AIM To evaluate the ciliary body and peripheral retina in degenerative retinoschisis associated with pars plana cysts using ultrasound biomicroscopy (UBM).
METHODS 18 eyes of 12 patients with degenerative retinoschisis associated with pars plana cysts were selected through binocular indirect ophthalmoscopy and Goldmann three mirror lens examination, both with scleral depression. These patients were studied in detail with UBM.
RESULTS Study of the ciliary body with UBM showed pars plana cysts of different size and uneven shape. In cross sections the morphology of pars plana cysts in detail and the close relation of the cysts with the oral region and the peripheral retina, where areas of cystoid degeneration and retinoschisis were present, were observed. In transverse sections three main morphological aspects of pars plana cysts could be differentiated (“isolated,” “confluent,” and “clustered” cysts). Furthermore, ultrabiomicroscopy allowed differential diagnosis between retinoschisis and associated retinal detachment in six eyes.
CONCLUSIONS The study of peripheral degenerative retinoschisis and pars plana cysts is possible in vivo by means of UBM, showing the detailed morphology of the lesions (not otherwise evident through ophthalmoscopic examination) and the close relation between pars plana cysts, cystoid degeneration, and peripheral retinoschisis.
- ultrasound biomicroscopy
- degenerative retinoschisis
- pars plana cysts
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Degenerative retinoschisis is a common pathology in the elderly12 defined as a splitting of the sensory retina.3 It may be better investigated clinically by means of indirect binocular ophthalmoscopy and Goldmann three mirror lens examination, especially with scleral depression.4-8 Both conventional and high frequency ophthalmic ultrasound have proved to be helpful in the diagnosis and differential diagnosis of this condition.9-12
Retinoschisis has been related to peripheral cystoid degeneration,1314 possibly resulting from an exaggerated response to the same factors that cause microcysts.1516Controversy exists in the literature regarding the pathogenesis of these degenerative processes, as different theories have been put forward but none has proved to be unquestionable.131617 The pathogenetic mechanism has been attributed to circulatory disturbances, the motility of accommodation, vitreous traction, holes in the inner lamina, autolysis of retinal cells in the peripheral retina, osmotic procedures, and transudate from the choriocapillaris.17 Histochemical studies have shown that the content of the cystoid spaces and schisis of the peripheral retina is hyaluronic acid.18 The same material had been found in pars plana cysts,18-20 where it would accumulate owing to an active secretion from the non-pigment epithelium of the ciliary body and especially of the pars plana.19 Subsequent splitting of the ciliary pigment and non-pigment epithelial layers would lead to pars plana cyst formation. Once the similarity of the content of pars plana cysts and of cystoid degeneration and retinoschisis of the peripheral retina had been disclosed, the hypothesis that retinoschisis also was caused by a secretory process was advanced.1721 However, no periodic acid Schiff (PAS) positive cells could be demonstrated within the walls of retinoschisis.17 In the past, glial cells, such as astrocytes and Mueller cells, were suggested as a possible source of hyaluronic acid.16
Pars plana cysts have been reported as common alterations of the posterior ciliary body1922 of no clinical concern423 that can be seen at indirect ophthalmoscopy and Goldmann three mirror examination.42425Histologically,22 they usually result from the separation of the two epithelial cell layers of the pars plana; less frequently, small cysts derive from the coalescence of vacuoles within adjacent non-pigmented cells or alternatively from a general loosening of cells within an area of epithelial proliferation. In a histopathological study, the cysts were demonstrated to continue posteriorly with an area of cystoid degeneration of the peripheral retina.23
Ultrasound biomicroscopy (UBM) is a painless and non-invasive diagnostic technique that offers high resolution imaging.11 It has gained much popularity not only in the diagnosis of anterior segment disorders,112627 among which are cysts of different origin,28 but also of the pars plana and peripheral retina.1112 Recently this technique has been applied to the diagnosis of retinal detachment,1229 retinoschisis,12 and detachment of the ciliary epithelium among other conditions.3031
High resolution imaging of the peripheral retina and the ciliary body permits study of the morphology of these regions in cases of degenerative retinoschisis in vivo, providing interesting clues to the clinical and physiopathological understanding of this condition. In the present report, UBM was added to clinical examination to better identify and evaluate the location and extension of degenerative retinoschisis. Furthermore, the entire ciliary body, pars plana, and pars plicata were studied in detail.
Eighteen eyes of 12 patients with degenerative retinoschisis associated with pars plana cysts were studied. Six were males and six females, with an age range from 25 to 78 years (mean 57.5 years, SD 13.97). Best corrected visual acuity was 20/20 in all patients.
Six patients had been diagnosed with bilateral retinoschisis and six had been diagnosed with unilateral retinoschisis. They were submitted to binocular indirect ophthalmoscopy and Goldmann three mirror lens examination, both with scleral depression. UBM of the peripheral retina and the ciliary body was performed on all eyes. The device (UBM 840 System, Humphrey Instruments, Inc, San Leandro, CA, USA) was adjusted to operate on a 50 MHz, high (2.5 × 2.5 mm) or medium (5 × 5 mm) scan format, with a resolution of 50 μm. The theory and technique of UBM is well described in previous works.11262732
To achieve the best imaging of the peripheral retina 24 mm eye cups or at times a water bath formed with an operating room drape, colloidon around the eye, and a wire speculum, were used. The coupling medium between the eye and the UBM probe was either saline solution, 2.5% methylcellulose, or both. The distance of the probe from the eye surface was 2–3 mm. The patient's cooperation was always needed as imaging of the pars plana and the peripheral retina is gaze dependent.
