Insula Preso
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About This Presentation
The best insular cortex presentation the world has ever seen.
Slide Content
Insula
The Hidden Cortex
Rebecca E. Martin
January, 2009
The Hidden Cortex
Rebecca E. Martin
January, 2009
Insula
The Hidden Cortex
Rebecca E. Martin
January, 2009
The insula is the cortical part of the brain
that is not visible when looking at the
surface of the brain.
The Hidden Cortex
Rebecca E. Martin
January, 2009
The insula is the cortical part of the brain
that is not visible when looking at the
surface of the brain.
the INSULA?
Anatomy
the INSULA?
the INSULA?
Insula is Latin for
Insula is Latin for
ISLAND
ISLAND
The Insula Looks Like a
Seashell
cases, including two in which the MSG was equal to
the ASG in size).
The PSG formed the precentral gyrus of the insula
immediately anterior to the CS in all cases. Typically,
the short insular sulcus separated the ASG from the
MSG, whereas the precentral sulcus of the insula
separated the MSG from the PSG (Table 2). In one
case with absent MSG, the short insular sulcus and
the precentral sulcus merged completely, so they
could not be identified as separate structures.
The apex of the insula was formed by the short gyri
in all cases, but the specific pattern of the short gyri
and the contribution of each short gyrus to the apex
were variable (Fig 1). The ASG contributed to the
apex in 13 cases, the MSG in seven cases, the PSG in
Posterior lobule: The ALG (A) and the PLG (P) form the pos-
terior lobule. InC, the ALG and PLG are well defined and
completely separated by a complete postcentral sulcus
(postCS). InAandB, the ALG and PLG are incompletely sepa-
rated by shallow or incomplete postcentral sulci (postCS). InB,
the dominant ALG forms the pole of the posterior lobule at the
limen, while the PLG appears to branch off the posterior inferior
aspect of the ALG. The superior ends of many of the insular gyri
are bifid.
FIG1.A–C, Anatomy of the convexity surface of the left insular
lobe after resection of the overlying opercula, vessels, and pia-
arachnoid. Gross anatomic specimens from a 50-year-old woman
(A), a 63-year-old man (B), and a 71-year-old man (C). The anterior
PS (APS), superior PS (SPS), and inferior PS (IPS) define the base
of the insular lobe. The oblique CS of the insula subdivides the
insula into larger anterior and smaller posterior lobules.
Anterior lobule: The ASG (a), MSG (m), and PSG (p) form most
of the convexity surface of the anterior lobule. The short insular
sulcus (SIS) separates ASG from MSG. The precentral sulcus
(preCS) separates MSG from PSG. MSG shows variable size and
depression below the surface of the insula. The number of gyri
on the convexity surface of the anterior lobule varies substan-
tially: two inA, three inB, and four inC. The apex (asterisk) of the
insula forms by the convergence of the inferior ends of some or
all of the short gyri. InA, the apex is formed only by the ASG and
PSG, with no contribution from the hypoplastic MSG (most
frequent type). InBandC, all three short gyri contribute to the
apex. The pole (po) of the insula lies at the most anteroinferior point
on the insula, near to but separate from the apex. The accessory
gyrus (ac) forms a variable portion of the upper anterior face of the
anterior lobule and, when large, may contribute to the convexity
surface as well. InA, a prominent accessory gyrus (ac) projects
anterior to the ASG, but does not reach to the convexity surface of
the insula. InC, a very large accessory gyrus (ac) projects laterally
to form the anteriormost gyrus on the convexity surface of the
anterior lobule. The transverse gyrus forms the lower portion of the
anterior face of the insula (see Fig 2).
FIG2. The transverse gyrus and the orbitofrontal insula rela-
tionship. Base view of the orbital surface of the left frontal lobe
after resection of part of the gyrus rectus (GR) and the anterior
portion of the temporal lobe (T). Medial is to the reader’s left.I
indicates olfactory bulb;II, optic chiasm and tract. The H-shaped
orbital sulcus (arrowheads) defines the MOG, POG, anterior
orbital gyrus (AOG), and lateral orbital gyrus (LOG). At the pos-
teromedial aspect of the orbitofrontal surface, the posterior por-
tion of the MOG merges with the medial portion of the POG to
form the prominent PMOL. PMOL gives rise to the transverse
insular gyrus (t) that extends laterally to form the pole (po) of the
insula just anteroinferomedial to the apex (asterisk) of the insula.
