Neuropsychology OptionWeek 5 - PowerPoint PPT Presentation

About This Presentation
Title:

Neuropsychology OptionWeek 5

Description:

Neuropsychology Option Week 5 2nd Lecture T.H. Huxley (1863, 1874) Human brain Chimpanzee brain Huxley s comparisons Huxley (1871) Every principal gyrus and ... – PowerPoint PPT presentation

Number of Views:176
Avg rating:3.0/5.0
Slides: 54
Provided by: swal176
Category:

less

Transcript and Presenter's Notes

Title: Neuropsychology OptionWeek 5


1
Neuropsychology Option Week 5
  • 2nd Lecture

2
T.H. Huxley (1863, 1874)
So far as cerebral structure goes therefore, it
is clear that man differs less from the
Chimpanzee or the Orang, than these do even from
the monkeys, and that the difference between the
brains of the Chimpanzee and of Man is almost
insignificant, when compared with that between
the Chimpanzee brain and that of a Lemur.
(Darwin, 1871/1901, p. 312)
Every principal gyrus and sulcus of a
chimpanzees brain is clearly represented in that
of a man.
3
Human brain
4
Chimpanzee brain
The chimpanzee brain is less than a third the
size of a typical human brain, but superficially
looks similar
5
Huxleys comparisons
So far as cerebral structure goes therefore, it
is clear that man differs less from the
Chimpanzee or the Orang, than these do even from
the monkeys, and that the difference between the
brains of the Chimpanzee and of Man is almost
insignificant, when compared with that between
the Chimpanzee brain and that of a Lemur.
(Darwin, 1874/1901, p. 312)
6
Huxley (1871)
  • Every principal gyrus and sulcus of a
    chimpanzees brain is clearly represented in that
    of a man
  • This second claim is probably misleading, since
    the reverse is certainly not true, and it maybe
    that the 21st century conclusion is radically
    different from the 19th century one, when more is
    known about the genetics of the difference
    between human and chimpanzee brains (Culotta,
    2005).

7
Mikkelsen et al, (2005)
8
  • Caceres et al. (2003) applied a variety of
    genetic techniques to the cortical tissue
    (removed post-mortem) of humans, chimpanzees and
    rhesus macaques.
  • These suggested that humans and chimpanzees are
    more similar to each other than to the macaques,
    which is as expected,
  • but also that there were dozens of genes that
    were expressed very differently in human and
    chimpanzee cortex, with 90 of these being
    expressed more actively in humans than in
    chimpanzees, which suggested that
  • The human is brain is characterized by elevated
    levels of neuronal activity.
  • As a contrast, comparing gene expressing in the
    human and chimpanzee heart and liver revealed
    very little difference of this kind.

9
Sherwood, C. C., et al. (2006). Evolution of
increased glia-neuron ratios in the human frontal
cortex. PNAS, 103(37), 13606-13611.
  • the human glia-neuron ratio in the prefrontal
    region did not differ significantly from
    predictions based on brain size.
  • Further analyses of glia-neuron ratios across
    frontal areas in a humans, chimpanzees, and
    macaque monkeys showed that regions involved in
    specialized human cognitive functions, such as
    "theory of mind" (area 32) and language (area 44)
    have not evolved differentially higher
    requirements for metabolic support.
  • Taken together, these findings suggest that
    greater metabolic consumption of human
    neocortical neurons relates to the energetic
    costs of maintaining expansive dendritic arbors
    and long-range projecting axons in the context of
    an enlarged brain.
  • Sherwood et al. (1) provide support for the idea
    that the human brain is more or less a large
    hominoid (ape) brain and can be understood in
    that context.

10
Sense of Smell
  • A minor confirmation by genetic analyses is that
    the human sense of smell is reduced by comparison
    to the chimpanzee
  • both humans and chimpanzees have less sense of
    smell that dogs or mice
  • This can be assessed by counting olfactory
    receptor genes and the proportion of these which
    are inactive (pseudogenes).
  • Humans have a significantly higher proportion of
    these than chimpanzees (Gilad et al., 2005).

