits (as of yesterday)

ontology philosophy 143K
ontology engineering 145K
ontology information systems 217K
ontology software 252K
ontology database 279K

9
IFOMIS

Institute for Formal Ontology
and Medical Information Science

10
The problem of the unity of science

The logical positivist solution to this problem
addressed a world in which sciences are
associated with
printed texts
What happens when sciences are associated with
databases ?

11
A Linnaean Species Hierarchy
12
Medical Diagnostic Hierarchy
a hierarchy in the realm of diseases
13
Combining hierarchies
Organisms
Diseases
14
via Dependence Relations
Organisms
Diseases
15
A Window on Reality
16
A Window on Reality
Organisms
Diseases
17
A Window on Reality
18
The UMLS

Unified Medical Language System
contains information about over 1 million
biomedical concepts and 2.8 million concept names
from more than 100 controlled vocabularies and
classifications

19
UMLS Source Vocabularies

SNOMED Systematized Nomenclature of Medicine
ICD International Classification of Diseases
MeSH Medical Subject Headings
GO Gene Ontology
FMA Foundational Model of Anatomy

20
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 of the UMLS
134 Nodes, 54 Relationship-Types between these
Nodes, forming a graph with 6000 Edges

21
Fragment of the UMLSemantic Network
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UMLS Semantic Network

entity event
physical conceptual
object entity
organism

24
conceptual entity

Organism Attribute
Finding
Idea or Concept
Occupation or Discipline
Organization
Group
Group Attribute
Intellectual Product
Language

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

26
Trattenbach

is an Idea or Concept

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

28
Problem Confusion of concepts and entities in
reality
29
Blood Pressure Ontology

The hydraulic equation
BP COPVR
arterial blood pressure (BP) is directly
proportional to the product of blood flow
(cardiac output, CO) and peripheral vascular
resistance (PVR).

30
UMLS-Semantic Types

blood pressure is an Organism Function,
cardiac output is a Laboratory or Test Result or
Diagnostic Procedure
BP COPVR thus asserts that
blood pressure is proportional either to a
laboratory or test result or to a diagnostic
procedure

31
Problem Confusion of reality with our (ways of
gaining) knowledge about reality
32
What are the terms of ontologies in the
ontological engineering sense

Answer Concepts

33
Concept

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

Trattenbach is_a class of synonymous terms

35
UMLS Semantic Network

entity
physical conceptual
object entity
organism

36
is_a

Concept A is_a Concept B
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)

fish is_a vertebrate
enzyme is_a biologically active substance
copulation is_a biological process

38
Fragment of the UMLSemantic Network
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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. This includes filled
with, holds, and is occupied by

41
embryonic structure part_of human

embryonic structures appear as parts of entities
other than humans
humans have embryonic structures as parts only in
certain phases of their existence

Acquired Abnormality affects Fish
Experimental Model of Disease affects Fungus
Food 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
Tissue location_of Mental or Behavioral
Dysfunction

43
Fragment of the UMLSemantic Network
44
The Concept Orientation

Work on biomedical ontologies grew out of work on
medical dictionaries and nomenclatures
Has focused almost exclusively on concepts
conceived (sometimes called classes, sometimes
confused with terms/descriptions).
Concept-orientation also common in KR,
has led to the entrenchment of an assumption
according to which all that need be said about
classes can be said without appeal to time or
instances.
This, however, has fostered an impoverished
regime of definitions in which the use of
identical terms (like part) in different
systems has been allowed to mask underlying
incompatibilities.

45
Belnap

its a good thing logicians were around before
computer scientists
if computer scientists had got there first,
then we wouldnt have numbers
because arithmetic is undecidable

INSTANcES ARE SINGLETONS

Belnap
Hilbert's formalism is Kantianism (Cabalah)
reference is one address writing to another
addresses
molecules have their parts rigidly
10 Billion Pounds for SNOMED
Influence of GO
Bad things in GO
Ontologies in BIO generally (google)
Functions, processes
Pancreas gene story
inhibition/function/regulation/plasticity/redundan
cy/death
Evolution is opportunistic ( opportunistic
infections) good for bacteria etc.
against Millikan -- cell death
life plan
physiology changes in qualities of parts
growth - getting bigger
development new kinds of things getting formed
aging involution
death

