oc000005
10.3205/oc000005
urn:nbn:de:0183-oc0000055
Case Report
Chronic central serous choroidopathy with severe visual loss in hyperopic microphthalmic identical twins
Fabry
Fabry
Annelies
A
Department of Ophthalmology, University Hospitals Leuven, Leuven, Belgium
annelies.fabry@uzleuven.be
author
Blanckaert
Blanckaert
Johan
J
Department of Ophthalmology, University Hospitals Leuven, Leuven, Belgium
oogartsen@telenet.be
author
Leys
Leys
Anita
A
Department of Ophthalmology, University Hospitals Leuven, Kapucijnenvoer 33, 3000 Leuven, BelgiumDepartment of Ophthalmology, University Hospitals Leuven, Leuven, Belgium
anita.leys@uzleuven.be
author
German Medical Science GMS Publishing House
Düsseldorf
610
identical twins
hyperopia
central serous choroidopathy
thick choroid
short ocular axial length
EDI OCT
ultrasound A-scan biometry
autofluorescence imaging
fluorescein and indocyanine green angiography
microphthalmos
posterior microphthalmos
nanophthalmos
20111107
engl
2193-1496
1
GMS Ophthalmology Cases
GMS Ophthalmol Cases
05
Objective: To report chronic central serous choroidopathy with severe visual loss in hyperopic microphthalmic identical twins.Methods: The index patient was first examined in 1994, at age 31, and has been followed up closely for 17 years. He had repeated fluorescein and indocyanine green angiograms, OCT, ultrasound biometry, and recently also autofluorescence and EDI OCT. His twin brother was first examined in 2010, at age 47, and had a similar extensive exploration. Results: The index patient had a mean refractive error of +6 D OU and VA was 20/32++ in the RE and 20/200 in the LE in 1994. Vision slowly went down to 20/800+ in the RE and 20/600 in the LE in 2011. His twin brother has a mean refractive error of +6 D OU and VA 20/400 OU. Both have a short axial length of the eye, a thick choroid with dilated vessels, and central serous choroidopathy with cystic degeneration of the macula and retina in the posterior pole. Conclusions: We add to the reported complications of microphthalmos, chronic central serous choroidopathy.
IntroductionSo far, hyperopia is not considered to be a risk factor for central serous choroidopathy (CSC). Twins with high hyperopia were reported by Black in 1924 and CSC has been observed in identical twins by Jonkers in 1960 , but none had the combined pathology. Familial CSC and familial chronic CSC without hyperopia have been reported by others. We report CSC with severe visual loss in hyperopic identical twins. Ultrasound A-scan biometry showed reduced total total axial lenght of the globes, and EDI OCT showed dilated choroidal veins and a thick choroid. These findings show that hyperopia with short axial length of the eye can predispose to CSC , , , , , , , , , , , , , , , , , , .
Case presentationIndex patientThe index patient started wearing spectacles at age 14, when he was learning weaving techniques. For several years the hyperopic correction was increased, and the corrected VA allowed the patient to work easily. At age 27, vision loss was noticed, first in the left eye and later in the right eye. His ophthalmologist was unable to correct the vision, diagnosed a maculopathy, and referred the patient to a medical retina specialist, who advised lasercoagulation. The patient did not want this treatment, waited for some time, and came to see us for second opinion in 1994, at age 31.External examination of the eyes was normal, including corneal size (11 mm diameter OU) and palpebral fissure (Figure 1 ). BCVA was 20/32++ in the RE and 20/200 in the LE (correction RE sph +5.25 cyl +1.50 axis 42 and LE +5.50 cyl +0.75 axis 109). Ocular tension was <![CDATA[17 mmHg</PlainText></TextGroup> RE and 18 mmHg LE. Biomicroscopic examination showed in both eyes a mildly reduced anterior chamber depth and a maculopathy (Figure 2 <ImgLink imgNo="2" imgType="figure"/>). Fluorescein angiography confirmed the presumed diagnosis of CSC OU with macular serous detachment, diffuse pigment epitheliopathy, and mild focal subretinal leakage (<TextGroup><PlainText>Figure 3 </PlainText></TextGroup><ImgLink imgNo="3" imgType="figure"/>). Focal