11
Olfactory receptor genes Linda Buck Nobel 2004
12
  • Although further detailed distinctive features of
    the human brain may be expected, it is also the
    case that there are some features of the human
    brain, in particular the organization of the
    visual system, where the details in the human
    brain differ very little from those in
    chimpanzees (e.g. Cola et al., 2005 bottom of p
    2 of handout)
  • Thus, in the aspects of organization we
    examined, the inferior pulvinar of chimpanzees
    closely resembles that of humans and monkeys

13
Functional differences language
  • Apart from looking at neurophysiological or
    genetic details, it is possible to give
    hypothetical answers to both the how? and why?
    questions by making assumptions about the new
    psychological capacities subserved by human brain
    evolution,
  • The origin of humans was accompanied by the
    emergence of new behavioural and cognitive
    functions, including language and specialized
    forms of abstract representation. (Caceres et
    al., 2003).

14
  • The two most frequently appealed to candidates
    for new psychological capacities are language and
    an enhanced capacity for social cognition.
  • Language remains a strong candidate for a human
    specialization because chimpanzee abilities
    appear to be so limited (see weeks 10 and 11
    Psychobiology II).
  • There are however several very different
    suggestions as to how this human specialization
    arose.

15
Chomsky pic in guardian
16
(No Transcript)
17
(No Transcript)
18
  • Hauser et al. (2002) for instance, although
    considering other possibilities, favour the
    notion that recursion is the key uniquely human
    component of language,
  • but paradoxically from a Darwinian point of view,
    they argue that recursion probably evolved for
    reasons other than language.
  • Recursion is illustrated by Chomskys well-known
    sentence colourless green ideas furiously
    sleep, which we understand as a grammatically
    correct sentence even though it makes little
    sense.
  • The sequence I will say a very, very long
    sentence I will say a very, very, very long
    sentence and so on is a simpler illustration
    that a principle for combining just a few words
    can generate an infinite number of possible
    utterances.

19
Gentner, T. Q., et al. (2006). Recursive
syntactic pattern learning by songbirds. Nature,
440(7088), 1204-1207
Humans regularly produce new utterances that are
understood by other members of the same language
community. The recursive, hierarchical embedding
of language units (for example, words or phrases
within shorter sentences) that is part of the
ability to construct new utterances minimally
requires a 'context-free' grammar.
Recent hypotheses make the central claim that the
capacity for syntactic recursion forms the
computational core of a uniquely human language
faculty
Here we show that European starlings (Sturnus
vulgaris) accurately recognize acoustic patterns
defined by a recursive, self-embedding,
context-free grammarThus, the capacity to
classify sequences from recursive,
centre-embedded grammars is not uniquely human.
20
They used 8 recorded starling rattles and 8
warbles to make up a total of 4096 stimuli
21
 ii) Darwinian evolution of all parts of the
human language system
  • The Hauser et al. (2002) suggestion tends to
    minimize the role of human evolution because a
    large part of the language system is held to be
    shared with other species, while the uniquely
    human part, recursion, they would prefer not to
    be an adaptation (i.e. not evolved by Darwinian
    selection).
  • Pinker and Jakendoff (2005) supply a lengthy
    argument against the Hauser et al. (2002)
    position, since they had both previously put
    forward the position that human language is a
    system of co-adapted traits that evolved by
    natural selection for the purpose of
    communicating ideas

22
ii) Darwinian evolution of all parts of the human
language system
  • Pinker and Jakendoff believe that the capacity of
    the human brain to handle recursion evolved by
    natural selection, but that many other aspects of
    brain capacity necessary for language,
    particularly for conceptual structure, speech
    perception and speech production, needed to be
    shaped by natural selection as well.
  • Pinker and Jakendoff (2005) are also able to
    appeal to genetic evidence that was not available
    10 years ago.

23
Genes and Language BBC October 01
24
Pinker comments October 2001
25
Wellcome foxp2
26
National Geographic
27
No sign of Foxp2
28
Liegeois 03
29
Nature 2002
  • Language is a uniquely human trait likely to have
    been a prerequisite for the development of human
    culture. The ability to develop articulate speech
    relies on capabilities, such as fine control of
    the larynx and mouth, that are absent in
    chimpanzees and other great apes. FOXP2 is the
    first gene relevant to the human ability to
    develop language. A point mutation in FOXP2
    co-segregates with a disorder in a family in
    which half of the members have severe
    articulation difficulties accompanied by
    linguistic and grammatical impairment. This gene
    is disrupted by translocation in an unrelated
    individual who has a similar disorder. Thus, two
    functional copies of FOXP2 seem to be required
    for acquisition of normal spoken language. We
    sequenced the complementary DNAs that encode the
    FOXP2 protein in the chimpanzee, gorilla,
    orang-utan, rhesus macaque and mouse, and
    compared them with the human cDNA. We also
    investigated intraspecific variation of the human
    FOXP2 gene. Here we show that human FOXP2
    contains changes in amino-acid coding and a
    pattern of nucleotide polymorphism, which
    strongly suggest that this gene has been the
    target of selection during recent human
    evolution.

