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Automated image analysis of disturbed cytoarchitecture in Brodmann area 10 in schizophrenia: A post-mortem study
J+og. Neum-FsydwpharmawL
(P Rid. Psych&.
2000,
Comght
Vd.
0 2000
24, pp. 1093-l
FTinted in the USA.
Au lights resavcd
0278-6646/OO/&sce
YASUHIRO
KAWASAKI’,‘,
KAI VOGELEY’, VOLKER JUNG’, RALF TEPEST’, AXEL SCHLEICHER’ and PETER FALKAI’
front matter
HELGE HUTTE’,
‘Dept. of Psychiatry, University of Bonn, Bonn, Germany ‘Department of Neuropsychiatry, Kanazawa University, Japan %Iogt Institute of Brain Research, Univ. of Duesseldorf, Duesseldorf, Germany
(Final form, September 2000)
Kawasaki, Yasuhiro, Kai Vogeley, Volker Jung, Ralf Tepest, Helge Hijtte, Axe1 Schleicher and Peter Falkai: Automated image analysis of disturbed cytoarchitecture in Brodmann area 10 in schizophrenia: A post-mortem study. Prog. Neuro-Psychopharmacol. & Biol. Psychiat.. 2OO0, 24, pp. 1093-l 104. @2000 Elawier Science Inc. 1.
2.
3.
4.
Among different etiological concepts in schizophrenia research is the disconnectron Adequate empirical research requrres hypothesis involving distributed brain regions. correlational studies of multiple brain regions. In this pilot study, the authors therefore tested the applicability of an automated image analysis device as a scanning tool to detect cytoarchitectural abnormalities in Brodmann area (BA) IO. The authors applied the gray level index (GLI) method as automated image analysis on 10 The GLI as perikarya-neuropil-ratio IS schizophrenic brains compared to 10 controls. obtained as the ratio between the area covered by cellular cross sections and the area of the total measuring field in 101 continous measuring fields from pial surface to the cortrcal depth. Resulting data provide a specific cytoarchitectonic profile curve. An analvsrs was performed separately for mean GLI and GLI values in six compartments coverrng approximately the different cortical laminae. A statistically significant reduction of the mean GLI was demonstrated in the schizophrenic group covering laminae Ill to VI, as detected by multivariate analysis and corroborated by univariate analyses and t-tests. This result clearly underlines a cytoarchitectonic disturbance with a perikarya-neuropll-ratro reduction in BA IO, that is associated with schizophrenia. This is suggestive either of an increased neuropil fraction or a decreased neuronal perikarya fraction. The latter could either be due to a volume or a total number reduction of neuronal perikarya. These data are compatible with previously published data on cell loss in schizophrenics in BA 10.
Kevwords
automated
image
analysis,
Brodmann
area 10, cytoarchitecture,
prefrontal
cortex,
schizophrenia. Abbrevlatlons: interest
Brodmann
area (BA), gray
level index
IROI).
1093
(GLI), prefrontal
cortex
104
Elsevicr Science Inc.
(PFC), region
of
1094
et al.
Y. Kawasaki Introduction Schizophrenia
temporal
research
lobes,
Identify
the limbic
a single
disturbance
syndrome
substantial pathological
changes lobe
clngulate
gyrus
pathological
changes,
1988,
Schlaepfer
1999)
and post
al., 1986,
1991,
1996).
prefrontal
Notably,
to
of a
undergo
evidence
cortex
for
(PFC),
the
gyrus,
the
The PFC undergoes 1986,
neuropsychological respect
regions
temporal
1998). et al.,
failed
to a complex
empirical
superior
(Andreasen
special
1998).
brain
is
and Falkai,
et al., 2000),
1995,
the
studies
and
the hypothesis leading
several
the
and
studies
with
however, Thus,
There
comprising
(Vogeley
the latter
et al.,
concept,
of the frontal
Shelton
et al.,
data (Vogeley
et al.,
to cytoarchitecture
Benes et al. 11986,
(Benes et
1991)
reported
cell loss in layers III and V in BA 10.
IS necessary
this disconnection
to examine
pathological
multiregional
correlational
image
(Schleicher
and
independent,
fast,
differences
of neuronal
is the first
study
abnormalities
scanning
In this pllot
study
device
the
for
reproducible,
perikarya,
et
applies
tools
gray
1999).
al.,
perikarya
The
related
cell nuclei
it
with
of
such
a
to detect
the potentially
morphological
studtes.
level index the GLI
automated
of GLI are detectable.
the GLI method
of
sample,
the results
brain samples
are needed
the so-called
glial and endthelial
and to correlate
to more detailed
and objective
of stained
In a post mortem
To examine
characterization
Schleicher
in the density
which
fast
forwarded
the area percentage
lnterlaminar
brain sites,
are then
1990,
highly
of schizophrenia
brain sites in one brain sample
approach,
analysis Zilles,
hypothesis
of different
which
we employed
automated
measures
multlple
changes
brain regions,
this purpose,
volume
Vogeley
sites,
brain structures
formation
by imaging
studies,
Selemon
this
regions
structures
et al., 1994, mortem
In order to study
relevant
brain
hippocampal
as shown
different
Following
pathology
schizophrenia.
(Welnberger,
in multiple
and subcortical
subcortical
underlying
involving
changes
the
for distributed
and multiple
is proposed.
including
evidence
pathology
network
pathological
temporal
putative
system
site of brain
in a distributed
disconnection
pyramidal
has generated
(GLI) method
cytoarchitectural method
image
For
profile
is an
analysis
as
observer-
device,
which
to the area of the measuring
field.
The GLI is an estimate
of the total
(Schleicher
1990).
as scanning
tool
and Zilles,
to detect
This
cytoarchitectural
in schizophrenia.
Methods Brain Collection BA 10 was studied
post
age- and sex-matched given
inTable
controls,
1. Before
from the responsible
mortem
all collected
autopsy,
authority
in brains
informed
from
10 cases of schizophrenia
between consent
1985
and 1995.
was obtained
In cases under legal care. These
compared
Demographic
from the nearest procedures
were
to 10
data are relative,
approved
or by
Qtoarchitecture the local ethics obtained.
committee
Patients
myocardial
satisfied
both
any neurologic relative.
were
illness
excluded
to DSM-III-R
fixation,
a reference
the
criteria,
removed
callosum.
The tissue
cases
the
All cases
had no history
of
from the nearest
hemispheres
occipital
wrth
of schizophrenia review.
and interview
from
and
the brains were
arteriosclerosis
on chart
Control
to chart review
temporal
where
The diagnoses
based
for schizophrenia.
the
1095
cancer,
from the study.
PFC was
line joining
Dusseldorf,
fmetastatic
and ICD9
disease according
of the genu of the corpus
Stainina
poles
wrth
was then embedded
usrng the
a cut
posterror
In paraffin.
and lmaae Acauisition
Serial level
systemic
and ICD9 criteria
formalin
to
boundary
or stroke)
or psychiatric
After
orthogonal
severe
according DSM-III-R
area 10 in Schizophrenia
of the Heinrich-Heine-Universitlt
with
infarction
was established
of Brodmann
sections,
of genu
(Merker,
20 urn in thickness,
of the
1983)
microscoprc pole with
corpus
clearly
distinct
which
is not
as densely
poles
were
were examined
covering
6 different
overall
structural
uniformity
a CCD-video
a Marzhluser
each field of view
of Interest
GLI measurements
the selected
(Wetzlar,
defined,
attached
was 25x. Germany).