The CS (dashed line) curves inferiorly immediately behind and
below the apex and the pole en route to join the stem of the
sylvian fissure. The ASG (a) and the PSG (p) converge to form the
apex of the insula anterior to the CS. In this image, the deliberate
slight rotation used to illustrate the course of the transverse
gyrus from the PMOL to the pole also rotates the apex medially,
so the apex does not appear to lie as far lateral in position as it
would in a true base view.
AJNR: 25, February 2004 THE INSULA 225
Naidich et al., 2004
Seashell
cases, including two in which the MSG was equal to
the ASG in size).
The PSG formed the precentral gyrus of the insula
immediately anterior to the CS in all cases. Typically,
the short insular sulcus separated the ASG from the
MSG, whereas the precentral sulcus of the insula
separated the MSG from the PSG (Table 2). In one
case with absent MSG, the short insular sulcus and
the precentral sulcus merged completely, so they
could not be identified as separate structures.
The apex of the insula was formed by the short gyri
in all cases, but the specific pattern of the short gyri
and the contribution of each short gyrus to the apex
were variable (Fig 1). The ASG contributed to the
apex in 13 cases, the MSG in seven cases, the PSG in
Posterior lobule: The ALG (A) and the PLG (P) form the pos-
terior lobule. InC, the ALG and PLG are well defined and
completely separated by a complete postcentral sulcus
(postCS). InAandB, the ALG and PLG are incompletely sepa-
rated by shallow or incomplete postcentral sulci (postCS). InB,
the dominant ALG forms the pole of the posterior lobule at the
limen, while the PLG appears to branch off the posterior inferior
aspect of the ALG. The superior ends of many of the insular gyri
are bifid.
FIG1.A–C, Anatomy of the convexity surface of the left insular
lobe after resection of the overlying opercula, vessels, and pia-
arachnoid. Gross anatomic specimens from a 50-year-old woman
(A), a 63-year-old man (B), and a 71-year-old man (C). The anterior
PS (APS), superior PS (SPS), and inferior PS (IPS) define the base
of the insular lobe. The oblique CS of the insula subdivides the
insula into larger anterior and smaller posterior lobules.
Anterior lobule: The ASG (a), MSG (m), and PSG (p) form most
of the convexity surface of the anterior lobule. The short insular
sulcus (SIS) separates ASG from MSG. The precentral sulcus
(preCS) separates MSG from PSG. MSG shows variable size and
depression below the surface of the insula. The number of gyri
on the convexity surface of the anterior lobule varies substan-
tially: two inA, three inB, and four inC. The apex (asterisk) of the
insula forms by the convergence of the inferior ends of some or
all of the short gyri. InA, the apex is formed only by the ASG and
PSG, with no contribution from the hypoplastic MSG (most
frequent type). InBandC, all three short gyri contribute to the
apex. The pole (po) of the insula lies at the most anteroinferior point
on the insula, near to but separate from the apex. The accessory
gyrus (ac) forms a variable portion of the upper anterior face of the
anterior lobule and, when large, may contribute to the convexity
surface as well. InA, a prominent accessory gyrus (ac) projects
anterior to the ASG, but does not reach to the convexity surface of
the insula. InC, a very large accessory gyrus (ac) projects laterally
to form the anteriormost gyrus on the convexity surface of the
anterior lobule. The transverse gyrus forms the lower portion of the
anterior face of the insula (see Fig 2).
FIG2. The transverse gyrus and the orbitofrontal insula rela-
tionship. Base view of the orbital surface of the left frontal lobe
after resection of part of the gyrus rectus (GR) and the anterior
portion of the temporal lobe (T). Medial is to the reader’s left.I
indicates olfactory bulb;II, optic chiasm and tract. The H-shaped
orbital sulcus (arrowheads) defines the MOG, POG, anterior
orbital gyrus (AOG), and lateral orbital gyrus (LOG). At the pos-
teromedial aspect of the orbitofrontal surface, the posterior por-
tion of the MOG merges with the medial portion of the POG to
form the prominent PMOL. PMOL gives rise to the transverse
insular gyrus (t) that extends laterally to form the pole (po) of the
insula just anteroinferomedial to the apex (asterisk) of the insula.
The CS (dashed line) curves inferiorly immediately behind and
below the apex and the pole en route to join the stem of the
sylvian fissure. The ASG (a) and the PSG (p) converge to form the
apex of the insula anterior to the CS. In this image, the deliberate
slight rotation used to illustrate the course of the transverse
gyrus from the PMOL to the pole also rotates the apex medially,
so the apex does not appear to lie as far lateral in position as it
would in a true base view.
