Rizaldy1


1

Risk factors of intracranial stenosis among older adults
with acute ischemic stroke

January-April, 2009January-April, 2009January-April, 2009January-April, 2009January-April, 2009                            Vol.28 - No.1                           Vol.28 - No.1                           Vol.28 - No.1                           Vol.28 - No.1                           Vol.28 - No.1

UNIVERSA MEDICINA

Rizaldy Pinzon*, Laksmi Asanti*, Sugianto*, and Kriswanto Widyo*

*Neurology Department,
Bethesda Hospital, Yogyakarta

Correspondence
adr. Rizaldy Pinzon
Neurology Department,
Bethesda Hospital, Yogyakarta
Email:
medidoc2002@yahoo.com

Univ Med 2009; 28: 1-7

ABSTRACT

Intracranial large artery atherosclerosis is an important cause of stroke worldwide.
Previous studies have shown that it is found more commonly in Asians. However,
studies of intracranial stenosis in Indonesian stroke patients have been very few in
number. The aim of this cross-sectional study was to determine the frequency and
risk factors of intracranial stenosis in acute ischemic stroke. The data were obtained
from 234 consecutive patients in the transcranial doppler (TCD) registry.
Documentation of risk factors was performed systematically and for TCD
sonography TD-DOP 9000 equipment with a 2-MHz probe was used for the
examination of the intracranial circulation. The criteria of middle cerebral artery
(MCA) stenosis used in this study were a peak systolic velocity (PSV) >140 cm/s
or mean systolic velocity (MSV) >80 cm/s. For stenosis of the posterior circulation
the criteria were PSV > 90 cm/s or MSV >60 cm/s. The data were obtained from
234 patients, and complete examinations were performed in 182 patients (77.7%).
Ischemic stroke is the most common indication for performing TCD sonography.
Stenosis was present in 38% of cases, with stenosis iof the anterior circulation
being the more common. The most frequent risk factors were hypertension,
dyslipidemia, and diabetes. Intracranial stenosis is common in stroke patients, in
whom the risk factors are hypertension and diabetes.

Keywords: Stenosis, intracranial, risk factor, acute ischemic stroke

INTRODUCTION

Stroke is the leading cause of mortality and
d i s a b i l i t y,  a n d  m a y  b e  c a u s e d  b y  e i t h e r
modifiable or non-modifiable risk factors. It is
the third leading cause of death and disability
among adults. The incidence of stroke has

continued to increase since the mid-1960s, with
up to 700,000 new cases being reported in the
United States each year.(1,2) Intracranial arterial
stenosis is a significant risk factor for vascular
events, having been implicated as a causal
factor in 8% to 10% of all ischemic strokes(3)

and as a major factor in recurrent stroke and



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Pinzon, Asanti, Sugianto, et al                                           Acute ischemic stroke

vascular mortality.(4,5) An important cause of
intracranial arterial stenosis is intracranial
a t h e r o s c l e r o s i s . ( 6 , 7 ) A t h e r o s c l e r o s i s  i s  a
systemic, multifocal disease with various signs
a n d  s y m p t o m s ,  c a u s e d  b y  a t h e r o s c l e r o t i c
lesions in the arterial tree. In the brain the
lesions may be located in the extracranial
carotid or intracranial arteries.(8-10) Effective
preventive measures are needed for preventing
stroke and its recurrence.(6,11)

Symptomatic atherosclerotic intracranial
stenosis accounts for approximately 10% of
ischemic strokes. Risk of stroke in patients with
middle cerebral artery (MCA) stenoses was
reported to be around 24% during a 6-year
follow-up study. The cerebral hemodynamic
study and its alterations may be a good indicator
for long-term outcome.(12) Previous studies have
caused some controversies about the risk factors
of intracranial stenosis. (8,9) Increasing lood
pressure, increasing blood cholesterol, and
atrial fibrillation are definite causal risk factors
f o r  i s c h e m i c  s t r o k e  b e c a u s e  r a n d o m i z e d
c o n t r o l l e d  t r i a l s  ( R C Ts )  h a v e  s h o w n  t h a t
treating them reduces the incidence of ischemic
s t r o k e . ( 1 3 - 1 5 )  C i g a r e t t e  s m o k i n g ,  d i a b e t e s
mellitus, ischemic heart disease, and valvular
heart disease are probably also causal risk
f a c t o r s  f o r  i s c h e m i c  s t r o k e  b e c a u s e
epidemiological case-control and cohort studies
h a v e  s h o w n  t h a t  t h e s e  c h a r a c t e r i s t i c s  a r e
significantly associated with an increased risk
of stroke; moreover, the association is strong,
c o n s i s t e n t  a m o n g  s t u d i e s ,  b i o l o g i c a l l y
plausible, and independent of other factors that
were measured and analyzed. However, it is
possible that these associations are confounded
by other factors that have not been measured
a n d  a n a l y z e d  i n  e p i d e m i o l o g i c a l  s t u d i e s
uncontrolled confounding. (16-17) A study in
S u r a b a y a  s h o w e d  t h a t  o u t  o f  t h e  6 7 5
intracranial arterial segments examined, 118
(17%) segments had stenosis of more than 29%

o r  h a d  o c c l u s i o n  o n  d i g i t a l  s u b t r a c t i o n
angiography (DSA).(18) There are only a few
studies about intracranial stenosis in Indonesia.
The aim of this study was to determine the
frequency and risk factors of intracranial
stenosis in acute ischemic stroke.