The peripheral retinal lesions and ciliary body changes are shown in detail in the Table 1.
For both pars plana cysts and retinoschisis location was prevalent in the temporal quadrants, the upper and lower temporal quadrant being involved almost at the same rate. In six eyes, retinal detachment showed a similar pattern of distribution.
Pars plana cysts varied in size and shape. The cross sectional images showed that the cysts emerged from the posterior third of the pars plana in the majority of cases (16/18 eyes) to extend with a fairly bollous profile to the ora serrata (Figs 1A, 2A). This presented, at times, a band of microcystic degeneration, where hyperreflective strands of tissue split the microcysts (Fig 1A). Beyond the ora, areas of peripheral retinoschisis were clearly imaged as a single thin hyperreflective layer (Figs 1A, 2A, 3A); thus, UBM examination confirmed the ophthalmoscopic findings in all eyes. It was notable that pars plana cysts were large and numerous in the same areas where retinoschisis was located. Retinoschisis and pars plana cysts were found to be adjacent to each other (Fig 2A) and sometimes associated through a band of microcystic degeneration in between (Fig1A).
In transverse sections three main morphological patterns of pars plana cysts could be distinguished:
“isolated” cysts, either adjacent to each other or separated by intact areas of ciliary epithelium, presenting an internal wall with a smooth profile and a regular single convexity towards the vitreous body (Fig 3C);
“confluent” cysts with an irregular profile of the internal wall which formed a double convexity towards the vitreous body (Fig 1C);
“clustered” cysts, relatively the largest of the three types, extending for a few millimetres, defined by a continuous but ragged internal lamina, presenting multiple convexities towards the vitreous (Figs 1D, 2B, 3D).
In one patient (no 7) cysts of the ciliary processes and of the pars plana were observed in both eyes. In some cross sectional images these cysts were seen to extend from the pars plicata to the pars plana closely following each other. The pars plicata was normal in the other patients (Figs 1B, 3B).
In six eyes with ophthalmoscopically detected schisis detachment it was possible to confirm the diagnosis at UBM and to differentiate the two lesions; retinoschisis was imaged as a single thin hyperreflective echo and retinal detachment as a thick and bilayered hyperreflective echo (Fig 4).12
UBM is a useful diagnostic tool not only in pathologies of the anterior segment but also of the posterior part of the ciliary body and of the peripheral retina.111229 The high resolution images allow a more detailed morphological study compared with “traditional” ophthalmoscopic study. Furthermore, examination is carried out in vivo, which is not possible by histopathological means.
In the 18 eyes, cross sectional study of the ciliary body and peripheral retina showed the close topographical and morphological relation between pars plana cysts and peripheral degenerative retinoschisis (Figs 1A, 2A, 3A). In the areas corresponding to retinoschisis pars plana cysts were numerous and so close to each other as to be adjoining. At times, there was a band of cystoid degeneration between the two lesions (Fig 1A).
In the literature, the prevalence of pars plana cysts in the general population has been reported as 16%.33 The association of pars plana cysts with retinoschisis comes from a few histological2023 and clinical2 reports. Adams described primitive pars plana cysts like empty spaces between the ciliary pigment and non-pigment epithelium; anteriorly, these cysts were noted to extend variably over the pars plana towards the ciliary processes, and posteriorly they continued with an area of retinal cystoid degeneration beyond the ora.23 In our study using UBM similar alterations were observed in vivo.
Histochemical studies have shown that pars plana cysts are filled with hyaluronic acid as a result of an active secretory mechanism.19 The same substance is found in the cystoid spaces and schisis of the peripheral retina,18 but no PAS positive cells have been demonstrated within the walls of retinoschisis.17 These features and the close morphological relation imaged at UBM may suggest that fluid secreted at the level of the pars plana passes into the schisis cavity in the peripheral retina. Indeed, at the ora serrata the external limiting membrane, owing to the absence of the particles of the photoreceptors, gradually comes closer to the retinal pigment epithelium and just before the passage to ciliary tissue closely blends with the junctional structures joining the lateral cell walls of retinal pigment epithelium (Verhoeff membrane).34 Thus, the passage of cyst contents under the external limiting membrane would be hampered and the liquid would accumulate between the external limiting membrane and the inner retinal layers, causing retinoschisis.
On transverse sections pars plana cysts were distinguished in three main morphological types, based on the profile of their internal wall, as “isolated,” “confluent,” and “clustered.” The “isolated” cysts were generally adjacent to each other, though maintaining their individuality. This is shown by the regular convex profile of the internal wall towards the vitreous; their dimensions were variable. The “confluent” cysts could suggest that two adjacent cysts become so close as to blend, thus giving the aspect of an irregular internal wall defining communicating cavities. However, the reason why some cysts join and others do not is not clear. The same process of lateral fusion could account for the “clustered” cyst type, where a single ragged line represents the internal wall of a single large cystic process extending for a few millimetres. This picture resembles that described ophthalmoscopically by Schepens as “schisis of the pars plana.”2224
UBM has contributed to the detailed study of pars plana cysts and peripheral retinoschisis in vivo giving further insight to the morphology of these lesions and their association.
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