48
Aristotle-Linnaeus Theory of Species and Instances
49
species, genera
mammal
frog
instances
50
Husserls Science of Pure Logic
51
species, genera
a stands in R to something
mammal is P
a stands in R to b
instances
52
species, genera
a stands in R to something
mammal is P
a stands in R to b
LAWS OF LOGIC LAWS OF ESSENCE GOVERNING
STRUCTURES/COMBINATIONS OF JUDGMENT
53
The historical epistemology of the sciences

life-world
physics

medicine molecular biology
54
Different scientific cultures/terminologies

immunology

genetics
cell biology
55
(Quine)

an ontology is a systematic representation of
the ontological commitments of a given scientific
discipline, culture, commercial enterprise
childrens ontology
Buddhist ontology
wine ontology

56
Ontologies as hierarchies of concepts

Concepts, also known as classes, are used in a
broad sense. They can be abstract or concrete,
elementary or composite, real or fictious. In
short, a concept can be anything about which
something is said, and, therefore, could also be
the description of a task, function, action,
strategy, reasoning process, etc.
Confusion of concept / object / description

57
Semantic Web

Ontology-based unification
REDUCE EVERYTHING TO SYNTACTIC STRINGS IN SOME
Ontology Web Language
and STIR VIGOROUSLY
The Crisis of Bioinformatic Sciences

58
An alternative research programme for
ontologybased on philosophical principles

Department of Biological Structure (Seattle)
Ontek Corporation (Buffalo)
Laboratory for Applied Ontology (Trento/Rome)

59
BFO

Basic Formal Ontology
(counterpart of pure mathematics)

60
A Network of Domain Ontologies
Basic Formal Ontology

Material (Regional) Ontologies

61
A Network of Domain Ontologies
62
A Network of Domain Ontologies
63
Part Three ARO The Anatomy Reference Ontology
64

Anatomy Reference Ontology
theoretical framework surrounding the Digital
Anatomist Foundational Model of Anatomy of
Department of Biological Structure, University of
Washington, Seattle

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A Linnaean Hierarchy
67
at every level of granularity
68
Anatomy Reference Ontology

Rather than stating the meanings of terms,
definitions should state the essence of
anatomical entities in terms of their
characteristics ... Paraphrasing Aristotle, the
essence of an entity is constituted by the
genus, necessary to assign an entity to a class
and the differentiae, necessary to distinguish
the entity from other entities also assigned to
the class.

69
The Anatomy Reference Ontology

is organized in a graph-theoretical structure
involving two sorts of links or edges
is-a ( is a subtype of )
(auditory ossicle is-a bone)
part-of
(cervical vertebra part-of vertebral column)

70
Part Four GO The Gene Ontology
71
GO is three ontologies

cellular components
molecular functions
biological processes
December 16, 2003
1372 component terms
7271 function terms
8069 process terms

72
GO product of Open Biological Ontologies
consortium

Fungal Ontology
Plant Ontology
Yeast Ontology
Disease Ontology
...

73
When a gene is identified

three important types of questions need to be
addressed
1. Where is it located in the cell?
2. What functions does it have on the molecular
level?
3. To what biological processes do these
functions contribute?

74
GOs three ontologies
75
The Cellular Component Ontology (counterpart of
anatomy)

flagellum
chromosome
membrane
cell wall
nucleus

76
The Molecular Function Ontology

ice nucleation
protein stabilization
kinase activity
binding
The Molecular Function ontology is (roughly) an
ontology of actions on the molecular level of
granularity

77
Biological Process Ontology

Examples
glycolysis
death
adult walking behavior
response to blue light
occurrents on the level of granularity of
cells, organs and whole organisms

78
the universals of GO are species-independent

an ontology of the unchanging universal building
blocks of life
(substances and processes)
and of the structures they form

79
but GO built by biologists

compare the Gene Statistic

80
hemolysis

Definition
The cause of hemolysis

81
Molecular Function

Definition
An activity or task performed by a gene product.
It often corresponds to something (such as a
catalytic activity) that can be measured in
vitro.

82
Biological Process

Definition
A biological process is a biological goal that
requires more than one function. Mutant
phenotypes often reflect disruptions in
biological processes.