AJNR: 25, February 2004 THE INSULA 225
Naidich et al., 2004
LimenCentral
Insular
Sulcus
Gray’s Anatomy
Insular
Sulcus
Gray’s Anatomy
Anterior
LimenCentral
Insular
Sulcus
Gray’s Anatomy
connects to
limbic
structures
i.e.
amyg
thalamus
hippocamp
LimenCentral
Insular
Sulcus
Gray’s Anatomy
connects to
limbic
structures
i.e.
amyg
thalamus
hippocamp
Anterior
Posterior
LimenCentral
Insular
Sulcus
Gray’s Anatomy
associated with
somatosensory areas,
pain pathways
connects to
limbic
structures
i.e.
amyg
thalamus
hippocamp
Posterior
LimenCentral
Insular
Sulcus
Gray’s Anatomy
associated with
somatosensory areas,
pain pathways
connects to
limbic
structures
i.e.
amyg
thalamus
hippocamp
The Insula’s
Neighborhood
Neighborhood
It is covered by the operculum
It is covered by the operculum
It is covered by the operculum
It is covered by the operculum
It is covered by the operculum
Thanks for the pics, Dianne and Hendrik!
Thanks for the pics, Dianne and Hendrik!
Adjacent to the lateral ventricle
REVIEW!
Insula
TÜRE et al., 1999
Insula
TÜRE et al., 1999
REVIEW!
Insula
TÜRE et al., 1999
Insula
TÜRE et al., 1999
REVIEW!
Insula
TÜRE et al., 1999
Insula
TÜRE et al., 1999
REVIEW!
Insula
TÜRE et al., 1999
Insula
TÜRE et al., 1999
REVIEW!
Insula
TÜRE et al., 1999
Insula
TÜRE et al., 1999
REVIEW!
Insula
TÜRE et al., 1999
Insula
TÜRE et al., 1999
REVIEW!
Insula
TÜRE et al., 1999
Insula
TÜRE et al., 1999
Medial to the Insula
TÜRE et al., 2000
TÜRE et al., 2000
Vascularization
TÜRE et al., 2000
TÜRE et al., 2000
Vascularization
TÜRE et al., 2000
TÜRE et al., 2000
Vascularization
TÜRE et al., 2000
TÜRE et al., 2000
Vascularization
TÜRE et al., 2000
The Insula is fed entirely by the middle cerebral artery
TÜRE et al., 2000
The Insula is fed entirely by the middle cerebral artery
More Arteries
Embryology
Afif et al., 2007
Afif et al., 2007
Embryology
Afif et al., 2007
Afif et al., 2007
Embryology
Afif et al., 2007
Afif et al., 2007
Embryology
Afif et al., 2007
Afif et al., 2007
Embryology
Afif et al., 2007
Afif et al., 2007
Embryology
Afif et al., 2007
Afif et al., 2007
Embryology
Afif et al., 2007
Afif et al., 2007
Embryology
Afif et al., 2007
Afif et al., 2007
Embryology
Afif et al., 2007
Afif et al., 2007
Embryology
Afif et al., 2007
Afif et al., 2007
Architecture and Histology
Chikama, et al., 19970
Chikama, et al., 19970
Anterior
Posterior
LimenCentral
Insular
Sulcus
Gray’s Anatomy
granular
agranular
dysgranular
Posterior
LimenCentral
Insular
Sulcus
Gray’s Anatomy
granular
agranular
dysgranular
Augustine, 1996
granular
dysgranular
agranular
granular - 6 layers
dysgranular - 5-ish layers
agranular - 5 or less layers
granular
dysgranular
agranular
granular - 6 layers
dysgranular - 5-ish layers
agranular - 5 or less layers
Augustine, 1996
granular
dysgranular
agranular
granular - 6 layers
dysgranular - 5-ish layers
agranular - 5 or less layers
Wow, that’s similar
to the OFC and the
Cingulate!
granular
dysgranular
agranular
granular - 6 layers
dysgranular - 5-ish layers
agranular - 5 or less layers
Wow, that’s similar
to the OFC and the
Cingulate!
Phylogeny
Manger, et al., 1998
Spindle Cells
Manger, et al., 1998
Spindle Cells
Phylogeny
Manger, et al., 1998
Spindle Cells
are only found in
cingulate and insular
regions
Manger, et al., 1998
Spindle Cells
are only found in
cingulate and insular
regions
Connectivity
TÜRE et al., 1999
Major Fiber Tracts Surrounding Insula
Major Fiber Tracts Surrounding Insula
TÜRE et al., 1999
Major Fiber Tracts Surrounding Insula
Major Fiber Tracts Surrounding Insula
TÜRE et al., 1999
Major Fiber Tracts Surrounding Insula
Major Fiber Tracts Surrounding Insula
EFFERENT CONNECTIONS
Augustine, 1996
Augustine, 1996
AFFERENT CONNECTIONS
Augustine, 1996
Augustine, 1996
Augustine, 1996
Augustine, 1996
Function
NYTimes, 2007
autonomic (e.g.
cardiac rhythm)
gustatory
subjective feeling
cravings
singing!
auditory
visual - awareness,
monitoring
vomiting!