lasercoagulation was performed in the RE in 1995, 1996, 1997 and 1998, but despite this treatment the macular detachment increased slowly and cystic retinal degeneration and fibrosis became evident, as well in the RE as in the LE (Figure 4 <ImgLink imgNo="4" imgType="figure"/>). Repeated FA revealed progressively expanding subretinal lesions in the posterior pole of both eyes, with leakage, staining and pooling of fluid (Figure 5 <ImgLink imgNo="5" imgType="figure"/>). In 2004, PDT was available, and as the exudative lesions were pronounced, one session of SFR PDT was administered in the LE, however, without benefit. Over the last years of follow-up eye drops with dorzolamide were used, apparently without benefit. OCT was available in 1997, and repeated scans showed pronounced and progressive cystic degeneration of the macula OU (<TextGroup><PlainText>Figure 6 </PlainText></TextGroup><ImgLink imgNo="6" imgType="figure"/>). EDI OCT, available in 2011, demonstrated dilated choroidal vessels and a thick choroid (Figure 7 <ImgLink imgNo="7" imgType="figure"/>). ICGA also showed dilated choroidal vessels (Figure 8 <ImgLink imgNo="8" imgType="figure"/>). Ultrasound A-scan biometry demonstrated OU reduced total axial length, reduced anterior chamber depth, reduced vitreous cavity and increased lens thickness (Table 1 <ImgLink imgNo="1" imgType="table"/>). Recently, atrophic changes became evident (Figure 9 <ImgLink imgNo="9" imgType="figure"/>) and on OCT decreased retinal thickness was observed (Figure 7 <ImgLink imgNo="7" imgType="figure"/>). Autofluorescence imaging showed large areas of hypoautofluorescence compatible with afunctional retinal pigment epithelium and retina (Figure 10 <ImgLink imgNo="10" imgType="figure"/>). VA in 2011 was 20/800+ in the RE and 20/600 in the LE. </Pgraph><SubHeadline>Twin brother</SubHeadline><Pgraph>The twin brother received his first pair of glazes at age 21. He is working as a gardener without major visual problems, but at age 34 developed reading problems and vision loss. At age 47, he realized to have a similar eye problem as his twin brother, and consulted for diagnosis and testing of low vision aids. External examination of the eyes was normal, including corneal size (diameter 11 mm OU) and palpebral fissures (Figure 1 <ImgLink imgNo="1" imgType="figure"/>). BCVA was 20/400 OU (RE sph +6.25 cyl –0.75 axis 113° and LE sph 7.00 cyl –1.75 axis 67°). Ocular pressure was normal (16 and 15 mmHg on pneumotonometry). Biomicroscopic examination showed a mildly reduced anterior chamber depth and a bilateral maculopathy with CSC very similar to his brothers. Autofluorescence imaging (Figure 11 <ImgLink imgNo="11" imgType="figure"/>), fluorescein angiography (Figure 12 <ImgLink imgNo="12" imgType="figure"/>) and indocyanine green angiography (Figure 13 <ImgLink imgNo="13" imgType="figure"/>), OCT and EDI-OCT (<TextGroup><PlainText>Figure 14 </PlainText></TextGroup><ImgLink imgNo="14" imgType="figure"/>), and ultrasound biometry (Table 1 <ImgLink imgNo="1" imgType="table"/>) were performed and showed similar ocular anomalies and a maculopathy that was slightly milder than his brother’s. Over the next year the maculopathy got slightly worse (Figure 15 <ImgLink imgNo="15" imgType="figure"/>).</Pgraph></TextBlock>
<TextBlock linked="yes" name="Discussion">
<MainHeadline>Discussion</MainHeadline><Pgraph>The twins reported in this paper are 6 diopters hyperopic in both eyes, have normal corneal size, and presented with bilateral chronic central serous choroidopathy and severe visual loss. The four eyes have similar biometric ocular data with mildly reduced anterior chamber depth, a lens thicker than expected, reduced vitreous cavity and reduced total axial length. These data confirm a developmental anomaly in the spectrum of microphthalmos <TextLink reference="24"></TextLink> (Table 1 <ImgLink imgNo="1" imgType="table"/>). </Pgraph><Pgraph>Microphthalmos is a congenital ocular malformation with reduced size of the globe. The clinical suspicion can be raised on the basis of apparently small eyes <TextLink reference="25"></TextLink>. In suspected patients