30
FOXP2 a)
  • Pinker and Jakendoff (p. 218) are able to make
    the point that The possibility that the affected
    people are impaired only in recursion is a
    non-starter.
  • Instead the expression pattern of FOXP2 in both
    mice and humans suggests that it is involved in
    the development of circuits for motor control
    necessary in vocalization (Lai et al., 2003 Shu
    et al., 2005).
  • The fact that there are homologies between humans
    and mice in this respect could be taken to
    support Hauser et al.s point about some aspects
    of human language having a long evolutionary
    history,

31
FOXP2 b)
  • the more conventional Darwinian position would be
    to say that motor control for vocalization has a
    long evolutionary history, but that the uniquely
    human capacity for speech will have necessitated
    special brain mechanisms for the co-ordination of
    articulatory organs which are not shared with
    other species.

32
  • Lai et al. (2003). FOXP2 expression during brain
    development coincides with adult sites of
    pathology in a severe speech and language
    disorder. Brain, 126, 2455-2462.
  • the homologous pattern of FOXP2/Foxp2 expression
    in human and mouse argues for a role for this
    gene in development of motor-related circuits
    throughout mammalian species. Overall, this study
    provides support for the hypothesis that
    impairments in sequencing of movement and
    procedural learning might be central to the
    FOXP2-related speech and language disorder

33
shu
Shu et al. (2005). Altered ultrasonic
vocalization in mice with a disruption in the
Foxp2 gene. Proceedings of the National Academy
of Sciences of the United States of America,
102(27), 9643-9648
  • our findings support a role for Foxp2 in
    cerebellar development and in a developmental
    process that subsumes social communication
    functions in diverse organisms.

34
Teramitsu, I., White, S. A. (2006). FoxP2
regulation during undirected singing in adult
songbirds. Journal of Neuroscience, 26(28),
7390-7394. (not on handout) Our data suggest
that FoxP2 is important not only for the
formation but also for the function of vocal
control circuitry. (In zebra finches)
35
iii) Emergence of language from a number of
language ingredients
  • Elman (1999, 2005) provides yet another account
    of language, which is Darwinian in that it
    emphasises that
  • species-specific biological factors play a
    critical role in the ability of humans to acquire
    and process language (1999, p. 1)
  • but which differs from the account given by
    Pinker in predicting a lack of any genetic
    control of specific cortical micro-circuitry for
    language. Instead
  • language is simply the result of a number of
    tweaks and twiddles which produce changes in
    humans in such things as vocal tract control,
    sociality, imitation and shared attention.

36
Emergence of language from a number of language
ingredients -b)
  • These traits then interact to produce the unique
    human capacity for language.
  • this account comes from the connectionist
    tradition and the emergentist aspect leads to
    the expectation that there will be complex
    developmental trajectories
  • but tweaks and twiddles are entirely consistent
    with Darwinian processes, and changes in vocal
    tract control presumably would need to be brought
    about by something like changes to FOXP2.

37
Elman, 1999, 2005
38
Functional differences social cognition and
theory of mind
  • An alternative function role for the large brains
    of primates has been suggested to be social
    cognition (Jolly 1966 Humphrey, 1976 Barrett
    Henzi, 2005).
  • This has the advantage of applying to the large
    brains of non-human primates, as well as,
    putatively, to humans, but the disadvantage that
    it does not by itself explain human tool using,
  • although the social transmission of tool using
    skills may have been a crucial component of the
    success of this strategy.

39
Functional differences social cognition and
theory of mind
  • Current work on social cognition includes
    evidence that chimpanzees and other great apes
    appear to have skills which might be regarded as
    precursors to a theory of mind,
  • for instance the ability to understand both human
    (Call et al., 2004) and conspecific (Tomasello et
    al., 2003) psychological states,
  • but also points to the severe limitations of
    chimpanzees social cognition by comparison with
    the human case.
  • In particular, chimpanzees can show understanding
    of what a conspecific has or has not seen when
    competing for contested food, but the often show
    surprisingly weak social-cognitive skills in
    tasks which require social co-operation (Hare
    Tomasello, 2004).