Images
Using
measuring
fields
with
were
a video
to a square microscopical
into square
areas.
stamrng
uniform
lamma
III,
sections
from
the
3 serial
original
sulcus.
each
based
were
microscope acquired frame
Cases
case numbers.
In ROI
on the
to the surface, Images
In
of the frontal
of ROls was
to a light
the
inspection
3 per hemisphere,
The selection
ROI and adjacent
from
silver
by visual
the frontomarginal
of cells perpendicular
Japan),
Lens magnification table
Gallyas
Ill and V, rather
and substituting
(ROls) were
to anterior,
in the rostra1 portion
covering
25 x 25 mm.
XC75CE,
Modified
cells as BA 46.
by covering
the orientation
corresponded
frame was subdivided
pyramidal
for the diagnosis
(Sony
scanning
regrons
with
through
6.3 x 1.25, Germany).
cell-sparse
for the measurement,
section,
camera
pole.
posterior
50”’ slice. BA 10 was deftned
packed
regions
of histological
frontal
from
II and IV, wade laminae
an area of approximately
quality
starting
laminae
selected
blinded
cut,
to the
on every
identifying
frontal
each case,
callosum
was performed
images
were
and the
acquired
with
(Zeiss Planpro”
automatically
of 512
x 512
field of approximately
with ptxels,
165 pm. Each
25 x 25 urn per hemisphere,
in which
were performed.
lmaae Processing Image analysis Images applied sectron. threshold, (Fig.
were
was performed
obtained
resulting Adaptive
as digitized
in an image
the
with
was
was
level
Image Analyzer images
(Fig.
for inhomogeneities
used
the gray
threshold
IBAS 2000 gray
adjusted
threshold
established
1 b). Thus,
with
for
segmentation
level histogram determined
la).
with
Eching,
A shading
in staining
appearance
on each
(Kontron,
intensity
correction
was
throughout
the
a ROI-dependent of pyramidal
ROI separately
Germany).
gray
value
cells in layer Ill
and was
observer-
Y. Kawasaki
1096 independent. performed
To correct
lndrvidual to
the whole
profiles
300
according
due to local generated profile
structural
from
a total
comprised
with
laminae
measuring
(lamrna
IV),
69-83
fields
(7 profiles following
V),
84
101
and
fields
in width
ending
in the
profiles
by identifying
(correspondrng white
matter
per case
profiles was
to the cortical GLI profiles across
isolated.
thus
depth,
were then
all laminae
was
For this purpose,
the
local maxima
appearance.
were generated
ROls). The resulting
(Fig. Ic).
the mean GLI value were
border.
in individual
The GLI profile
the pial surface
laminae
in measuring
to the same relative
Thus, distortions
depth
was
(Bit Pad One, Summagraphics,
were standardized
from
operation
then acquired
per ROI in 6 different
by their histological I), 14
filling
to the gray-white-matter
tablet
out.
the cortical
defined
1 - 13 (lamina
(lamina
ruled
the six different were
were
1). 42 individual
thickness
From the GLI profile,
In addition,
surface
a digitizing
were
in GLI throughout
processing.
pial
and averaged.
points,
(Fig. 2), corroborated
covered
varying
et al. (1976)
of 7 x 6 profiles
of the different
first derivative
with
inhomogeneities
variations
(Fig. Id).
at the
a binary
13 measuring
(SUN Spare Station
101 measuring
for further
calculated borders
along a line with
starting
The profiles
GLI values
from the pial surface
was performed
to Hudspeth
thus describrng stored
depth
USA) and a workstation
in each hemisphere. width
‘pm),
This procedure
Fairfield,
(Wree et al., 1982). cortical
were extracted
approximately
boundary.
for holes in the area of the perikaryon,
after thresholding
fields spanning
et al.
and minima
The six different
in the lamrnae
- 23 (lamina II), 24 - 55 (lamina Ill), 56 - 68
flamina
VI).
Cortex
thickness
was
not
measured
systematically.
Fig. 1. This sketch illustrates the automated image analysis procedure. The cortex is completely scanned (left to right = pial surface to white matter border zone), covering several mm over the cortical surface (al. Images are then binarized (b) and measured in the individual measuring fields, different densrty values are obtained as mean gray level values, depicted as graytones (c). Parallel to the laminar cortex organisation average values are calculated as depicted for illustration in Id).
Cytoarchitecture
1097
of Brodmann area 10 in Schizophrenia
Fig. 2. These curves demonstrate the average cytoarchitectonic profile covering the whole cortical depth. The profiles of normals (closed line) and schizophrenics (dotted line) do not differ in shape, however, the GLI values are significantly reduced in laminae III - VI. Different iaminae are segmented according to microscopic inspection and local maxima in the first derivative (gray line, bottom).
Statistical
Analvsis
Demographic usrng t-tests cortical
analysrs
values
of
investigate dependent
was
covering
results,
to
with
diagnosis,
from the multrvariate unpaired
potentrally
samples,
analysts
where
fixation
confounding
were followed
as fixed
by univariate
GLI value
two-sided)
six
For statlstrcal were
Secondly,
laminae
used
significant
and subsequent
to
on the
multivariate
as dependent
Thirdly,
analyses
over total of the
and brain weight
variables.
factors.
groups
These compartmental
per lamina.
time,
control
the curve)
laminae.
volume
of the six different
sex and hemisphere
under
(Pearson,
time,
and the
mean total
(area
neuronal
calculations
for the mean GLI and GLI values
used
were
the six different
of age, post-mortem detect
schizophrenic
GLI values
of the total
correlative
effects
the
variables
of the
approximately
estimates
firstly,
variables
between
Dependent
calculations
provide
possible
compared
samples.
and integral
compartments
GLI integral
were
for unpaired
depth
different
analysis
variables
variables findings t-tests
for
applicable
Results Demoaraphrc Descriptive reported
Data statistics
In Table
of
variables
that
1. At first hospitalization
male schizophrenics
It
significantly
than
heavier
= -2.803, brains
df
=
of female
might
possibly
female
schizophrenics
15.063, patients
influence
p = 0.013). (t = 4.087,
the
were Brains df
=
measurements
significantly
are
older than
of male patients 18, p = 0.001).
were The
1098
Y. Kawasaki et al.
mean duration was
not
of illness
in male patients
statistically
significant
between
the groups
drfferences
(t
=
was
longer
1.328,
df
than
=
in female
16.107,
for mean age of death,
p
=
post mortem
patients,
however,
0.203).