METHODS

Research design
In this cross-sectional study, we examined

2 3 4  c o n s e c u t i v e  p a t i e n t s  u n d e r g o i n g
transcranial doppler (TCD) studies. Further
evaluation was performed for acute stroke
p a t i e n t s  w i t h  s y m p t o m s  o f  o b s t r u c t i o n  i n
anterior or posterior cerebral artery territories.
Patients with a TCD diagnosis of intracranial
stenosis were further evaluated.

Data collecting
The recorded data consisted of demographic

characteristics, risk factors and tests results.
Hypertension was defined as a history of
elevated blood pressure (systolic blood pressure
>140 mmHg or diastolic blood pressure >90
mmHg) in two separate recordings or elevated
blood pressure before admission that required
antihypertensive medications. Diabetes mellitus
was defined as a history of elevated blood
glucose in two separate tests (fasting level >125
mg/dl) or diabetes treated with medication before
admission. Hyperlipidemia was defined as
history of an abnormally high lipid level that
r e q u i r e d  e i t h e r  d i e t a r y  o r  p h a r m a c o l o g i c
intervention. Smoking was documented by
quantity-frequency assessment at the time of
admission.

Measurements
TCD sonography is a non-invasive, non-

i o n i z i n g ,  i n e x p e n s i v e ,  p o r t a b l e  a n d  s a f e
technique that uses a pulsed  Doppler transducer
for assessment of intracerebral blood flow. The



3

purpose of this test is to detect any narrowing
or blockage in these arteries that may decrease
or stop the flow of blood to the brain. A small
hand-held, wand-like probe covered with a
conductive gel will be placed and held at
various areas on the head of the subject, usually
at each temple, over each eye, and at the base
of the skull. This enables the examiner to image
the blood flow in the arteries and to record the
flow in each artery. The procedure should take
20 to 60 minutes and is painless.(19,20)

TCD studies of intracranial vessels were
performed by TDOP-TC9000P unit with a 2-
MHz probe for the examination of intracranial
circulation. MCA was designated as stenotic if
its peak systolic velocity was greater than 140
cm/s or its mean velocity exceeded 80 cm/s.(21)

A diagnosis of vertebral segment and proximal
basilar artery stenosis was made if there were
focal increases of the peak systolic and mean
velocities to 90 cm/s and 60 cm/s or more.(22)

Data analysis
We used SPSS to save and analyze the data.

Independent t-test and chi square test were used
to compare the variables.

RESULTS

We  a n a l y z e d  t h e  T C D  r e s u l t s  o f  2 3 4
patients from our TCD registry, with mean age
of 58.35 years. Complete data were collected
for 182 patients (77.7%). The most common
reason for incomplete data was poor temporal
window and bedridden-ventilated patients. The
study sample consisted of 52% males and 48%
females. The most common indication for TCD
e x a m i n a t i o n s  i n  t h i s  s t u d y  w a s  n o n -
hemorrhagic stroke, which was found in around
5 8 %  o f  t h e  s t u d y  s a m p l e  ( 1 3 6  p a t i e n t s ) ,
f o l l o w e d  b y  v e r t e b r o b a s i l a r  i n s u ff i c i e n c y
(Figure 1).

The results of the TCD studies in ischemic
stroke patients is presented in Figure 2. The
proportions of abnormalities detected were as
follows: stenosis (38%), atherosclerosis (30%),
and hypoperfusion (21%).

Figure 3 shows stenosis in the right middle
cerebral artery. In comparison to the posterior
circulation, stenosis in the anterior circulation
is more common (Figure 4), and the most
frequent sites are the middle cerebral artery and
the internal carotid artery siphon.

Univ Med                                                                        Vol.28 - No.1

Figure 1. Indications for TCD studies



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Pinzon, Asanti, Sugianto, et al                                           Acute ischemic stroke

Figure 4. Distribution of sites of the stenosis in patients with intracranial stenosis (52 patients)

Figure 3. Stenosis in the right middle cerebral artery

Figure 2. Distribution of abnormalities of TCD studies in patients with acute ischemic stroke



5

We analysed the distribution risk factors
in patients with intracranial stenosis, and
compared it with ischemic stroke patients
without stenosis. The most frequent risk factor
for atherosclerosis was hypertension with a
frequency of 72%, whilst diabetes mellitus,
hyperlipidemia, and smoking had frequencies
of 24%, 38%, and 22% respectively. Table 1
presents the frequency of vascular risk factors
in intracranial stenosis patients.