83
Each of GOs ontologies

is organized in a graph-theoretical structure
involving two sorts of links or edges
is-a ( is a subtype of )
(copulation is-a biological process)
part-of
(cell wall part-of cell)

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GO has only sentences of the form A is_a B and A
part_of B

no way to express not and no way to express
is localized at and no way to express I dont
know
Holliday junction helicase complex
is-a
unlocalized

86
GO0008372 cellular component unknown cellular
component unknown is-a cellular component
87
Is biological classification Linnaean?
88
Principle of Single Inheritance

no class in a true (Linnaean) hierarchy should
have more than one parent on the immediate higher
level
no diamonds

89
Problems with multiple inheritance

B C
is-a1 is-a2
A
is-a no longer univocal

90
is-a is pressed into service to mean a variety
of different things

the resulting ambiguities make the rules for
correct coding difficult to communicate to human
curators
they also serve as obstacles to integration with
neighbouring ontologies

91
within

lytic vacuole within a protein storage vacuole
lytic vacuole within a protein storage vacuole
is-a protein storage vacuole
time-out within a baseball game is-a baseball
game
embryo within a uterus is-a uterus

92
extrinsic to

extrinsic to membrane
extrinsic to membrane part-of membrane

93
GOs three ontologies are separate
biological processes
molecular functions

No links or edges defined between them

cellular components
94
Three granularities

Molecular (for functions)
Cellular (for components)
Whole organism (for processes)

95
GO does not include molecules or organisms within
any of its three ontologies

The only continuant entities within the scope of
GO are cellular components (including cells
themselves)

96
Are the relations between functions and processes
a matter of granularity?

Molecular activities are the building blocks of
biological processes ?
But they cannot be represented in GO as parts of
biological processes

97
GO does not recognize parthood relations between
entities on its three distinct levels of
granularity

Compare
this wheel is part of the car
this molecule is part of the car

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Part Five

Extending GO to make a full ontology by adding
relations of dependence

100
GO must be linked with other neighboring
ontologies

GO has adult walking behavior but not adult
GO has eye pigmentation but not eye
GO has response to blue light but not light (or
blue)
94 of words used in GO terms are not GO terms

101
Principle of Dependence

If an ontology recognizes a dependent entity
then it (or a linked ontology) should recognize
also the relevant class of bearers

102
Linking to external ontologies

can also help to link together GOs own three
separate parts

103
GOs three ontologies
biological processes
molecular functions
? dependent ?
cellular components
? independent
104
GOs three ontologies
organism-level biological processes
cellular processes
molecular functions
cellular components
105
molecular functions
cellular processes
organism-level biological processes
molecule complexes
cellular components
organisms
part-of is dependent
on
106
molecule complexes
cellular components
organisms
107
molecule complexes
cellular components
organisms
108
Basic Formal Ontology

theory of part and whole
theory of dependence
theory of boundary, continuity and contact
( Aristotelian) theory of species, instances and
lowest specific differences (first edition of LU)
theory of continuants and occurrents
theory of functions
theory of granularity

109

The End

110
The problem

About 30,000 genes in a human
Probably 100-200,000 proteins
Individual variation in most genes
100s of cell types
100,000s of disease types

111
Organism
Organ
Tissue
Cell
Organelle
Protein
DNA
112
The Challenge

Each (clinical, pathological, genetic,
proteomic, pharmacological ) information system
uses its own terminology and category system
biomedical research demands the ability to
navigate through all such information systems
How can we overcome the incompatibilities which
become apparent when data from distinct sources
is combined?

113
Answer

Ontology

114
Three senses of ontology

Philosophical sense an inventory of the types of
entities and relations in reality
Knowledge engineering sense an ontology as a
consensus representation of the concepts used in
a given domain
GO/OBO sense a controlled vocabulary

115
Ontology as a branch of philosophy

seeks to establish
the basic formal-ontological structures
the kinds and structures of objects, properties,
events, processes and relations in each material
domain of reality

116
Formal ontology an analogue of pure mathematics

Can be applied to different domains

117
Material ontology a kind of generalized chemistry
or zoology

(Aristotles ontology grew out of biological
classification)

118
Aristotle
worlds first ontologist

119
Worlds first ontology (from Porphyrys
Commentary on Aristotles Categories)
120
Linnaean Ontology
121
Formal Ontology

theory of part and whole
theory of dependence / unity
theory of boundary, continuity and contact
theory of universals and instances
theory of continuants and occurrents (objects and
processes)
theory of functions and functioning
theory of granularity

122
Formal Ontology

the theory of those ontological structures
(such as part-whole, universal-particular)
which apply to all domains whatsoever

123
Formal Ontology vs. Formal Logic

Formal ontology deals with the interconnections
of things
with objects and properties, parts and wholes,
relations and collectives
Formal logic deals with the interconnections of
truths
with consistency and validity, or and not

124
Formal Ontology vs. Formal Logic

Formal ontology deals with formal ontological
structures
Formal logic deals with formal logical
structures
(Epistemology deals with ways of gaining
knowledge)

125
Formal-Ontological Categories

substance
process
function
unity
plurality
site
dependent part
independent part
are able to form complex structures in
non-arbitrary ways joined by relations such as
part, dependence, location.