No significant
delay or formalin
this
fixatron
trme were observed. Table 1 Demographic
Data Males
Controls
T Age of Death (yrs) Disease duration
5
sdev
n
54.60
6.54
5
51.80
5.54
5
22.00
4.95
5
29.80
4.44
(yrs)
Frrst hospitalization
(vrs)
Brarn Weight
(g)
Post Mortem
Delay (hrs)
Formalin
Schizophrenics
M
Time (days)
m
sdev
1408.00
113.67
5
1475.00
56.86
40.80
20.07
5
43.20
20.08
906.40
1557.68
5
1045.40
1380.78
Females Controls N Age of Death (yrs) Drsease duration
5
Brain Weight
(g) Delay (hrs)
of Potentiallv
variables mortem
of
age (r = delay
5
58.80
11.26
5
23.75
12.23
5
33.75
10.63
95.13
5
1217.90
83.03
24.00
0.00
5
36.00
24.00
466.00
359.65
5
1199.00
1 101.63
1200.00
n: cases, m: mean, sdev: standard
In the
13.24
60.60
Formalin Time (days)
Correlations
n
(vrs)
Post Mortem
separately.
sdev
(yrs)
Frrst hospitalization
Correlations
the
Confoundina dependent
control 0.559,
(r = -0.523,
with
Deoendent
variables
group,
the
p =
were
dependent
O.OlO),
p = 0.018).
brain
these vanables
as confounding
were not included analysis
sdev
Vary&&
calculated variables
weight
In contrast
wrth
for multrvariate
m
deviation
mean GLI value did not correlate
as required
Schizophrenics
M
(r =
variables,
both
-0.459,
to this,
any of the potentially
for
correlated
diagnostic
significantly p =
0.042),
in the schizophrenia
confounding
variables.
as the preconditions
groups, with
the
and post group
the
Therefore,
for covariates
were not fulfilled.
GLI Analvsis Descnptive multivariate
statistics
of GLI measurements
and univariate
analyses,
where
are listed applicable,
in Table
are given
2. Significant
results
from
in Table 3. For the mean GLI
Cytoarchitecture analysis,
a statistically
significant
df = 6, 27, p = 0.025). any interaction
term.
covering
six
the
dragnostic curve
groups
integrals
the significant
of Brodmann
impact
whereas
different
coverrng
performed
demonstrated
Ill to laminae
lamina
differences
analysis,
laminae,
for laminae
was only found
for the factor
there was no significant
The univariate
assessed
influence
a
of gender,
significant t-tests
VI. separately.
by univarrate
diagnosis
for the different
VI. Subsequent
III to lamina
1099
area 10 in Schizophrenia
analysis
(F = 5.564, hemisphere
areas under the curve
difference were
Comparing
or
between
performed
the
for the GLI
the diagnostic
groups,
were corroborated.
Table 2 Descriptive
Statistics Males
Controls
Schizophrenics
GLI Mean GLI Lam I
Sdev
n
14.94 107.72
24.23
18.00
2.69
5
156.33
46.16
5
sdev
GLI
1.55
Lam II
185.44
30.23
5
154.69
23.03
lam Ill
597.55
79.81
5
502.83
54.41
lam IV
263.38
36.42
5
222.39
24.58
lam V
288.81
41.47
5
247.16
21.69
lam VI
326.66
47.09
5
275.14
24.27
Females Controls
sdev
sdev
N
GLI
18.57
2.60
5
17.54
3.35
163.39
40.90
5
159.29
61.39
mean GLI lam I
Schizophrenics
GLI
lam II
186.93
21.71
5
181.06
37.95
lam Ill
611.94
86.70
5
591.86
105.95
lam IV
269.97
34.14
5
251.85
41.09
lam V
302.30
43.84
5
279.51
46.68
lam VI
340.98
38.88
5
308.31
59.42
n: cases, GLI: GLI integral (area under the curve) covering fields of one lamina, sdev: standard deviation of one
measuring
Table 3 ANOVA
and T-test .-.
ANOVA F
(factor df ”
diagnosis)
t-test P
t
(factor df ”
diagnosis) P
Mean GLI
5.564
1, 32
0.025
2.362
38
0.023
Lam I
3.093
1, 32
0.088
1.742
38
0.090
Lam II
3.725
1, 32
0.063
1.945
38
0.059
Lam III
4.432
1, 32
0.043
2.078
38
0.045
Lam IV
6.714
7, 32
0.014
2.641
38
0.012
Lam V
6.027
1, 32
0.020
2.507
38
0.017
Lam VI
8.245
1, 32
0.007
2.954
38
0.005
” Hypothesis
degree of freedom,
Error degree of freedom.
1100
Y. Kawasaki et al.
Thrs study
demonstrates
agarnst controls GLI method comparison
significant
changes
in BA 10 as assessed
developed
by
to previous
in the cytoarchitectural
profile
of schizophrenrcs
by the observer-independent
automated
image analysis
and Zilles
to discuss
the
Schleicher
cytoarchitectural
(19901.
studies,
In order
the method
must be critically
results
in
evaluated.
Methodoloav The GLI is defined measurrng
field.
compartment
The stained
represents
factors
comprrsrng
starnrng
rntenslty,
brnanzatron The
as the area percentage
and
mainly
the
size
absolute
of
compartments neuronal
value
starned
of structures
contributrng,
structures
density
in relation
perikarya,
on different
thickness
to the threshold
to the
the unstained
of GLI depends
structures,
according
and different
includes
species
in different
of
sectrons,
used for image
1973,
stated,
In Nrssl-stained
that
clear distinction a potentially
sections,
using
schrzophrenra, neurodegeneratrve
is
no
drsease
by Harrison
on which
many
along
on neuronal respect
support
for
schizophrenics
the
of studies
and controls,
(Nurnberger,
impossible.
the
that
in glial
cell
would
Tower
be clearly
were
done,
of for
condition
of
density,
there
a
also apply
schizophrenia
on glial cells revealed that
constant
1958,
So the problem
pathological
view,
suggesting
non-neuronal
it must
studies
and
in different
of as an additive,
cell counts
to
an increase
The vast majority
of these
of stereological
With
with
density
In addition,
is virtually
used as an
Schleicher
As studied
curves
et al., 1986).
1986,
cells.
be thought
Schleicher
convincing
going
(1999).
between
the volume
and can thus
sections.
et al.,
glial and endothelial
glial cell populations
Nissl-stained
there
Schleicher
glial cells and small neurons
contaminating
studies
1982,
the shape of the GLI profile
Wree et al., 1980,
between
by the GLI and can be reliably
demonstrated,
laminae
but not influencing
and Young,
is measured
(Wree et al.,
Thus measurement
regions
drfferences
density
of stained
for the volume
reviewed
represents
Basically,
and discrimrnation
cells do not differ
all
by stained
(Wree et al., 198.2).
Z~lles, 1990). cortical
neuropil.
packing
areal densrty
estimate
compartment
covered
IS a
as recently no significant
is no contamination
wrth glta cells (Falkar et al., 1999). The GLI value does show (Wree et al., 1982). the gurnea
In this
study,
pig in Nissl stained
62.5%.
Variations
Induced
by an incomplete
focus,
a nonlinear,
but detected
Irl kirn are eliminated
of
?lpm
monotonic
the GLI value
sections.
resulted
increase was
In sections
in fluctuations
segmentation
in thin
during
thresholding
in thicker
during
averaging
In greater
with
measured of 20um
between
sections sections.
increasing
thickness
in the regio praepiriformis thickness,
60.8%
the GLI value
and 63.9%.
and projections Differences
series (Schleicher
section
et al., 1986).
was
This effect
of structures in section
of
is
out of
thickness
of
Cytoarchitecture The potentially the
confounding
application
sections
and secondly,
hrstogram
appearance
between
density. precisely
known.
methods.
stated,
Therefore this
which
reference
reporting
as studies
and an overall Rajkowska changes
increase
inhomogeneities
by
within
determined
according
for staining
inhomogeneities
to the
neuronal
was not
is not
conclusive
of the ratio can in turn be of the average
neuronal
of the GLI value.
other
region
reports
failed
of schizophrenics
of about
25%
density
and
smaller
of the
10-47).
