Keywords
vitreous hemorrhage - cerebral aneurysm - subarachnoid hemorrhage - vitrectomy
Introduction
Terson syndrome (TS) was first described by Albert Terson in 1900 as an intraocular
hemorrhage resulting from a spontaneous subarachnoid hemorrhage (SSAH).[1]
[2] This complication presents a variable incidence, with a generally benign course,
but associated with a greater morbidity and mortality when compared to patients who
do not present the syndrome.[1] In the present article, we describe in this article cases of patients who underwent
neurosurgical treatment for ruptured brain aneurysms who were diagnosed with TS.
Methods
Patients with a diagnosis of SSAH due to rupture of a cerebral aneurysm who were submitted
to treatment at our neurosurgery service from December 2009 to December 2010 were
included in the present study. The treatments were performed by intracranial vascular
microsurgery or endovascularly, with endovascular embolization of the aneurysms. The
medical records of these patients were reviewed, and an ophthalmological evaluation
was performed on all the patients who spontaneously presented complaints of visual
alterations.
The patients who received the diagnosis of TS after an ophthalmologic evaluation had
their evolution described. In this evaluation, visual acuity tests, fundoscopy and
orbit ultrasonography were performed. We have also included the characterization of
the neurological picture, as well as the findings of the imaging tests. The patients
were followed-up for a minimum period of 20 months. We have also reviewed the literature
and compared the data obtained with those available in the current literature.
Results
A total of 34 patients diagnosed with SSAH due to cerebral aneurysm rupture were included
in the present study. Of these, 18 (53%) were submitted to endovascular treatment,
and 16 (47%) were submitted to microsurgical clipping. The total mortality rate was
14.7% (5 patients).
Of the 34 patients, 5 were diagnosed with TS, representing an incidence of 14.7%.
The mean age of the TS patients was 47 years. Regarding the neurological evaluation
of these patients, we have observed that 3 (60%) out of the 5 presented rupture of
aneurysms of the anterior communicating complex. Most of the patients presented SSAH
classified as Fisher 3, being neurologically classified as Hunt and Hess 2 ([Fig. 1A]
[1B]). In addition, 4 (80%) out of these 5 patients had multiple aneurysms.
Fig. 1 (A) Computed tomography of the skull of patient 2 demonstrating diffuse subarachnoid
hemorrhage, classified as Fisher 3. (B) Right carotid angiography of patient 2 demonstrating
saccular aneurysm in the anterior communicating complex and vasospasm. (C) Ocular
ultrasonography of patient 2 demonstrating vitreous hemorrhage.
In all patients, regarding the ophthalmologic evaluation, an ocular ultrasonography
detected vitreous hemorrhage ([Fig. 1C]), which was unilateral in only two patients. Three patients underwent vitrectomy,
and two received conservative treatment. The onset of the TS ranged from 7 to 17 days
after the ictus. We have also observed that all patients had systemic arterial hypertension
as a comorbidity.
In all patients, there was improvement of visual acuity, which was incomplete in only
one of them. This corresponds to the final impairment of vision in one eye, of the
eight initially affected. Data for each patient are shown in [Tables 1] and [2].
Table 1
|
Patient
|
Age
|
Location of ruptured aneurysm
|
Location of other aneurysms
|
Affected eye
|
Fisher scale
|
Hunt and Hess scale
|
|
1
|
38
|
ACoA
|
ICA and MCA L
|
Bilateral
|
3
|
2
|
|
2
|
41
|
ACoA
|
ICA R
|
Bilateral
|
3
|
2
|
|
3
|
50
|
ACoA
|
ICA R
|
Right
|
3
|
2
|
|
4
|
58
|
ACA R
|
−
|
Right
|
2
|
3
|
|
5
|
48
|
ChA R
|
OftA R
|
Bilateral
|
2
|
2
|
Table 2
|
Patient
|
Type of treatment
|
Time between SSAH and TS (days)
|
Visual acuity before TS treatment
|
Visual acuity after TS treatment
|
|
1
|
Conservative
|
11
|
HM-HM
|
1–1
|
|
2
|
Vit BE
|
7
|
HM-HM
|
1–1
|
|
3
|
Conservative
|
17
|
HM
|
1
|
|
4
|
Vit RE
|
17
|
HM
|
0.15
|
|
5
|
Vit BE
|
10
|
HM-HM
|
1–1
|
Discussion
Terson syndrome corresponds to a vitreous hemorrhage associated with SSAH.[1] Albert Terson was a French ophthalmologist who described the clinical signs of this
syndrome in a patient with SSAH in 1900.[2] Since then, some type of intraocular hemorrhage (retinal, subhyaloid or vitreous)
has been documented in 10% to 40% of the individuals with SSAH,[3]
[4] while vitreous hemorrhage is reported in 3% to 5% of cases of SSAH.[4] This neurophthalmological alteration can occur from 1 hour to 47 days after the
ictus.[5] Among our cases, there was a variation between 7 and 17 days for the onset of the
syndrome. In the literature, there is no significant difference in the incidence of
the syndrome between men and women.[6] However, in the present study, 80% of the patients were female.