126
Example of a Formal-Ontological Structure
A
B
C
E
D
127
Ontological Structure
A
B
C
E
D
128
Ontological Structure
A
B
F
C
E
D
129
A Network of Domain Ontologies
Basic Formal Ontology

Material (Regional) Ontologies

130
In formal ontology

as in formal logic, we can grasp the properties
of given structures in such a way as to establish
in one go the properties of all formally similar
structures

131
Material Ontology of Social Interaction
oblig-ation
claim
132
A Window on Reality
133
Universals
oblig-ation
claim
134
Instances
oblig-ation
claim
135
A Window on Reality
136
Medical Diagnostic Hierarchy
a hierarchy in the realm of diseases
137
Dependence Relations
Organisms
Diseases
138
A Window on Reality
Organisms
Diseases
139
A Window on Reality
140
universals
mammal
frog
instances
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143
Many current standard ontologies ramshackle
because they have no counterpart of formal
ontology

The Universal Medical Language System (UMLS)
a compendium of source vocabularies including
HL7 RIM
SNOMED
International Classification of Diseases
MeSH Medical Subject Headings
Gene Ontology

144
Problem The different source vocabularies are
incompatible with each other
145
Problem They contain bad coding

which often derives from failure to pay
attention to simple logical or ontological
principles or from principles of good definitions

146
Bad Coding

Plant roots is-a Plant
Plant leaves is-a Plant
Pollen is-a Plant
Both testes is a testis
Both uterii is a uterus

147
Bad definitions

Heptolysis def the cause of heptolysis
Biological process def a biological goal that
requires more than one function

148
is-a

Standard definition
A is-a B def every instance of A is an
instance of B
standard definition of computer science
adult is-a child
animal owned by the Emperor is-a animal
mammal is-a object weighing less than 200 kg

149
correct reading of is-a

A and B are natural kinds,
there are times at which instances of A exist,
at all such times these instances are necessarily
(of their very nature) also instances of B
1. eukaryotic cell is-a cell
2. mammal is-a animal
3. death is-a biological process

150
Ontologies

Here A and B are universals
( natural kinds, types , roughly analogous to
biological species)
Universals have instances (you and me, your
headache, my coughing)

151
Instances are elite individuals

they are those which instantiate universals
(entering into biological laws)

152
Linnaean Ontology
153
Confusion of Ontology and Epistemology

Physical Object
Substance
Food Chemical Body Substance

154
Confusion of Ontology and Epistemology

Chemical
Chemical Chemical
Viewed Viewed
Structurally Functionally

155

Chemical
Chemical Chemical
Viewed Viewed
Structurally Functionally
Inorganic Organic Enzyme
Biomedical or
Chemical Chemical Dental
Material

156

Chemical
Chemical Chemical
Viewed Viewed
Structurally Functionally
Inorganic Organic
Biomedical or
Chemical Chemical Dental
Material

Enzyme
157
Is biological classification Linnaean?
158
Principle of Single Inheritance

(rule of thumb) no class in a classificatory
hierarchy should have more than one parent

159
The Problem of Multiple Inheritance

cars
Buicks blue cars
blue Buicks

160
Principle of Taxonomic Levels

161
Principle of Taxonomic Levels

the terms in a classificatory hierarchy should
be divided into predetermined levels (analogous
to the levels of kingdom, phylum, class, order,
etc., in traditional biology).
depth in GOs hierarchies not determinate
because of multiple inheritance

162
Principle of Exhaustiveness

the classes on any given level should exhaust
the domain of the classificatory hierarchy.