another condition, blepharophimosis, should be excluded. Blepharophimosis is characterized by small palpebral fissures, but normal size of the globe <TextLink reference="25"></TextLink>. </Pgraph><Pgraph>Microphthalmos can present as an isolated ocular anomaly (isolated simple or pure microphthalmos), or in ass<TextGroup><PlainText>ociati</PlainText></TextGroup>on with other ocular or systemic abnormalities. <TextGroup><PlainText>The spectrum</PlainText></TextGroup> of associated anomalies is broad, and inc<TextGroup><PlainText>lud</PlainText></TextGroup>es coloboma, mental retardation, neurologic and renal anomalies, fetal alcohol syndrome, myotonic dystrophy and achondroplasia <TextLink reference="9"></TextLink>, <TextLink reference="26"></TextLink>, <TextLink reference="27"></TextLink>. Both autosomal dominant and recessive forms of inheritance have been reported in microphthalmos. According to Warburg <TextLink reference="25"></TextLink>, <TextLink reference="26"></TextLink>, there are more than 130 syndromes which may present microphthalmos and over 70 with blepharophimosis, but in only 13 cases are the two found in the same syndrome. So far, the molecular genetics of the morphogenesis of the eye and, thus of microphthalmos, have revealed that PAX6 at 11p13, PAX3 at 2q35, and the microphthalmia transcription factor MITF are of importance for the embryonic growth of the eye, but blepharophimosis has not been reported in patients with mutations or deletions of these genes <TextLink reference="25"></TextLink>. We have reported microphthalmos in a patient with renal-coloboma syndrome associated with PAX2 mutation <TextLink reference="27"></TextLink>. Sundin et al. <TextLink reference="19"></TextLink> have shown that recessive nanophthalmos is caused by severe mutations in the MFRP gene at 11q23.3. This gene encodes the Frizzled-related transmembrane protein MFRP that is selectively expressed in the retinal pigment epithelium (RPE) and ciliary body. MFRP protein is required for both prenatal ocular growth and postnatal emmetropization. Othman et al., reported autosomal dominant nanophthalmos (NNO1) with high hyperopia and angle-closure glaucoma mapping to chromosome 11 <TextLink reference="14"></TextLink>.</Pgraph><Pgraph>Whenever a patient is suspected of having microphthalmos, an ultrasound determination of the axial length of the eye should be provided <TextLink reference="25"></TextLink>. Ultrasound biometry allows accurate assessment of the total axial length of the globe, the anterior chamber depth and risk for angle closure glaucoma <TextLink reference="14"></TextLink>, <TextLink reference="18"></TextLink>, and the volume of lens and vitreous cavity. Based on biometric data harmonious microphthalmos is differentiated of posterior microphthalmos. Microphthamos can be extreme with blindness <TextLink reference="27"></TextLink> or relatively mild with spared vision <TextLink reference="9"></TextLink>. </Pgraph><Pgraph>Posterior microphthalmos disproportionately affects the posterior ocular segment with normal external appearance of the eyes <TextLink reference="6"></TextLink>. The corneal size and the anterior segment dimensions are normal, but there is foreshortening of the posterior ocular segment and high hyperopia. This hyperopia and an elevated papillomacular retinal fold are the main causes of visual impairment <TextLink reference="6"></TextLink>, <TextLink reference="12"></TextLink>, <TextLink reference="13"></TextLink>, <TextLink reference="16"></TextLink>, <TextLink reference="17"></TextLink>, <TextLink reference="21"></TextLink>. A disparity in growth between the sclera and retina probably gives rise to the frequently identified elevated papillomacular retinal fold <TextLink reference="6"></TextLink>, <TextLink reference="16"></TextLink>.</Pgraph><Pgraph>Other relatively frequent ocular abnormalities observed in microphthalmos/posterior microphthalmos are absence of the capillary-free zone, retinal striae, chorioretinal <TextGroup><PlainText>folds, uveal</PlainText></TextGroup> effusion, pigmentary retinal dystrophy and pseudopapilledema <TextLink reference="13"></TextLink>, <TextLink reference="16"></TextLink>, <TextLink reference="17"></TextLink>. Macular hole, retinitis punctate albescens, and acquired retinoschisis <TextLink reference="20"></TextLink> have been reported as a rare association.