Also
of reductions GLI method
a decrease Beasley
as a global
of small and
in accordance
of neuronal
interneurons
Reynolds
(1997)
resultrng
found
could
also reflect
a reduction
of the neuronal
in a compensation
demonstrated
the PFC of schizophrenics.
by Rajkowska cell
though
in the
30%. of
rostra1
matching
are of course
For instance,
II by
cases.
bodies
is exactly
et al. (1999)
not exactly
which
a reduction
22 control
cytoarchitectural
Benes
Looking
our
not under
for
et al.
another
parvalbumin-positive
Parvalbumin-positive
neurons
by 35%.
GLI measurements et al. (19981
against
1998,
cases. This report
procedure.
found
1995,
only the left
neuronal
in lamina
1998)
of BA IO studying
subpopulations,
estimation
et al.,
et al. (19861
reported
with,
as
Benes
to 9 control
neuronal
et al.,
quantitative 1993).
there
et al. 1999)
(Rajkowska
(Selemon
to detect
in the deep laminae
cases compared
Rajkowska
decrease
(Pakkenberg
reduced (BA
1991,
in BA 9 and 46
were
cortex
in the PFC of schrzophrenics,
volume
results
and an increase
as obtained
to the decrease
volume
any of the stereological
volume
a decrease
disturbances
density
in BA 10 in 18 schizophrenic
interestingly
with
neuronal
and/or
similar
were found to be reduced
Rajkowska
number
of neuronal
but its magnitude
The disturbance
Recently,
subpopulatron,
However,
of
loss in BA IO (Benes et al., 1986,
whereas
density
are findings
found
not compete
our study.
demonstratrng orbitofrontal
a biased estimate
in our sample,
change.
both contribute
in 10 male schizophrenic
in lrne with
the
neuronal
of neuronal
prefrontal
a decreased
scope
fraction
of
lamina-specific
et al., 1998), in the
hemisphere
does
change
to cytoarchrtectural
well
140%,
firstly,
Disturbance
on neuron
neurons
was diminished
staining
threshold
provides
the GLI method
of total
are both reports
(1991)
for
III, correcting
across the specimen
could potentially
special
results,
cells in lamina
cytoarchitectural
a decrease
Cvtoarchitectural
found
intensity
corrects
that the GLI method
the underlying
due to either
With
which
by the use of a section-specific of pyramidal
In addition,
concerning
40%,
thresholding
This bias was constant
volume,
of the local staining
sections.
It must be clearly
the
influence
of adaptive
1101
of Brodmann area 10 in Schizophrenia
that These
by GLI measurements.
of the neuronal
density of the
there might
may
disturbances
in the mean
density
of extra
of small- and medium-sized reduction
occur
of extra
lamina-
well account
large
neurons.
global
volume.
large neurons
neurons
and cell-type-specific
for different
neuronal
by 70%
These
to
results
alterations
measurement
by
in
results
1102
Y. Kawasaki et al.
In BA 9, Selemon IS in contrast different
et al. (1995)
with
our finding.
cytoarchitectural
reduction
of the
increase,
whereas
et al. (1995)
ratio
demonstrated However,
changes. between
lending
we studied
It might
cell body
BA 9 demonstrates support
an overall
to the
and neuropil
“reduced
in neuronal
BA 10, which
be possible
an increase
increase
that
could
density,
well
demonstrate
BA 10 demonstrates
volumes
in neuronal
indicating
density
hypothesis”
changes
in the prefrontal
an overall
a relative
as reported
neuropil
whrch
(Selemon
neuropil
by Selemon
and Goldman-
Rakic 19991. Another from
line of evidence
studies
Bizzozero
on the
density
of synaptic
found
a decreased
et al. (3996)
and 20. These
results
and could for instance synaptic
protein
for cytoarchitectural
proteins
immunoblotting
are also compatible reflect
a reduced
in the measuring
as assessed
with
by immunoblotting.
signal for synaptophysin
a cytoarchitectural
neuron
number
lobe may be drawn
going
change
along
with
Perronein BA 9, IO
in schizophrenics a reduction
in total
field.
Conclusion The
results
with
cytoarchitectural in principle 1995,
1998,
scanning
an
studies
automated
Rajkowska
analysis
system
in BA 10 (Benes et al., 1986,
also compatible
tool for future
image
with
reports
et al., 1998).
in other It thus
cytoarchitectural
studies
are
1991,
prefrontal
recommends
in
good
Rajkowska Brodmann the
concordance
with
et al. 19991 and are areas
(Selemon
use of the GLI method
et al., as a
on schizophrenia.
Acknowledaements Supported Program
by the
Theodore
of the European
and Wada
Stanley
Foundation,
the
DFG,
and the
Biomed
2
Union.
References ANDREASEN NC, NASRALLAH HA, DUNN Y, OLSON SC, GROVE WM EHRHARDT JC, COFFMAN JA and CROSSETT JHW (1986) Structural abnormalities in the frontal system in schizophrenia. Arch Gen Psychiatry a, 136-144 BEASLEY CL and REYNOLDS GP (1997) Parvalbumin-immunoreactive the prefrontal cortex of schizophrenics. Schizophr Res 2% 349-55
neurons
BENES FM, DAVIDSON J and BIRD ED (1986) Quantitative cytoarchitecotnical cerebral cortex of schizophrenics. Arch Gen Psychiatry $3, 31-35
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in
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BENES FM, MCSPARREN J, BIRD ED, SANGIOVANNI JP and VINCENT SL (1991) Deficits in small interneurons in prefrontal and cingulate cortices of schizophrenic and schizoaffective patients. Arch Gen Psychiatry 44, 996-1001 FALKAI P, HONER WG, DAVID S, BOGERTS B, MAJTENYI C and BAYER TA (1999) No evidence for astrogliosis in brains of schizophrenic patients. A post-mortem study. Neuropathol Appl Neurobiol 25, 48-53
Cytoarchitecture of Brodmann area 10 in Schizophrenia HARRISON
PJ (1999)
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KELLY
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PERRONE-BIZZOZERO NI, SOWER AC, BIRD ED, BENOWITZ LI, IVINS KJ and NEVE RL (1996) Levels of the growth-assocrated protein GAP-43 are selectively increased in association cortices In schizophrenia. Proc Natl Acad Sci USA $3, 14182-I 4187 RAJKOWSKA G, SELEMON LD and GOLDMAN-RAKIC in the prefrontal cortex. A postmortem morphometric drsease. Arch Gen Psychiatry s, 215-224
PS (19981 Neuronal and glial somal size study of schizophrenia and Huntington
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SCHLEICHER A, ZILLES K and WREE A (1986) A quantitative apporach to cytoarchitectonics: software and hardware aspects of a system for the evaluation and analysis of structural rnhomogeneities in nervous tissue. J Neurosci Meth 18, 221-235 SCHLEICHER of structural 367-381
A and ZILLES K (1990) A quantitative approach to cytoarchitectonics: analysts Inhomogeneities in nervous tissue usrng an image analyser. J Microscopy m,
SCHLEICHER A, AMUNTS K, GEYER S, MOROSAN P and ZILLES K (1999) ObserverIndependent method for microstructural parcellation of cerebral cortex: a quantitative approach to cytoarchitectonics. Neurolmage 9, 165-177 SELEMON LD and GOLDMAN-RAKIC PS (1999) The reduced based model of schizophrenia. Biol Psychiatry 45, 17-25 SELEMON LD, RAJKOWSKA G and GOLDMAN-RAKIC density in the schizophrenic cortex: a morphometric occiprtal area 17. Arch Gen Psychiatry z, 805-818