163
Single Inheritance Exhaustiveness JEPD

Exhaustiveness often difficult to satisfy in the
realm of biological phenomena but its acceptance
as an ideal is presupposed as a goal by every
scientist.
Single inheritance accepted in all traditional
(species-genus) classifications

164
Problems with multiple inheritance

B C
is-a1
is-a2
A
E
D
sibling is no longer determinate

165
Problems with multiple inheritance

B C
is-a1
is-a2
A
E
D
is_a is no longer univocal

166
when is-a is pressed into service to mean a
variety of different things

the resulting ambiguities make the rules for
correct coding difficult to communicate to human
curators
they also serve as obstacles to integration with
neighboring ontologies

167
How are universals and instances related together?
168
Entities
169
Entities
universals (classes, types, taxa, )
particulars (individuals, tokens, instances )
Axiom Nothing is both a universal and a
particular
170
Two Kinds of Elite Entities

classes, within the realm of universals
instances within the realm of particulars

171
Entities
classes
172
Entities
classes natural, biological
173
Entities
classes of objects, substances need
modified axioms for classes of functions,
processes, pathways, reactions, etc.
174
Entities
classes
instances
175
Classes are natural kinds

Instances are natural exemplars of natural kinds
(problem of non-standard instances)
Not all individuals are instances of classes

176
Entities
classes
instances
instances
177
Entities
classes
junk
junk
instances
junk
example of junk beachball-desk
178
Primitive relations inst and part

inst(Jane, human being)
part(Janes heart, Janes body)
A class is anything that is instantiated
An instance as anything (any individual) that
instantiates some class

179
Entities
human
inst
Jane
180
Entities
human
Janes heart part Jane
181
part as a relation between individuals

subject to the usual axioms of mereology

182
Two primitive relations inst and part

inst(Jane, human being)
part(Janes heart, Janes body)
A universal is anything that is instantiated
An instance is anything (any individual) that
instantiates some class

183
Two primitive relations inst and part

Axioms governing inst
it holds in every case between an instance and a
class, in that order
that nothing can be both an instance and a
class.
Axioms governing part ( proper part)
(1) it is irreflexive
(2) it is asymmetric
(3) it is transitive
(4) it holds only between individuals
(usual mereological axioms)

184
Part_for and Has_Part

A part_for B def
given any x, if inst(x, A) then there is some y
such that inst(y, B) and part(x, y)
B has_part A def
given any y, if inst(y, B) then there is some x
such that inst(x, A) and part(x, y)
human testis part_for human being,
But not human being has_part human testis.
human being has_part heart,
But not heart part_for human being.

185
The usual part_of relation as a relation between
universals

A part_of B def A part_for B B has_part A
As exist only as parts of Bs and Bs are
structurally organized in such a way that As must
appear in them as parts.

186
Analogous problems for nearly all foundational
relations of ontologies and semantic networks

A causes B
A is associated with B
A is located in B
etc.
Reference to instances is necessary to clear up
these problems

187
if they can be cleared up at all
188
Fragment of the UMLSemantic Network
189
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Mental Process precedes Molecular Function
Mental Process precedes Genetic Function
Experimental Model of Disease precedes Cell or
Molecular Dysfunction
Acquired Abnormality affects Bird
Experimental Model of Disease affects Fungus
Physiologic Function affects Reptile
Antibiotic 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
Fungus location_of Vitamin
Organization location_of Diagnostic Procedure

191
What are universals?

invariants in reality
satisfying biological laws
(there are truths about universals in biological
textbooks)

192
Universals are Not Sums

Universals are distinguished by granularity
they divide up the corresponding domain into
whole units or members, whose interior parts and
structure are traced over. The universal human
being is instantiated only by human beings as
single, whole units.
A mereological sum is not granular in this sense
(molecules are parts of the mereological sum of
human beings)

193
Universals are Not Sets

Both universals and sets are marked by
granularity but universals are timeless
Both a universal and a set is laid across reality
like a grid consisting (1) of a number of slots
or pigeonholes each (2) occupied by some member.
But a set is determined by its members. This
means that it is (1) associated with a specific
number of slots, each of which (2) must be
occupied by some specific member.
A universal survives the turnover in its
instances it is specified neither (1) what the
number of associated slots should be nor (2) what
individuals should occupy these slots. Both may
vary with time.

194

A universal is not determined by its instances as
a state is not determined by its citizens
A universal may vary with time as an organism may
vary with time (by gaining and losing molecules)

195
Universals are Not Sets

A set is an abstract structure, existing outside
time and space. The set of Romans timelessly has
Julius Caesar as a member.
Universals exist in time.

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197
Two Questions

1. What does Functional mean in expressions
like Functional Genomics ?
2. How can we use the answer to this question to
help us understand notions fundamental to
medicine such as health and disease ?