</Pgraph><Pgraph>The terminology of nanophthalmos has been used mainly in poorly defined phenotypes with small eyes, thick sclera and uveal effusion <TextLink reference="5"></TextLink>, <TextLink reference="7"></TextLink>, <TextLink reference="8"></TextLink>, <TextLink reference="15"></TextLink>, <TextLink reference="23"></TextLink>. The thickened sclera impedes vortex venous drainage and/or reduces transscleral flow of protein from the eye, which causes fluid accumulation (from the choriocapillaris) in the choroid, subretinal space, or both. This may produce choroidal congestion, choroidal detachment, and/or exudative retinal detachment.</Pgraph><Pgraph>The twins reported in this paper have biometric data with reduced total axial length. Their data (Table 1 <ImgLink imgNo="1" imgType="table"/>) only mildly differ from those reported by Weiss et al. in 1989 in a study of 10 patients with isolated simple microphthalmos <TextLink reference="9"></TextLink> and from those reported by Khairallah et al. in 2002 in a study of 18 patients with posterior microphthalmos <TextLink reference="16"></TextLink>. We conclude that high hyperopia urges the ophthalmologist to perform ultrasound biometry to confirm or exclude microphthalmos. Eyes with reduced axial length are microphthalmic and require additional investigation to detect associated anomalies and follow up should be proposed as there is a risk of treatable complications. A shallow anterior angle implies a risk of angle closure glaucoma <TextLink reference="7"></TextLink>, <TextLink reference="18"></TextLink>, a treatable condition. Uveal effusion is another treatable complication of microphthalmos <TextLink reference="8"></TextLink>. We add to the reported complications of microphthalmos, chronic central serous choroidopathy. Although we failed to stabilize vision, new therapies may become available in the next future making this complication treatable. </Pgraph></TextBlock>
<TextBlock linked="yes" name="Notes">
<MainHeadline>Notes</MainHeadline><Pgraph>The authors have no notes/conflict of interest concerning the report of this case.</Pgraph></TextBlock>
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<Media>
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<Caption><Pgraph><Mark1>Table 1: Biometric data and mean refractive error in the twin brothers compared to emmetropic subjects (Delmarcelle et al. 1976 [24]), patients with isolated simple microphthalmos (Weiss et al. 1989 [9), and patients with posterior microphthalmos (Khairallah et al. 2002 [16]).</Mark1></Pgraph></Caption>
</Table>
<NoOfTables>1</NoOfTables>
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<Figures>
<Figure format="png" height="576" width="864">
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<MediaID>1</MediaID>
<Caption><Pgraph><Mark1>Figure 1: Index patient in 2011, at age 48, and his twin brother who looks almost exactly alike. Note normal palpebral fissures, normal size of the cornea and no deep set globes. </Mark1></Pgraph></Caption>
</Figure>
<Figure format="png" height="470" width="1215">
<MediaNo>2</MediaNo>
<MediaID>2</MediaID>
<Caption><Pgraph><Mark1>Figure 2: Index patient in 1994, at age 31. Colour photograph of the RE (A) and LE (B) showing a bilateral maculopathy with serous macular detachment.</Mark1></Pgraph></Caption>
</Figure>
<Figure format="png" height="983" width="1301">
<MediaNo>3</MediaNo>
<MediaID>3</MediaID>
<Caption><Pgraph><Mark1>Figure 3: Index patient in 1994, at age 31. Fluorescein angiography of the RE, early phase (A) and late phase (B), and of the LE early phase (C) and late phase (D) show macular RPE window defects OU and mild subretinal focal leakage.</Mark1></Pgraph></Caption>
</Figure>
<Figure format="png" height="512" width="1201">
<MediaNo>4</MediaNo>
<MediaID>4</MediaID>