neuropil
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SELEMON LD, RAJKOWSKA G and GOLDMAN-RAKIC PS (1998) Elevated neuronal density in prefrontal area 46 in brams from schizophrenic patients: application of a three-dimensional, sterological counting method. J Comp Neurol 392, 402-412 SHELTON RC, DORAN AR, pathology in schizophrenia. Psychiatry 145, 154-I 63
PICKAR D and WEINBERGER DR (1988) Cerebral structural Evidence for a selective prefrontal cortical deficit, Am J
TOWER DB and YOUNG OM (1973) The activities of butyryl cholinesterase and carbonrc anhydrase, the rate of anaerobic glycolysis, and the question of a constant density of glial cells in cerebral cortices of various mammalian species from mouse to whale. J Neurochem 251, 269-278 VOGELEY K and FALKAI P (1998) Psychiatry Brain Res 6, 1 13-I 22
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1104
VOGELEY K, KURTHEN M, FALKAI P and MAIER W (19991 Essential Functions Self Model are Implemented in the Prefrontal Cortex. Consc Cogn 8, 343-363
of the Human
VOGELEY K, SCHNEIDER-AXMANN T, PFEIFFER U, TEPEST R, BAYER TA, BOGERTS B, HONER WG and FALKAI P (2000) Disturbed gyrification of the prefrontal region in male schizophrenic patients - a morphometric postmortem study. Am J Psychiatry l.5.Z, 34-39 WEINBERGER DR (1996) On the plausibility schizophrenia. Neuropsychopharmacology 14,
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WREE A, SCHLEICHER A and ZILLES K (1982) Estimation tissue with an image analyzer. J Neurosci Meth 6, 29-43
of volume
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WREE A, ZILLES K and SCHLEICHER A (1980) Analyse der laminlren Struktur mit verschiedenen sterologischen MeRmethoden. Verh Anat Ges 14, 727-728
Inquiries
and reprint
requests
Dr. Kai Vogeley Department of Psychiatry University of Bonn Sigmund-Freud-Str. 25 53105 Bonn Germany
should
be addressed
to:
hypotheses”
of
in nervous
der Area striata
(P Rid. Psych&.
2000,
Comght
Vd.
0 2000
24, pp. 1093-l
FTinted in the USA.
Au lights resavcd
0278-6646/OO/&sce
YASUHIRO
KAWASAKI’,‘,
KAI VOGELEY’, VOLKER JUNG’, RALF TEPEST’, AXEL SCHLEICHER’ and PETER FALKAI’
front matter
HELGE HUTTE’,
‘Dept. of Psychiatry, University of Bonn, Bonn, Germany ‘Department of Neuropsychiatry, Kanazawa University, Japan %Iogt Institute of Brain Research, Univ. of Duesseldorf, Duesseldorf, Germany
(Final form, September 2000)
Kawasaki, Yasuhiro, Kai Vogeley, Volker Jung, Ralf Tepest, Helge Hijtte, Axe1 Schleicher and Peter Falkai: Automated image analysis of disturbed cytoarchitecture in Brodmann area 10 in schizophrenia: A post-mortem study. Prog. Neuro-Psychopharmacol. & Biol. Psychiat.. 2OO0, 24, pp. 1093-l 104. @2000 Elawier Science Inc. 1.
2.
3.
4.
Among different etiological concepts in schizophrenia research is the disconnectron Adequate empirical research requrres hypothesis involving distributed brain regions. correlational studies of multiple brain regions. In this pilot study, the authors therefore tested the applicability of an automated image analysis device as a scanning tool to detect cytoarchitectural abnormalities in Brodmann area (BA) IO. The authors applied the gray level index (GLI) method as automated image analysis on 10 The GLI as perikarya-neuropil-ratio IS schizophrenic brains compared to 10 controls. obtained as the ratio between the area covered by cellular cross sections and the area of the total measuring field in 101 continous measuring fields from pial surface to the cortrcal depth. Resulting data provide a specific cytoarchitectonic profile curve. An analvsrs was performed separately for mean GLI and GLI values in six compartments coverrng approximately the different cortical laminae. A statistically significant reduction of the mean GLI was demonstrated in the schizophrenic group covering laminae Ill to VI, as detected by multivariate analysis and corroborated by univariate analyses and t-tests. This result clearly underlines a cytoarchitectonic disturbance with a perikarya-neuropll-ratro reduction in BA IO, that is associated with schizophrenia. This is suggestive either of an increased neuropil fraction or a decreased neuronal perikarya fraction. The latter could either be due to a volume or a total number reduction of neuronal perikarya. These data are compatible with previously published data on cell loss in schizophrenics in BA 10.
Kevwords
automated
image
analysis,
Brodmann
area 10, cytoarchitecture,
prefrontal
cortex,
schizophrenia. Abbrevlatlons: interest
Brodmann
area (BA), gray
level index
IROI).
1093
(GLI), prefrontal
cortex
104
Elsevicr Science Inc.
(PFC), region
of
1094
et al.
Y. Kawasaki Introduction Schizophrenia
temporal
research
lobes,
Identify
the limbic
a single
disturbance
syndrome
substantial pathological
changes lobe
clngulate
gyrus
pathological
changes,
1988,
Schlaepfer
1999)
and post
al., 1986,
1991,
1996).
prefrontal
Notably,
to
of a
undergo
evidence
cortex
for
(PFC),
the
gyrus,
the
The PFC undergoes 1986,
neuropsychological respect
regions
temporal
1998). et al.,
failed
to a complex
empirical
superior
(Andreasen
special
1998).
brain
is
and Falkai,
et al., 2000),
1995,
the
studies
and
the hypothesis leading
several
the
and
studies
with
however, Thus,
There
comprising
(Vogeley
the latter
et al.,
concept,
of the frontal
Shelton
et al.,
data (Vogeley
et al.,
to cytoarchitecture
Benes et al. 11986,
(Benes et
1991)
reported
cell loss in layers III and V in BA 10.
IS necessary
this disconnection
to examine
pathological
multiregional
correlational
image
(Schleicher
and
independent,
fast,
differences
of neuronal
is the first
study
abnormalities
scanning
In this pllot
study
device
the
for
reproducible,
perikarya,
et
applies
tools
gray
1999).
al.,
perikarya
The
related
cell nuclei
it
with
of
such
a
to detect
the potentially
morphological
studtes.
level index the GLI
automated
of GLI are detectable.
the GLI method
of
sample,
the results
brain samples
are needed
the so-called
glial and endthelial
and to correlate
to more detailed
and objective
of stained
In a post mortem
To examine
characterization
Schleicher
in the density
which
fast
forwarded
the area percentage
lnterlaminar
brain sites,
are then
1990,
highly
of schizophrenia
brain sites in one brain sample
approach,
analysis Zilles,
hypothesis
of different
which
we employed
automated
measures
multlple
changes
brain regions,
this purpose,
volume
Vogeley
sites,
brain structures
formation
by imaging
studies,
Selemon
this
regions
structures
et al., 1994, mortem
In order to study
relevant
brain
hippocampal
as shown
different
Following
pathology
schizophrenia.