NYTimes, 2007
autonomic (e.g.
cardiac rhythm)
gustatory
subjective feeling
cravings
singing!
auditory
visual - awareness,
monitoring
vomiting!
But Also...
Olfactory (close to
olfactory bulbs!)
Post-stroke recovery of
motor function
Associated with neglect
Thermal heat pain
Olfactory (close to
olfactory bulbs!)
Post-stroke recovery of
motor function
Associated with neglect
Thermal heat pain
Connectivity Between the Amygdala and Insula
Morris, 2002
Morris, 2002
A Primary Gustatory Area
Taste (lesion studies
indicate taste intensity
and recognition problems)
Taste (lesion studies
indicate taste intensity
and recognition problems)
A Primary Gustatory Area
Taste (lesion studies
indicate taste intensity
and recognition problems)
Fun fact: Taste info from
both sides of mouth
passes though left insula
Taste (lesion studies
indicate taste intensity
and recognition problems)
Fun fact: Taste info from
both sides of mouth
passes though left insula
The Insula is:
A Visceral Sensory Area
Role in integration of
multimodal sensory
information, gut feelings,
disgust, temperature
perception, pain recognition
Interoception i.e. “How We
Feel”
Activation Studies
A Visceral Sensory Area
Role in integration of
multimodal sensory
information, gut feelings,
disgust, temperature
perception, pain recognition
Interoception i.e. “How We
Feel”
Activation Studies
Interoception
◦ subjective feelings, emotion, self-awareness (Craig, 2009, 2002;
Critchley, 2004)
◦ subjective feelings, emotion, self-awareness (Craig, 2009, 2002;
Critchley, 2004)
TÜRE et al., 1999
View of Insula and Uncus
View of Insula and Uncus
The (left) Insula is also:
Involved in Language and Memory
Part of an “articulatory loop”
Coordinates speech articulation
Singing!
(Right insula may mediate control of vocal tract)
Insula lesions have been noted to cause aphasia
Part of network involved in verbal memory - mental navigation
along memorized routes (hippocampus -> precuneus -> insula)
Humor (particularly gag and language humor, Watson et al., 2006)
Involved in Language and Memory
Part of an “articulatory loop”
Coordinates speech articulation
Singing!
(Right insula may mediate control of vocal tract)
Insula lesions have been noted to cause aphasia
Part of network involved in verbal memory - mental navigation
along memorized routes (hippocampus -> precuneus -> insula)
Humor (particularly gag and language humor, Watson et al., 2006)
The Insula:
Is associated with certain types of
mental illness
Early Alzheimers (atrophy)
Schizophrenia (abnormalities, e.g. decreased
grey matter)
OCD, PTSD, Anxiety, Depression
May Play a Role in Addiction
Conscious urges to take drugs (Naqvi,
Bechara, Damasio, 2008)
Lesion Studies
Is associated with certain types of
mental illness
Early Alzheimers (atrophy)
Schizophrenia (abnormalities, e.g. decreased
grey matter)
OCD, PTSD, Anxiety, Depression
May Play a Role in Addiction
Conscious urges to take drugs (Naqvi,
Bechara, Damasio, 2008)
Lesion Studies
Proposed Drug Craving Pathways
References
Afif, A., Bouvier, R., Buenerd, A., Trouillas, J., & Mertens, P. (2007). Development of the human fetal insular cortex:
study of the gyration from 13 to 28 gestational weeks. Brain Structure and Function, 212(3), 335-346.
Augustine, J. R. (1996). Circuitry and functional aspects of the insular lobe in primates
including humans. Brain Research Reviews, 22(3), 229-244.
Augustine, J. R. (1985). The insular lobe in primates including humans. Neurological Research, 7(1), 2-10.
Balleine, B. W., & Dickinson, A. (2000). The Effect of Lesions of the Insular Cortex on Instrumental Conditioning:
Evidence for a Role in Incentive Memory. J. Neurosci., 20(23).
Cereda, C., Ghika, J., Maeder, P., & Bogousslavsky, J. (2002). Strokes restricted to the insular cortex. Neurology,
59(12), 1950-1955.
Craig, A. (. (2003). Interoception: the sense of the physiological condition of the body. Current Opinion in
Neurobiology, 13(4), 500-505.