<Caption><Pgraph><Mark1>Figure 4: Index patient in 2004, at age 41. Note in the RE (A) and in the LE (B) pronounced serous elevation of the macula, cystic degeneration of the retina and fibrotic changes.</Mark1></Pgraph></Caption>
</Figure>
<Figure format="png" height="989" width="1201">
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<MediaID>5</MediaID>
<Caption><Pgraph><Mark1>Figure 5: Index patient in 2004, at age 41. Fluorescein angiography AV filling phase of the RE (A) and LE (B) and late phase in the RE (C) and LE (D) show large lesions with RPE window defects, leakage staining and pooling of dye. </Mark1></Pgraph></Caption>
</Figure>
<Figure format="png" height="800" width="497">
<MediaNo>6</MediaNo>
<MediaID>6</MediaID>
<Caption><Pgraph><Mark1>Figure 6: Index patient, LE. OCT Stratus in 1999, at age 36 (A) and OCT Stratus in 2007, at age 44, show progressive and pronounced cystic degeneration of the macula.</Mark1></Pgraph></Caption>
</Figure>
<Figure format="png" height="397" width="1626">
<MediaNo>7</MediaNo>
<MediaID>7</MediaID>
<Caption><Pgraph><Mark1>Figure 7: Index patient, OCT Spectralis EDI in 2011, at age 48. Note dilated choroidal vessels and a thick choroid, and cystic degeneration of the retina, with reduced thickness of the retina compared to previous recordings.</Mark1></Pgraph></Caption>
</Figure>
<Figure format="png" height="496" width="496">
<MediaNo>8</MediaNo>
<MediaID>8</MediaID>
<Caption><Pgraph><Mark1>Figure 8: Index patient, ICGA in 2004, at age 41. Note dilated choroidal vessels in the left eye.</Mark1></Pgraph></Caption>
</Figure>
<Figure format="png" height="512" width="1201">
<MediaNo>9</MediaNo>
<MediaID>9</MediaID>
<Caption><Pgraph><Mark1>Figure 9: Index patient in 2011, at age 48. Widespread atrophic and degenerative changes are noted in the posterior pole of the RE (A) and left eye (B).</Mark1></Pgraph></Caption>
</Figure>
<Figure format="png" height="496" width="496">
<MediaNo>10</MediaNo>
<MediaID>10</MediaID>
<Caption><Pgraph><Mark1>Figure 10: Index patient in 2011, at age 48. Autofluorescence imaging of the LE shows large areas of hypoautofluorescence compatible with atrophy and afunctional retinal pigment epithelium and retina.</Mark1></Pgraph></Caption>
</Figure>
<Figure format="png" height="654" width="614">
<MediaNo>11</MediaNo>
<MediaID>11</MediaID>
<Caption><Pgraph><Mark1>Figure 11: Twin brother in 2010, at age 47. Autofluorescence imaging of the LE shows similar, but less pronounced than in the index patient, large areas of hypoautofluorescence compatible with atrophy and afunctional retinal pigment epithelium and retina.</Mark1></Pgraph></Caption>
</Figure>
<Figure format="png" height="672" width="1166">
<MediaNo>12</MediaNo>
<MediaID>12</MediaID>
<Caption><Pgraph><Mark1>Figure 12: Twin brother in 2010, at age 47. HRA fluorescein angiography of the RE and LE in AV phase and at 10 minutes (A-D) and OIS composite image at 16 minutes show bilateral cystic elevation of the macula, RPE window defects, leakage and late pooling, similar to the FA changes in the index patient.</Mark1></Pgraph></Caption>
</Figure>
<Figure format="png" height="491" width="461">
<MediaNo>13</MediaNo>
<MediaID>13</MediaID>
<Caption><Pgraph><Mark1>Figure 13: Twin brother in 2010, at age 47. ICGA in 2010, at age 46. Note dilated choroidal vessels in the left eye similar to the changes in the index patient.</Mark1></Pgraph></Caption>
</Figure>
<Figure format="png" height="770" width="1245">
<MediaNo>14</MediaNo>
<MediaID>14</MediaID>
<Caption><Pgraph><Mark1>Figure 14: Twin brother in 2010, at age 47. OCT Spectralis EDI of the LE shows dilated choroidal vessels and a thick choroid and cystic degeneration of the retina.</Mark1></Pgraph></Caption>
</Figure>
<Figure format="png" height="512" width="1201">
<MediaNo>15</MediaNo>
<MediaID>15</MediaID>
<Caption><Pgraph><Mark1>Figure 15: Twin brother in 2011, at age 48. Note in the RE (A) and in the LE (B) pronounced serous elevation of the macula, cystic degeneration of the retina and fibrotic changes, very similar to the changes observed in his brother.</Mark1></Pgraph></Caption>
</Figure>
<NoOfPictures>15</NoOfPictures>
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