(Welnberger,
in multiple
and subcortical
subcortical
underlying
involving
changes
the
for distributed
and multiple
is proposed.
including
evidence
pathology
network
pathological
temporal
putative
system
site of brain
in a distributed
disconnection
pyramidal
has generated
(GLI) method
cytoarchitectural method
image
For
profile
is an
analysis
as
observer-
device,
which
to the area of the measuring
field.
The GLI is an estimate
of the total
(Schleicher
1990).
as scanning
tool
and Zilles,
to detect
This
cytoarchitectural
in schizophrenia.
Methods Brain Collection BA 10 was studied
post
age- and sex-matched given
inTable
controls,
1. Before
from the responsible
mortem
all collected
autopsy,
authority
in brains
informed
from
10 cases of schizophrenia
between consent
1985
and 1995.
was obtained
In cases under legal care. These
compared
Demographic
from the nearest procedures
were
to 10
data are relative,
approved
or by
Qtoarchitecture the local ethics obtained.
committee
Patients
myocardial
satisfied
both
any neurologic relative.
were
illness
excluded
to DSM-III-R
fixation,
a reference
the
criteria,
removed
callosum.
The tissue
cases
the
All cases
had no history
of
from the nearest
hemispheres
occipital
wrth
of schizophrenia review.
and interview
from
and
the brains were
arteriosclerosis
on chart
Control
to chart review
temporal
where
The diagnoses
based
for schizophrenia.
the
1095
cancer,
from the study.
PFC was
line joining
Dusseldorf,
fmetastatic
and ICD9
disease according
of the genu of the corpus
Stainina
poles
wrth
was then embedded
usrng the
a cut
posterror
In paraffin.
and lmaae Acauisition
Serial level
systemic
and ICD9 criteria
formalin
to
boundary
or stroke)
or psychiatric
After
orthogonal
severe
according DSM-III-R
area 10 in Schizophrenia
of the Heinrich-Heine-Universitlt
with
infarction
was established
of Brodmann
sections,
of genu
(Merker,
20 urn in thickness,
of the
1983)
microscoprc pole with
corpus
clearly
distinct
which
is not
as densely
poles
were
were examined
covering
6 different
overall
structural
uniformity
a CCD-video
a Marzhluser
each field of view
of Interest
GLI measurements
the selected
(Wetzlar,
defined,
attached
was 25x. Germany).
Images
Using
measuring
fields
with
were
a video
to a square microscopical
into square
areas.
stamrng
uniform
lamma
III,
sections
from
the
3 serial
original
sulcus.
each
based
were
microscope acquired frame
Cases
case numbers.
In ROI
on the
to the surface, Images
In
of the frontal
of ROls was
to a light
the
inspection
3 per hemisphere,
The selection
ROI and adjacent
from
silver
by visual
the frontomarginal
of cells perpendicular
Japan),
Lens magnification table
Gallyas
Ill and V, rather
and substituting
(ROls) were
to anterior,
in the rostra1 portion
covering
25 x 25 mm.
XC75CE,
Modified
cells as BA 46.
by covering
the orientation
corresponded
frame was subdivided
pyramidal
for the diagnosis
(Sony
scanning
regrons
with
through
6.3 x 1.25, Germany).
cell-sparse
for the measurement,
section,
camera
pole.
posterior
50”’ slice. BA 10 was deftned
packed
regions
of histological
frontal
from
II and IV, wade laminae
an area of approximately
quality
starting
laminae
selected
blinded
cut,
to the
on every
identifying
frontal
each case,
callosum
was performed
images
were
and the
acquired
with
(Zeiss Planpro”
automatically
of 512
x 512
field of approximately
with ptxels,
165 pm. Each
25 x 25 urn per hemisphere,
in which
were performed.
lmaae Processing Image analysis Images applied sectron. threshold, (Fig.
were
was performed
obtained
resulting Adaptive
as digitized
in an image
the
with
was
was
level
Image Analyzer images
(Fig.
for inhomogeneities
used
the gray
threshold
IBAS 2000 gray
adjusted
threshold
established
1 b). Thus,
with
for
segmentation
level histogram determined
la).
with
Eching,
A shading
in staining
appearance
on each
(Kontron,
intensity
correction
was
throughout
the
a ROI-dependent of pyramidal
ROI separately
Germany).
gray
value
cells in layer Ill
and was
observer-
Y. Kawasaki
1096 independent. performed
To correct
lndrvidual to
the whole
profiles
300
according
due to local generated profile
structural
from
a total
comprised
with
laminae
measuring
(lamrna
IV),
69-83
fields
(7 profiles following
V),
84
101
and
fields
in width
ending
in the
profiles
by identifying
(correspondrng white
matter
per case
profiles was
to the cortical GLI profiles across
isolated.
thus
depth,
were then
all laminae
was
For this purpose,
the
local maxima
appearance.
were generated
ROls). The resulting
(Fig. Ic).
the mean GLI value were
border.
in individual
The GLI profile
the pial surface
laminae
in measuring
to the same relative
Thus, distortions
depth
was
(Bit Pad One, Summagraphics,
were standardized
from
operation
then acquired
per ROI in 6 different
by their histological I), 14
filling
to the gray-white-matter
tablet
out.
the cortical
defined
1 - 13 (lamina
(lamina
ruled
the six different were
were
1). 42 individual
thickness
From the GLI profile,
In addition,
surface
a digitizing
were
in GLI throughout
processing.
pial
and averaged.
points,
(Fig. 2), corroborated
covered
varying
et al. (1976)
of 7 x 6 profiles
of the different
first derivative
with
inhomogeneities
variations
(Fig. Id).
at the
a binary
13 measuring
(SUN Spare Station
101 measuring
for further
calculated borders
along a line with
starting
The profiles
GLI values
from the pial surface
was performed
to Hudspeth
thus describrng stored
depth
USA) and a workstation
in each hemisphere. width
‘pm),
This procedure
Fairfield,
(Wree et al., 1982). cortical
were extracted
approximately
boundary.
for holes in the area of the perikaryon,
after thresholding
fields spanning
et al.
and minima
The six different
in the lamrnae
- 23 (lamina II), 24 - 55 (lamina Ill), 56 - 68
flamina
VI).
Cortex
thickness
was
not
measured
systematically.
Fig. 1. This sketch illustrates the automated image analysis procedure. The cortex is completely scanned (left to right = pial surface to white matter border zone), covering several mm over the cortical surface (al. Images are then binarized (b) and measured in the individual measuring fields, different densrty values are obtained as mean gray level values, depicted as graytones (c). Parallel to the laminar cortex organisation average values are calculated as depicted for illustration in Id).
Cytoarchitecture
1097
of Brodmann area 10 in Schizophrenia
Fig. 2. These curves demonstrate the average cytoarchitectonic profile covering the whole cortical depth. The profiles of normals (closed line) and schizophrenics (dotted line) do not differ in shape, however, the GLI values are significantly reduced in laminae III - VI. Different iaminae are segmented according to microscopic inspection and local maxima in the first derivative (gray line, bottom).
