Central Serous Chorioretinopathy Clinical Trial
Official title:
A Randomized, Double-masked, Placebo Controlled Study of the Beneficial Effects of Eplerenone on Central Serous Chorioretinopathy
Central serous chorioretinopathy (CSC) is supposedly the fourth most common non-surgical
retinopathy after age-related macular degeneration, diabetic retinopathy and branch retinal
vein occlusion. The disease was first described by Albrecht von Graefe in 1866 as a
'recurrent central retinitis' and is nowadays commonly known as 'central serous
chorioretinopathy', a term mainly coined by Donald Gass in the late 1960s.
Although the disease has been known for decades, the underlying mechanism is not yet fully
understood. Numerous studies have shown an involvement of the retinal pigment epithelium
(RPE) and the choroid which lead to accumulation of subretinal fluid with subsequent
detachment of the neurosensory retina.
Among several assumed risk factors, high serum glucocorticoid levels seem to be related to
the occurrence of CSC.
CSC typically affects young, male patients unilaterally and causes decreased and distorted
vision, often associated with metamorphopsia, micropsia, dyschromatopsia and reduced
contrast sensitivity. CSC can occur in an acute or chronic form. However, there is no
agreement in the literature concerning the duration of the two forms. Some authors define
CSC as chronic if there is persistent subretinal fluid for at least 6 months 11, others
speak of chronic CSC when symptoms last longer than 3 months. In contrast there are studies
where CSC is defined acute within the first 4 months. Spontaneously absorption is possible
in up to 50% and normally leads to the recurrence of a normal visual acuity. Chronic CSC can
result in a wide spread RPE damage and in a constantly reduction of visual acuity.
Structural changes in the retina and RPE have been found about 2 months after onset of the
disease. Those changes can cause accumulation of photoreceptor outer segments, lead to
consecutive atrophy of the photoreceptor cells and are associated with a loss of visual
acuity.
Different concepts of treatment exist, but none of these may be deemed to be the golden
standard. In the past few years several studies where CSC was treated with photodynamic
therapy (PDT) or half-fluence PDT showed good visual outcomes and morphologic
reconstitution. However, PDT is a destructive method which causes structural damage and can
trigger other severe complications like choroidal ischemia and iatrogenic CNV. Furthermore,
CSC is a self-limiting disease in many cases and physicians often hesitate to perform a
relatively destructive therapeutical approach to treat a potentially self-limiting disease.
A newer, non-destructive therpeutical concept is the oral use of eplerenone a
mineralocorticoid receptor antagonist. It is currently used in the treatment of hypertension
and congestive heart failure. In the recent literature it was shown that eplerenone improved
CSC and no serious adverse effects were observed in any case. However, no randomised
controlled studies were performed comparing eplerenone with placebo to evaluate the clinical
effect.
Central serous chorioretinopathy (CSC) is supposedly the fourth most common non-surgical
retinopathy after age-related macular degeneration, diabetic retinopathy and branch retinal
vein occlusion. The disease was first described by Albrecht von Graefe in 1866 as a
'recurrent central retinitis' and is nowadays commonly known as 'central serous
chorioretinopathy', a term mainly coined by Donald Gass in the late 1960s.
Although the disease has been known for decades, the underlying mechanism is not yet fully
understood. Numerous studies have shown an involvement of the retinal pigment epithelium
(RPE) and the choroid which lead to accumulation of subretinal fluid with subsequent
detachment of the neurosensory retina.
Among several assumed risk factors, high serum glucocorticoid levels seem to be related to
the occurrence of CSC.
CSC typically affects young, male patients unilaterally and causes decreased and distorted
vision, often associated with metamorphopsia, micropsia, dyschromatopsia and reduced
contrast sensitivity. CSC can occur in an acute or chronic form. However, there is no
agreement in the literature concerning the duration of the two forms. Some authors define
CSC as chronic if there is persistent subretinal fluid for at least 6 months 11, others
speak of chronic CSC when symptoms last longer than 3 months. In contrast there are studies
where CSC is defined acute within the first 4 months. Spontaneously absorption is possible
in up to 50% and normally leads to the recurrence of a normal visual acuity. Chronic CSC can
result in a wide spread RPE damage and in a constantly reduction of visual acuity.
Structural changes in the retina and RPE have been found about 2 months after onset of the
disease. Those changes can cause accumulation of photoreceptor outer segments, lead to
consecutive atrophy of the photoreceptor cells and are associated with a loss of visual
acuity.
Different concepts of treatment exist, but none of these may be deemed to be the golden
standard. In the past few years several studies where CSC was treated with photodynamic
therapy (PDT) or half-fluence PDT showed good visual outcomes and morphologic
reconstitution. However, PDT is a destructive method which causes structural damage and can
trigger other severe complications like choroidal ischemia and iatrogenic CNV. Furthermore,
CSC is a self-limiting disease in many cases and physicians often hesitate to perform a
relatively destructive therapeutical approach to treat a potentially self-limiting disease.
A newer, non-destructive therpeutical concept is the oral use of eplerenone a
mineralocorticoid receptor antagonist. It is currently used in the treatment of hypertension
and congestive heart failure. In the recent literature it was shown that eplerenone improved
CSC and no serious adverse effects were observed in any case. However, no randomised
controlled studies were performed comparing eplerenone with placebo to evaluate the clinical
effect.
Aim of this randomised controlled double-masked study is to compare the treatment effects of
eplerenone versus placebo in patients with acute or chronic CSC with an untreated
observational period of at least 2 months. If there is no sign of clinical improvement
within the first 16 weeks after the onset of symptoms, patients will be offered half-fluence
PDT.
In smaller case series, eplerenone was shown to be a valuable therapeutical option for
patients suffering from CSC, but no randomised studies are available. The oral application
was well tolerated by the patients and no severe side effects occurred.
The most common side effect of eplerenone is hyperkalemia making close monitoring in
individuals with diabetes mellitus or renal disease necessary. In our study, blood tests
according to the standard for eplerenone will be performed for all patients. Additionally,
all patients in the study will be seen and examined by an internal medicine specialist
sub-specialized in endocrinology prior to treatment and during the entire duration of the
study.
Patients suffering from CSC included in this study will either receive eplerenone or placebo
tablets. The treatment will start 2 months after recognition of first symptoms at the
earliest. Therefore, patients with acute CSC are not missing out on treatment, as the usual
"treatment" in this phase is observation only. Patients in the eplerenone group may benefit
from taking part in this study, whereas patients in the control group will undergo the
standard treatment (=observation only). Our current treatment protocol is to perform a
half-fluence PDT approximately 4 months after onset of symptoms. All patients that do not
improve within this time period will be offered to receive a half-fluence PDT. In the case
of chronic CSC, with onset of symptoms or diagnosis more than 2 months of duration,
eplerenone or placebo will nevertheless be offered with the above mentioned treatment period
of 2 months and the rescue therapy option of half-fluence PDT in case of no signs of a
positive treatment effect within 4 months of eplerenone therapy.
;
Allocation: Randomized, Endpoint Classification: Efficacy Study, Intervention Model: Parallel Assignment, Masking: Double Blind (Subject, Caregiver, Investigator, Outcomes Assessor), Primary Purpose: Treatment
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