Vitreous hemorrhage is believed to be caused by two major mechanisms. The first would
be the increased intracranial pressure, which forces blood into the subarachnoid space
and along the optic nerve sheath. In this way, blood would enter the sclera through
a porous region and from there, into the vitreous space.[7] The other explanation would be the obstruction of the venous drainage to the cavernous
sinus by the increase in intracranial pressure, which would cause blood stasis and
intraocular hemorrhage.[5]
[8]
[9] However, this second hypothesis is disproven, since other conditions leading to
increased intracranial pressure, or even pressure in the cavernous sinus, do not usually
result in intraocular hemorrhage.
A systematic review study by McCarron et al.[1] found that the incidence of TS in patients with SSAH ranged from 3% in retrospective
studies to 13% in prospective studies. A series of 174 SSAH patients showed that TS
was significantly more common among patients in more severe conditions (Glasgow coma
scale < 8 or Hunt Hess > 3), who presented more severe intracranial hemorrhages (Fisher > 3).[5] In the present study, we have found a TS incidence of 14.7%, which is in accordance
with the data available in the literature. However, the data found in the present
study are probably underestimated, since only symptomatic patients with a good neurological
evolution were included.
In a prospective study by Garfinkle et al[4] with 22 patients with SSAH, 4 (66.6%) of the 6 patients with TS had an aneurysm
located in the anterior communicating complex, and only 1 patient had multiple aneurysms.
In another prospective study with 60 patients with SSAH, 10 had TS.[5] Among the patients in this study, 30% had an anterior cerebral artery aneurysm and
20% had an internal carotid artery aneurysm. In the present study, 60% of the patients
had a ruptured aneurysm located in the anterior communicating complex. Moreover, curiously
and without similarities in the literature, 80% of the patients in the present study
had multiple aneurysms.
Some authors suggest that the size and number of intraocular bleeds are clinically
relevant,[10] as well as the relationship between the location of the intracranial hemorrhage
and the unilateral or bilateral involvement of the eyes,[11] and even the type of intraocular hemorrhage and mortality.[12]
In the aforementioned systematic review,[1] the mortality of patients with TS was 4.8 times higher than that of patients without
the syndrome (43% and 9% respectively), whereas Shaw and Landers[13] concluded that the mortality among patients with the syndrome is only 2 times higher.
We could not infer whether there is an increase in mortality, since our study group
consists of successfully treated patients who have achieved a good neurological recovery
and therefore does not include TS patients who have died.
The treatment of choice for TS is generally conservative, with improvement of visual
acuity and complete resolution of the deficit within 6 months.[5] However, in rare cases, proliferative retinopathy, retinal detachment or cataract
may occur.[5] Surgical intervention is reserved for cases in which there is no visual improvement
after 6 months of the onset of the symptoms,[5]
[14] with vitrectomy being the procedure of choice.[15] This procedure, however, may be associated with complications such as: retinal damage,
retinal detachment, cataract, endophthalmitis, and recurrence of retinal hemorrhage.[5] Nevertheless, after a successful vitrectomy, it is expected that most patients will
show complete improvement of visual acuity,[16] which was observed in our patients.
In the present study, 3 (60%) out of the 5 patients required ophthalmologic surgery
(vitrectomy). Only one of the eight affected eyes did not achieve complete recovery
of vision after treatment, whether conservative or surgical. Considering only the
eyes submitted to vitrectomy, 4 out of 5 (80%) had reversal of symptoms, with final
acuity of 1. This represents a result compatible with the literature. In a retrospective
study by Garweg et al,[17] 59.1% of the patients with TS presented a visual acuity better than 0.8 after treatment
with vitrectomy.
Conclusion
Terson syndrome is relatively frequent among patients with SSAH, and the usual clinical
manifestation is reduced visual acuity. The diagnosis of TS should be early, considering
its association with poor prognosis, and the reversibility of the ophthalmologic condition
through surgical or even conservative management.