Statistical
Analvsis
Demographic usrng t-tests cortical
analysrs
values
of
investigate dependent
was
covering
results,
to
with
diagnosis,
from the multrvariate unpaired
potentrally
samples,
analysts
where
fixation
confounding
were followed
as fixed
by univariate
GLI value
two-sided)
six
For statlstrcal were
Secondly,
laminae
used
significant
and subsequent
to
on the
multivariate
as dependent
Thirdly,
analyses
over total of the
and brain weight
variables.
factors.
groups
These compartmental
per lamina.
time,
control
the curve)
laminae.
volume
of the six different
sex and hemisphere
under
(Pearson,
time,
and the
mean total
(area
neuronal
calculations
for the mean GLI and GLI values
used
were
the six different
of age, post-mortem detect
schizophrenic
GLI values
of the total
correlative
effects
the
variables
of the
approximately
estimates
firstly,
variables
between
Dependent
calculations
provide
possible
compared
samples.
and integral
compartments
GLI integral
were
for unpaired
depth
different
analysis
variables
variables findings t-tests
for
applicable
Results Demoaraphrc Descriptive reported
Data statistics
In Table
of
variables
that
1. At first hospitalization
male schizophrenics
It
significantly
than
heavier
= -2.803, brains
df
=
of female
might
possibly
female
schizophrenics
15.063, patients
influence
p = 0.013). (t = 4.087,
the
were Brains df
=
measurements
significantly
are
older than
of male patients 18, p = 0.001).
were The
1098
Y. Kawasaki et al.
mean duration was
not
of illness
in male patients
statistically
significant
between
the groups
drfferences
(t
=
was
longer
1.328,
df
than
=
in female
16.107,
for mean age of death,
p
=
post mortem
patients,
however,
0.203).
No significant
delay or formalin
this
fixatron
trme were observed. Table 1 Demographic
Data Males
Controls
T Age of Death (yrs) Disease duration
5
sdev
n
54.60
6.54
5
51.80
5.54
5
22.00
4.95
5
29.80
4.44
(yrs)
Frrst hospitalization
(vrs)
Brarn Weight
(g)
Post Mortem
Delay (hrs)
Formalin
Schizophrenics
M
Time (days)
m
sdev
1408.00
113.67
5
1475.00
56.86
40.80
20.07
5
43.20
20.08
906.40
1557.68
5
1045.40
1380.78
Females Controls N Age of Death (yrs) Drsease duration
5
Brain Weight
(g) Delay (hrs)
of Potentiallv
variables mortem
of
age (r = delay
5
58.80
11.26
5
23.75
12.23
5
33.75
10.63
95.13
5
1217.90
83.03
24.00
0.00
5
36.00
24.00
466.00
359.65
5
1199.00
1 101.63
1200.00
n: cases, m: mean, sdev: standard
In the
13.24
60.60
Formalin Time (days)
Correlations
n
(vrs)
Post Mortem
separately.
sdev
(yrs)
Frrst hospitalization
Correlations
the
Confoundina dependent
control 0.559,
(r = -0.523,
with
Deoendent
variables
group,
the
p =
were
dependent
O.OlO),
p = 0.018).
brain
these vanables
as confounding
were not included analysis
sdev
Vary&&
calculated variables
weight
In contrast
wrth
for multrvariate
m
deviation
mean GLI value did not correlate
as required
Schizophrenics
M
(r =
variables,
both
-0.459,
to this,
any of the potentially
for
correlated
diagnostic
significantly p =
0.042),
in the schizophrenia
confounding
variables.
as the preconditions
groups, with
the
and post group
the
Therefore,
for covariates
were not fulfilled.
GLI Analvsis Descnptive multivariate
statistics
of GLI measurements
and univariate
analyses,
where
are listed applicable,
in Table
are given
2. Significant
results
from
in Table 3. For the mean GLI
Cytoarchitecture analysis,
a statistically
significant
df = 6, 27, p = 0.025). any interaction
term.
covering
six
the
dragnostic curve
groups
integrals
the significant
of Brodmann
impact
whereas
different
coverrng
performed
demonstrated
Ill to laminae
lamina
differences
analysis,
laminae,
for laminae
was only found
for the factor
there was no significant
The univariate
assessed
influence
a
of gender,
significant t-tests
VI. separately.
by univarrate
diagnosis
for the different
VI. Subsequent
III to lamina
1099
area 10 in Schizophrenia
analysis
(F = 5.564, hemisphere
areas under the curve
difference were
Comparing
or
between
performed
the
for the GLI
the diagnostic
groups,
were corroborated.
Table 2 Descriptive
Statistics Males
Controls
Schizophrenics
GLI Mean GLI Lam I
Sdev
n
14.94 107.72
24.23
18.00
2.69
5
156.33
46.16
5
sdev
GLI
1.55
Lam II
185.44
30.23
5
154.69
23.03
lam Ill
597.55
79.81
5
502.83
54.41
lam IV
263.38
36.42
5
222.39
24.58
lam V
288.81
41.47
5
247.16
21.69
lam VI
326.66
47.09
5
275.14
24.27
Females Controls
sdev
sdev
N
GLI
18.57
2.60
5
17.54
3.35
163.39
40.90
5
159.29
61.39
mean GLI lam I
Schizophrenics
GLI
lam II
186.93
21.71
5
181.06
37.95
lam Ill
611.94
86.70
5
591.86
105.95
lam IV
269.97
34.14
5
251.85
41.09
lam V
302.30
43.84
5
279.51
46.68
lam VI
340.98
38.88
5
308.31
59.42
n: cases, GLI: GLI integral (area under the curve) covering fields of one lamina, sdev: standard deviation of one
measuring
Table 3 ANOVA
and T-test .-.
ANOVA F
(factor df ”
diagnosis)
t-test P
t
(factor df ”
diagnosis) P
Mean GLI
5.564
1, 32
0.025
2.362
38
0.023
Lam I
3.093
1, 32
0.088
1.742
38
0.090
Lam II
3.725
1, 32
0.063
1.945
38
0.059
Lam III
4.432
1, 32
0.043
2.078
38
0.045
Lam IV
6.714
7, 32
0.014
2.641
38
0.012
Lam V
6.027
1, 32
0.020
2.507
38
0.017
Lam VI
8.245
1, 32
0.007
2.954
38
0.005
” Hypothesis
degree of freedom,
Error degree of freedom.
1100
Y. Kawasaki et al.
Thrs study
demonstrates
agarnst controls GLI method comparison
significant
changes
in BA 10 as assessed
developed
by
to previous
in the cytoarchitectural
profile
of schizophrenrcs
by the observer-independent
automated
image analysis
and Zilles
to discuss
the
Schleicher
cytoarchitectural
(19901.
studies,
In order
the method
must be critically
results
in
evaluated.
Methodoloav The GLI is defined measurrng
field.
compartment
The stained
represents
factors
comprrsrng
starnrng
rntenslty,
brnanzatron The
as the area percentage
and
mainly
the
size
absolute
of
compartments neuronal
value
starned
of structures
contributrng,
structures
density
in relation
perikarya,
on different
thickness
to the threshold
to the
the unstained
of GLI depends
structures,
according
and different
includes
species
in different
of
sectrons,
used for image
1973,
stated,
In Nrssl-stained
that
clear distinction a potentially
sections,
using
schrzophrenra, neurodegeneratrve
is
no
drsease
by Harrison
on which
many
along
on neuronal respect
support
for
schizophrenics
the
of studies
and controls,
(Nurnberger,
impossible.
the
that
in glial
cell
would
Tower
be clearly
were
done,
of for
condition
of
density,
there
a
also apply
schizophrenia
on glial cells revealed that
constant
1958,
So the problem
pathological
view,
suggesting
non-neuronal
it must
studies
and
in different
of as an additive,
cell counts
to
an increase
The vast majority
of these
of stereological
With
with
density
In addition,
is virtually
used as an
Schleicher
As studied
curves
et al., 1986).