40
Blindfolds picture
41
Box 1 of tomasello, call and hare
Tomasello, Call and Hare (2003)
42
Box 1 text
Tomasello, Call and Hare (2003)
43
Box 2 diagram
Tomasello, Call and Hare (2003)
44
Bod 2 text
Tomasello, Call and Hare (2003)
45
Warneken, F., Chen, F., Tomasello, M. (2006).
Cooperative activities in young children and
chimpanzees. Child Development, 77(3), 640-663.
Human children 18 or 24 months of age and 3 young
chimpanzees interacted in 4 cooperative
activities with a human adult partner. The human
children successfully participated in cooperative
problem-solving activities and social games,
whereas the chimpanzees were uninterested in the
social games. As an experimental manipulation, in
each task the adult partner stopped participating
at a specific point during the activity.
All children produced at least one communicative
attempt to reengage him, perhaps suggesting that
they were trying to reinstate a shared goal. No
chimpanzee ever made any communicative attempt to
reengage the partner.
These results are interpreted as evidence for a
uniquely human form of cooperative activity
involving shared intentionality that emerges in
the second year of life.
46
Warneken et al., 2006. Top row, problem solving
tasks, bottom row social tasks
Above, alternative trapdoor task for chimps
47
Functional differences cultural learning and
invention
  • Tomasello Rakoczy (2003) have argued that there
    are two (initial) stages of uniquely human
    social cognition.
  • The first stage is observable in one year olds,
    who have an understanding of other persons as
    intentional agents,
  • This enables them to take part in pretend play,
    and is important as a prerequisite for shared
    attention and early social and linguistic
    learning.
  • The second stage is the Theory of Mind
    belief-desire psychology which normally starts
    around 4 years of age, but which is dependent on
    several years of linguistic communication.
  • These early stages of uniquely human social
    cognition form the basis enable the cultural
    ratchet of social and technological innovation
    (Tomasello et al., 1993 Tomasello, 1999)

48
T and rakoczy
And so if we imagine a human child born onto a
desert island, somehow magically kept alive by
itself until adulthood, it is possible that this
adults cognitive skills would not differ very
much perhaps a little but not very much, from
those of other great apes. (121)
49
Tomasello, M., Carpenter, M., Call, J., Behne,
T., Moll, H. (2005). In search of the uniquely
human - Response. Behavioral and Brain Sciences,
28(5), 721-735
Human beings are the worlds experts at mind
reading. As compared with other species, humans
are much more skillful at discerning what others
are perceiving, intending, desiring, knowing, and
believing.
Our hypothesis for this something additional is
shared intentionality. We propose that human
beings, and only human beings, are biologically
adapted for participating in collaborative
activities involving shared goals and socially
coordinated action plans
50
Tomasello, M., Carpenter, M., Call, J., Behne,
T., Moll, H. (2005). In search of the uniquely
human - Response. Behavioral and Brain Sciences,
28(5), 721-735
Our attempt was to propose a theory of the
social-cognitive and social-motivational bases of
humans ability and propensity to live in this
local, that is, this cultural, way which no
other species does focusing on such things as
the ability to collaborate and to create shared
material and symbolic artifacts
Some. provided alternative magic bullets for
explaining the key features of human cognitive
and social uniqueness.But, in nearly all of
these cases, we find that these alternative
accounts basically sneak in through the back door
one or another form of shared intentionality as a
kind of hidden premise.
51
Saxe, R. (2006). Uniquely human social cognition.
Current Opinion in Neurobiology, 16(2), 235-239.
Recent data identify distinct components of
social cognition associated with five brain
regions
Yellow and red dorsal (shared attn) and ventral
(empathy) medial prefrontal cortex.
Green,blue, purple extrastiate and
temporal-parietal areas for others beliefs and
intentions
Whiteposterior cingulate, general social
cognition
52
Amodio, D. M., Frith, C. D. (2006). Meeting of
minds the medial frontal cortex and social
cognition. Nature Reviews Neuroscience, 7(4),
268-277. listed in week 4 handout
53
Conclusion
  • There is of course no reason to have to choose
    between language and social cognition as the
    drivers of human uniqueness
  • language has social functions (Dunbar, 1993)
  • and Bloom (2000) suggested that theory of mind
    capacities lie behind what happens when children
    learn the meaning words.
  • But in both cases the functional differences are
    at present better understood than the
    neurophysiological details of the special
    features of the human brain which cause the
    functional differences.
Write a Comment
User Comments (0)
About PowerShow.com