198
Towards an Tri-Categorial Ontology

of Structures, Functions and Processes

199
Definition of Function in UMLS Semantic Network

Functional Concept df A concept which is of
interest because it pertains to the carrying out
of a process or activity.
Function ? Functional Concept
Function ? Realization of a Function

200
The Kidney From Andrew Lonie, University of
Melbourne
Your entire blood volume flows through your
kidneys every few minutes, leaving behind excess
water, solutes and waste materials
201
How does a kidney work?
Essentially a massively parallel filter composed
of 105 to 106 nephrons The nephron is the
functional unit of the kidney Each nephron is a
very convoluted, long, thin tube lined with
biochemical pumps
202
Nephron Functions
10 functional segments
15 different cell types
203
Structural and functional representation
Structural ontology Kidney Renal
architecture Tubule section/ Glomerulus Cell
ANATOMY AT DIFFERENT LEVELS OF GRANULARITY
process ontology (molecular, cellular,
organ-level )
204
UMLS Semantic Network

entity event
physical conceptual
object entity
organism

205
Tri-Categorial Ontology present also in GO The
Gene Ontology

3 ontologies (large telephone directories) of
standardized designations for gene functions and
products

206
RUMLS Semantic Network

entity event
structures functions processes

207
GOs three disjoint term hierarchies

the cellular component (structure) ontology,
e.g. flagellum, chromosome, cell
the biological process ontology,
e.g. glycolysis, death
the molecular function ontology,
e.g. ice nucleation, binding, protein
stabilization

208
RUMLS Semantic Network

entity event
structures functions processes

209
Functional Genomics

What does Functional mean?

210
The Problem

The tumor developed in Johns lung over 25 years

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The Problem

____ developed in _____ over 25 years
process

212
The Problem

The tumor developed in the lung over 25 years
substances
things
objects
continuants

213
The Problem

The tumor developed in Johns lung over 25 years
PARTHOOD NOT DETERMINATE

214
The Problem

The tumor developed in the lung over 25 years
substances
GLUING THESE TOGETHER YIELDS ONTOLOGICAL MONSTERS

215
Substances and processes exist in time in
different ways
substance
216
SNAP vs SPAN

Endurants vs perdurants
Continuants vs occurrents
In preparing an inventory of reality
we keep track of these two different kinds of
entities in two different ways

217
Fourdimensionalism

only processes exist
time is just another dimension, analogous to
the three spatial dimensions
substances are analyzed away as worms/fibers
within the four-dimensional plenum

218
There are no substances

Bill Clinton does not exist
Rather there exists within the four-dimensional
plenum a continuous succession of processes which
are similar in a Billclintonizing way

219
Fourdimensionalism (the SPAN perspective) is
right in everything it says

But incomplete

220
Need for Two Orthogonal, Complementary
Perspectives
SNAP and SPAN
221
Snapshot Video ontology
ontology
substance
222
SNAP and SPAN

stocks and flows
commodities and services
product and process
anatomy and physiology

223
SNAP and SPAN

SNAP entities
- have continuous existence in time
- preserve their identity through change
- exist in toto if they exist at all
SPAN entities
- have temporal parts
- unfold themselves phase by phase
- exist only in their phases/stages

224
You are a substance

Your life is a process
You are 3-dimensional
Your life is 4-dimensional

225
Many SNAP Ontologies
t3
t2
t1
here time exists outside the ontology, as an
index or time-stamp
226
each SNAPi section through reality
227
mereology works without restriction (parthood is
everywhere determinate) in every SNAPi ontology
228
Three kinds of SNAP entities

SNAP Independent Entities (you and me)
SNAP Dependent Entities
Spatial regions

229
SNAP dependent entities

States, powers, qualities, functions,
dispositions, plans, shapes, liabilities,
propensities

230
SNAP dependent entities

one-place
your temperature, color, height
my knowledge of French
the whiteness of this cheese
the warmth of this stone
the fragility of this glass

231

relational SNAP dependent entities

stand in relations of one-sided dependence to a
plurality of substances simultaneously
one-sided dependence
232
A Window on Reality
233
Spatial regions sites (contexts, niches,
environments)

Organism species evolve into environments
Domesticated spatial regions rooms, nostrils,
your alimentary tract
Fiat spatial regions JFK designated airspace

234
SNAP Entities existing in toto at a time
http//ontology.buffalo.edu/bfo
235
The SPAN Ontology
236
The SPAN ontology
here time exists as part of the domain of the
ontology
237
mereology works without restriction everywhere
here
238
mereology works without restriction everywhere
here
239
Processes, too, are dependent on substances