Critchley, H. D., Wiens, S., Rotshtein, P., Ohman, A., & Dolan, R. J. (2004). Neural systems supporting interoceptive
awareness. Nat Neurosci, 7(2), 189-195.
Manger, P., Sum, M., Szymanski, M., Ridgway, S., & Krubitzer, L. (1998). Modular Subdivisions of Dolphin Insular
Cortex: Does Evolutionary History Repeat Itself? Journal of Cognitive Neuroscience, 10(2), 153-166.
Morris, J. (2002). How do you feel? Trends in Cognitive Sciences, 6(8), 317-319.
Nagai, M., Kishi, K., & Kato, S. (2007). Insular cortex and neuropsychiatric disorders: A review of recent literature.
European Psychiatry, 22(6), 387-394.
Naidich, T. P., Kang, E., Fatterpekar, G. M., Delman, B. N., Gultekin, S. H., Wolfe, D., et al. (2004). The Insula:
Anatomic Study and MR Imaging Display at 1.5 T. AJNR Am J Neuroradiol, 25(2), 222-232.
Naqvi, N. H., Rudrauf, D., Damasio, H., & Bechara, A. (2007). Damage to the Insula Disrupts Addiction to Cigarette
Smoking. Science, 315(5811), 531-534.
Oppenheimer, S. (2006). Cerebrogenic cardiac arrhythmias: Clinical Autonomic Research. Clin Auton Res, 16(1),
6-11.
Türe U, Yasargil DCH, Al-Mefty O, Yasargil MG. (1999). Topographic anatomy of the insular region. J Neurosurg,
90, 720 –733
Türe U, Yasargil MG, Al-Mefty O, Yasargil DCH. (2000). Arteries of the insula. J Neurosurg, 92:676 – 687
Afif, A., Bouvier, R., Buenerd, A., Trouillas, J., & Mertens, P. (2007). Development of the human fetal insular cortex:
study of the gyration from 13 to 28 gestational weeks. Brain Structure and Function, 212(3), 335-346.
Augustine, J. R. (1996). Circuitry and functional aspects of the insular lobe in primates
including humans. Brain Research Reviews, 22(3), 229-244.
Augustine, J. R. (1985). The insular lobe in primates including humans. Neurological Research, 7(1), 2-10.
Balleine, B. W., & Dickinson, A. (2000). The Effect of Lesions of the Insular Cortex on Instrumental Conditioning:
Evidence for a Role in Incentive Memory. J. Neurosci., 20(23).
Cereda, C., Ghika, J., Maeder, P., & Bogousslavsky, J. (2002). Strokes restricted to the insular cortex. Neurology,
59(12), 1950-1955.
Craig, A. (. (2003). Interoception: the sense of the physiological condition of the body. Current Opinion in
Neurobiology, 13(4), 500-505.
Critchley, H. D., Wiens, S., Rotshtein, P., Ohman, A., & Dolan, R. J. (2004). Neural systems supporting interoceptive
awareness. Nat Neurosci, 7(2), 189-195.
Manger, P., Sum, M., Szymanski, M., Ridgway, S., & Krubitzer, L. (1998). Modular Subdivisions of Dolphin Insular
Cortex: Does Evolutionary History Repeat Itself? Journal of Cognitive Neuroscience, 10(2), 153-166.
Morris, J. (2002). How do you feel? Trends in Cognitive Sciences, 6(8), 317-319.
Nagai, M., Kishi, K., & Kato, S. (2007). Insular cortex and neuropsychiatric disorders: A review of recent literature.
European Psychiatry, 22(6), 387-394.
Naidich, T. P., Kang, E., Fatterpekar, G. M., Delman, B. N., Gultekin, S. H., Wolfe, D., et al. (2004). The Insula:
Anatomic Study and MR Imaging Display at 1.5 T. AJNR Am J Neuroradiol, 25(2), 222-232.
Naqvi, N. H., Rudrauf, D., Damasio, H., & Bechara, A. (2007). Damage to the Insula Disrupts Addiction to Cigarette
Smoking. Science, 315(5811), 531-534.
Oppenheimer, S. (2006). Cerebrogenic cardiac arrhythmias: Clinical Autonomic Research. Clin Auton Res, 16(1),
6-11.
Türe U, Yasargil DCH, Al-Mefty O, Yasargil MG. (1999). Topographic anatomy of the insular region. J Neurosurg,
90, 720 –733
Türe U, Yasargil MG, Al-Mefty O, Yasargil DCH. (2000). Arteries of the insula. J Neurosurg, 92:676 – 687
Thanks!
NYTimes, 2007
NYTimes, 2007
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