T h e r e  w a s  a  s i g n i f i c a n t  r e l a t i o n s h i p
b e t w e e n  h y p e r t e n s i o n  a n d  d i a b e t e s  w i t h
intracranial stenosis. Both hypertension and
diabetes increase the risk of stenosis (OR=2.97,
95% CI=1.76-4.98, p<0.05 for hypertension,
and OR=1.48, 95% CI=1.12-2.43, p<0.05 for
diabetes).

DISCUSSION

T h e  f i n d i n g s  o f  t h i s  s t u d y  a r e  i n
agreement with those of previous studies,
s u g g e s t i n g  t h a t  a t h e r o s c l e r o t i c  o c c l u s i v e
lesions are common in Asians. (23-25) In our
studies intracranial lesions appeared to be the
cause of atherosclerotic occlusive disease in
more than around 30% cases. However, this
figure may be an overestimation because we
excluded patients with poor temporal windows
(mostly elderly women), and patients who
were moribund with severe stroke (commonly
from cardioembolic stroke).

Multiple intracranial stenoses were found
frequently, a finding that is in agreement with
some other studies.(26,27) Our data showed that
M C A  w a s  t h e  m o s t  f r e q u e n t  s t e n o t i c
intracranial artery. Despite some previous
suggestions, we found no statistical difference
i n  t h e  f r e q u e n c y  o f  i n t r a c r a n i a l  l e s i o n s
between men and women. However, due to the
better trans-temporal windows, we suggest that
TCD is a better device for studying intracranial
arteries in men. In contrast, results from the
Warfarin-Aspirin Symptomatic Intracranial
Disease (WASID) trial showed that women
have a higher risk for recurrent ischemic stroke
and for the combined end point of stroke and
vascular death. (28) The explanation for this
finding is complex. Women have a greater
clustering of risk factors that are indicative of
metabolic abnormalities (e.g. high body mass
indexes, hypertension, and diabetes) and those
t h a t  p o r t e n d  i n c r e a s e d  r i s k  b a s e d  o n
s o c i o d e m o g r a p h i c  f e a t u r e s ,  l i f e s t y l e ,  a n d
family history of stroke. Women may have
smaller intracranial arteries than men, which
could pose a greater risk for stroke in the
territory of a stenotic intracranial artery.(29) An
i n t e r e s t i n g  f i n d i n g  i n  o u r  s t u d y  i s  t h a t
i n t r a c r a n i a l  s t e n o s i s  i s  m o r e  f r e q u e n t l y

Table 1. Frequency of vascular risk factors
in stroke patients with intracranial stenosis

(n = 52)

Table 2. The risk factors of intracranial
stenosis in acute ischemic stroke

Univ Med                                                                        Vol.28 - No.1



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Pinzon, Asanti, Sugianto, et al                                           Acute ischemic stroke

detected in patients with a history of either
diabetes mellitus or hypertension. This finding
is in agreement with some studies,(12,30) and in
d i s a g r e e m e n t  w i t h  s o m e  o t h e r s . ( 8 , 3 1 )  T h e
WA S I D  t r i a l  i n  N o r t h  A m e r i c a  s h o w e d
consistent results, in which elevated mean SBP
and DBP were associated with increased risk
of stroke after adjustment for a number of
factors. These were age, type of qualifying
event (transient ischemic attack versus stroke),
gender, body mass index, time from qualifying
event, history of diabetes mellitus, history of
hypertension, race, percentage of intracranial
a r t e r y  s t e n o s i s  a t  s t u d y  e n t r y,  a n d
h y p e r l i p i d e m i a . ( 3 2 ) A l t h o u g h  w e  f o u n d  n o
association between the site of the lesion and a
history of known lipid disorder, this finding
should be interpreted with caution, as blood
lipids and lipoprotein concentrations were not
systematically measured in our study.

Because we can now detect intracranial
occlusive disease safely and reliably with TCD
and magnetic resonance angiography (MRA),
studies of the prevalence of intracranial stenosis
in asymptomatic patients with multiple risk
factors is feasible.(33) Identifying patients with
asymptomatic intracranial stenosis may enable
us to implement preventive measures early in
this high-risk population. This is particularly
i m p o r t a n t  b e c a u s e  l i m i t e d  s u c c e s s  o f
pharmacological interventions in preventing
stroke has now been replaced by technological
developments offering improved methods for
e n d o v a s c u l a r  t h e r a p y  o f  c e r e b r a l  a r t e r y
stenosis.

CONCLUSIONS

Intracranial stenosis is present in more
than one third of ischemic stroke patients.
Hypertension and diabetes are significantly
more prevalent in intracranial stenosis.

ACKNOWLEDGEMENT

The authors would like to express their
appreciation to Associate Professor Tan Kay Sin
for the constructive comments and guidance
during the ASNA biennial meeting in Kuala
Lumpur 2009.

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