One-place vs. relational processes
One-place processes
your getting warmer
your getting hungrier

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Relational processes

kissings, thumpings, conversations,
dancings, promisings, infectings, bindings
join their carriers together into collectives of
greater or lesser duration

241
SPAN Entities extended in time
http//ontology.buffalo.edu/bfo
242
Two kinds of SPAN entities

Processes (including events process-boundaries,
settings)
Spatio-temporal regions

243
How do you know whether an entity is SNAP or SPAN?
244
problem cases

forest fire
hurricane Maria
traffic jam
ocean wave
disease
anthrax epidemic

245
forest fire

a process
a pack of monkeys jumping from tree to tree and
eating up the trees as they go
the Olympic flame
a process or a thing?
(anthrax spores are little monkeys)

246
A disease

The course/history of a disease

247
The Epidemic (SNAP)

The Spread of an Epidemic (SPAN)

248
Material examples

performance of a symphony
projection of a film
expression of an emotion
utterance of a sentence
application of a therapy
increase of temperature

249
The Tri-Categorial Ontology

SNAP SPAN
structures functions processes
independent dependent
continants continuants

250
The Tri-Categorial Ontology

continuants occurrents
structures functions processes
independent dependent
continants continuants

251
A Window on Reality

continuants occurrents
structures functions processes
independent dependent
continants continuants
Entities in all three categories exist both as
universals and as instances (as tokens and as
types)
The function of your heart is to pump blood
The function of my heart is to pump blood

252
Functions are continuants

The function of your heart begins to exist with
the beginning to exist of your heart, and
continues to exist, self-identically, until
(roughly) your heart ceases to be able to respond
if stimulated by your sympathetic and
parasympathetic nervous systems

253
Functions have bearers

The bearer of the function of your heart is
your heart.
Functions are dependent continuants.
The bearers of functions are independent
continuants (hearts, screwdrivers )

254
Functions are realized

in special sorts of processes called
functionings
The processes taking place in or involving
entities which are bearers of functions can be
divided into two types those which are
realizations of their functions (also called
functionings) and processes of other types (junk
processes)

255
Functions can exist even when they are not being
realized
256
Processes (realizations) are causal-energetic

time

257
Functions are historical (they exist in time)
but they are also quasi-Platonic

time

258
Compare the relation between temperature,

which is quasi-Platonic
and Brownian motion,
which is causal-energetic
Your temperature at t vs. the value of your
temperature at t

259
Your temperature is quasi-Platonic

Your temperature as a determinable is identical
from one moment of your existence to the next
This determinable takes on different values at
different times

260
Biological functions are always constituent
functions

If X has a biological function then there is some
Y of which X is a part and Xs functioning is in
the service of / for the benefit of Y

261
Functions are beneficial

If an organism has a constituent part X, and if
X is the bearer of a function Z, then those
processes which are the realizations of the
function Z are (in normal circumstances)
beneficial to the organism
(? such as to sustain the organism in existence)

262
Functional Genomics

study of what the genes contribute to the
organism in the way of survival(Bad genes do not
have functions)
Every oncogene is a proto-oncogene
There is functioning, poor functioning,
malfunctioning
There is not having a function at all (and this
can be either neutral in the stakes of
beneficiality or also positively malignant)

263
Does this sense of function correspond to the
way biologists talk?
264
Clinical vs. biological sense of function

Biologists sometimes talk about biological
structures gaining function ( being switched
on) even where their functioning is not
beneficial
Are all functions associated with malfunctionings?

265
Health Disease Illness

Diseased organ organ predisposed to malfunction
Its functioning is defective

266
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Part Four Definitions of Health

World Health Organization
Health is the state of psychological and
physical well-being of humans

268
Biostatistical TheoryChristopher Boorse

Health is conformity to normal species design (as
statistically determined).
Abnormally healthy people are therefore in fact
sick (?)

269
The Vital Goal Theory Lennart Nordenfelt

Health is the bodily and mental state of a person
which is such that he or she has an ability to
realize vital goals, given standard or otherwise
accepted circumstances.
Disease is a state or process of a persons body
or mind that tends to cause ill health in the
bearer.

270
The Ordinary Action TheoryK.W.M. Fulford

Health is being able to do what one ordinarily
does in the absence of obstruction or opposition.
Illness is failing to do what one ordinarily does
in the absence of obstruction or opposition.