1986,
cells.
be thought
Schleicher
convincing
going
(1999).
between
the volume
and can thus
sections.
et al.,
glial and endothelial
glial cell populations
Nissl-stained
there
Schleicher
glial cells and small neurons
contaminating
studies
1982,
the shape of the GLI profile
Wree et al., 1980,
between
by the GLI and can be reliably
demonstrated,
laminae
but not influencing
and Young,
is measured
(Wree et al.,
Thus measurement
regions
drfferences
density
of stained
for the volume
reviewed
represents
Basically,
and discrimrnation
cells do not differ
all
by stained
(Wree et al., 198.2).
Z~lles, 1990). cortical
neuropil.
packing
areal densrty
estimate
compartment
covered
IS a
as recently no significant
is no contamination
wrth glta cells (Falkar et al., 1999). The GLI value does show (Wree et al., 1982). the gurnea
In this
study,
pig in Nissl stained
62.5%.
Variations
Induced
by an incomplete
focus,
a nonlinear,
but detected
Irl kirn are eliminated
of
?lpm
monotonic
the GLI value
sections.
resulted
increase was
In sections
in fluctuations
segmentation
in thin
during
thresholding
in thicker
during
averaging
In greater
with
measured of 20um
between
sections sections.
increasing
thickness
in the regio praepiriformis thickness,
60.8%
the GLI value
and 63.9%.
and projections Differences
series (Schleicher
section
et al., 1986).
was
This effect
of structures in section
of
is
out of
thickness
of
Cytoarchitecture The potentially the
confounding
application
sections
and secondly,
hrstogram
appearance
between
density. precisely
known.
methods.
stated,
Therefore this
which
reference
reporting
as studies
and an overall Rajkowska changes
increase
inhomogeneities
by
within
determined
according
for staining
inhomogeneities
to the
neuronal
was not
is not
conclusive
of the ratio can in turn be of the average
neuronal
of the GLI value.
other
region
reports
failed
of schizophrenics
of about
25%
density
and
smaller
of the
10-47).
Also
of reductions GLI method
a decrease Beasley
as a global
of small and
in accordance
of neuronal
interneurons
Reynolds
(1997)
resultrng
found
could
also reflect
a reduction
of the neuronal
in a compensation
demonstrated
the PFC of schizophrenics.
by Rajkowska cell
though
in the
30%. of
rostra1
matching
are of course
For instance,
II by
cases.
bodies
is exactly
et al. (1999)
not exactly
which
a reduction
22 control
cytoarchitectural
Benes
Looking
our
not under
for
et al.
another
parvalbumin-positive
Parvalbumin-positive
neurons
by 35%.
GLI measurements et al. (19981
against
1998,
cases. This report
procedure.
found
1995,
only the left
neuronal
in lamina
1998)
of BA IO studying
subpopulations,
estimation
et al.,
et al. (19861
reported
with,
as
Benes
to 9 control
neuronal
et al.,
quantitative 1993).
there
et al. 1999)
(Rajkowska
(Selemon
to detect
in the deep laminae
cases compared
Rajkowska
decrease
(Pakkenberg
reduced (BA
1991,
in BA 9 and 46
were
cortex
in the PFC of schrzophrenics,
volume
results
and an increase
as obtained
to the decrease
volume
any of the stereological
volume
a decrease
disturbances
density
in BA 10 in 18 schizophrenic
interestingly
with
neuronal
and/or
similar
were found to be reduced
Rajkowska
number
of neuronal
but its magnitude
The disturbance
Recently,
subpopulatron,
However,
of
loss in BA IO (Benes et al., 1986,
whereas
density
are findings
found
not compete
our study.
demonstratrng orbitofrontal
a biased estimate
in our sample,
change.
both contribute
in 10 male schizophrenic
in lrne with
the
neuronal
of neuronal
prefrontal
a decreased
scope
fraction
of
lamina-specific
et al., 1998), in the
hemisphere
does
change
to cytoarchrtectural
well
140%,
firstly,
Disturbance
on neuron
neurons
was diminished
staining
threshold
provides
the GLI method
of total
are both reports
(1991)
for
III, correcting
across the specimen
could potentially
special
results,
cells in lamina
cytoarchitectural
a decrease
Cvtoarchitectural
found
intensity
corrects
that the GLI method
the underlying
due to either
With
which
by the use of a section-specific of pyramidal
In addition,
concerning
40%,
thresholding
This bias was constant
volume,
of the local staining
sections.
It must be clearly
the
influence
of adaptive
1101
of Brodmann area 10 in Schizophrenia
that These
by GLI measurements.
of the neuronal
density of the
there might
may
disturbances
in the mean
density
of extra
of small- and medium-sized reduction
occur
of extra
lamina-
well account
large
neurons.
global
volume.
large neurons
neurons
and cell-type-specific
for different
neuronal
by 70%
These
to
results
alterations
measurement
by
in
results
1102
Y. Kawasaki et al.
In BA 9, Selemon IS in contrast different
et al. (1995)
with
our finding.
cytoarchitectural
reduction
of the
increase,
whereas
et al. (1995)
ratio
demonstrated However,
changes. between
lending
we studied
It might
cell body
BA 9 demonstrates support
an overall
to the
and neuropil
“reduced
in neuronal
BA 10, which
be possible
an increase
increase
that
could
density,
well
demonstrate
BA 10 demonstrates
volumes
in neuronal
indicating
density
hypothesis”
changes
in the prefrontal
an overall
a relative
as reported
neuropil
whrch
(Selemon
neuropil
by Selemon
and Goldman-
Rakic 19991. Another from
line of evidence
studies
Bizzozero
on the
density
of synaptic
found
a decreased
et al. (3996)
and 20. These
results
and could for instance synaptic
protein
for cytoarchitectural
proteins
immunoblotting
are also compatible reflect
a reduced
in the measuring
as assessed
with
by immunoblotting.
signal for synaptophysin
a cytoarchitectural
neuron
number
lobe may be drawn
going
change
along
with
Perronein BA 9, IO
in schizophrenics a reduction
in total
field.
Conclusion The
results
with
cytoarchitectural in principle 1995,
1998,
scanning
an
studies
automated
Rajkowska
analysis
system
in BA 10 (Benes et al., 1986,
also compatible
tool for future
image
with
reports
et al., 1998).
in other It thus
cytoarchitectural
studies
are
1991,
prefrontal
recommends
in
good
Rajkowska Brodmann the
concordance
with
et al. 19991 and are areas
(Selemon
use of the GLI method
et al., as a
on schizophrenia.
Acknowledaements Supported Program
by the
Theodore
of the European
and Wada
Stanley
Foundation,
the
DFG,
and the
Biomed
2
Union.
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Inquiries
and reprint
requests
Dr. Kai Vogeley Department of Psychiatry University of Bonn Sigmund-Freud-Str. 25 53105 Bonn Germany
should
be addressed
to:
hypotheses”
of
in nervous
der Area striata