271
The Abnormality TheoryLawrie Reznek

Disease is a state of a person which issues in
abnormal behavior something is an abnormal
bodily or mental process if it does standard
members of the human species some harm in
standard circumstancessomething does a person
harm if it makes the person less able to live a
good or worthwhile life.

272
Problems with standard definitions

Circularity
Make health a social construction
Make health a Cambridge property
Confuse state and process, disposition and
realization, potentiality and actuality
Do not apply to organisms other than humans

273
Circularity

Health is ... well-being
Health is ... being able to live a good or
worthwhile life
Disease is a state that tends to cause ill
health in the bearer

274
Health a social construction

Health is the ability to realize vital goals,
given standard or otherwise accepted
circumstances
Illness what the insurance company will pay to
treat

275
Health a Cambridge Property

Health is conformity to normal species design (as
statistically determined).
If everyone in society becomes sicker and you
remain the same, then you are the person who
becomes unhealthy

276
Ontology of Disease

Diseases are, like functions, dependent
continuants
They are states or conditions which endure for a
certain time and have a course or history, which
is an occurrent
Disease tokens, like roles and functions, do not
change through their existence over time

277
Diseases are both historical and quasi-Platonic

time

278
Functions

This is a screwdriver
This is a good screwdriver
This is a broken screwdriver
This is a heart
This is a healthy heart
This is an unhealthy heart

279
Functions are associated with certain
characteristic process shapes

Screwdriver rotates and simultaneously moves
forward simultaneously transferring torque from
hand and arm to screw
Heart performs a contracting movement inwards
and an expanding movement outwards simultaneously
transferring hydraulic pressure to the blood
stored within its chambers

280
For each function

there is an associated family of
(four-dimensional) process shapes, organized
around a core of prototypical process shapes
representing good functioning
The prototypes play a role analogous to the
standard meter rule in the organization of those
one-dimensional shapes we call lengths

281
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Outside the core

are process shapes which are not instances of
functioning at all

283
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Normal functioning

functioning (realizing a four-dimensional
shape) at or close to the prototype

286
Prototypes
good functioning
287
Prototypes
reasonable functioning
288
Poor functioning
poor functioning
289
Malfunctioning
malfunctioning
290
Death?
not functioning at all
291
Not functioning at all

leads to death modulo internal factors
plasticity
redundancy (2 kidneys)
criticality of the system involved
external factors
prosthesis (dialysis machines, oxygen tent)
special environments
assistance from other organisms

292
Relevance of Millikan

Prototypical functioning exercising what
Millikan calls proper function
(defined historically)
X is the proper function of Y means 1) Y
performs X and 2) Y exists because its
predecessors performing the function X is
responsible for my existing
It is not the function of the nose to hold up
spectacles because this was not selected for

293
Millikan backward looking, focused on whole
species

This account forward looking, focused on single
organism
X has a function (1) Xs functioning is
beneficial to the organism of which X is a part

294
Boorses Internal Impairment Theory

Disease is an internal state which is an
impairment or limitation of normal functional
ability.

295
Disease
296
Disease remoteness from prototypical functioning
disease
297
Disease remoteness from prototypical functioning
1 not functioning at all 2 malfunctioning 3
functioning poorly
1 2 3
disease
298
Not functioning at all

death modulo
criticality of the system involved

299
Biological entities have biological functions
only as parts of organisms

An organic entity functions in the service of the
organism of which it is a part
There are immediate parts of the organism the
bodily systems which function directly in the
service of the organism.
And there are mediate ( smaller) parts of the
organism cells, tissues, organs -- which
function in the service of larger parts

300
Immediate parts of the organism are more critical
301
Bodily Systems
digestive
respiratory
circulatory
immune
skeletal
musculatory
302
ENDOCRINE SYSTEM
303
KIDNEY
304
How does a kidney work?
NEPHRON
305
Nephron Functions
FUNCTIONAL SEGMENTS
306
Organism
Organ
Tissue
Cell
Organelle
Protein
DNA
307
Coda on Normal

Normal functioning of the pancreas
Normal functioning of the sexual organs
On the several senses of normal in biology

308
Problem The Sexual Organs do not have Biological
Functions

A constituent part of an organism has a function
its functioning is beneficial to the survival
of the host organism
this does not hold for the reproductive system
and its parts

309
Hence the sexual organs do not have functions