Abstract
Sarcoidosis is a chronic inflammatory disease of unknown etiology characterized by the formation of noncaseating epithelioid granuloma in multiple systemic organs such as lung, lymph nodes, eyes, or skin. The other organs including heart, liver, bones, salivary glands, nervous, or muscles are also affected but the incidences are much less. Among all sarcoidosis patients, about 40–50% of the patients develop ocular complications including granulomatous uveitis (Obenauf et al. 1978; Jabs and Johns 1986; Ohara et al. 1992). The ocular symptoms such as photophobia, blurred vision, or floaters, often appear as the first symptoms of sarcoidosis. Although the etiology of sarcoidosis is not known yet, systemic cellular immune responses against certain microbes such as Mycobacterium tuberculosis (Fang et al. 2016), Propionibacterium acnes (Ishige et al. 2005; Negi et al. 2012), or mumps virus (Uzun et al. 2004) are hypothesized to be the causative antigen to form granulomas in sarcoidosis. Most affected ages by sarcoidosis distribute between the third to fifth decade of life in both genders, and elderly women are also affected (Silver and Messner 1994). Sarcoidosis is currently the most frequent cause of uveitis in Japan (Ohguro et al. 2012), but it is not the case in other countries including neighboring Asian countries. In general, African American, Asian, and South Americans are often affected by sarcoidosis, while Caucasian people are less affected.
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Introduction
Sarcoidosis is a chronic inflammatory disease of unknown etiology characterized by the formation of noncaseating epithelioid granuloma in multiple systemic organs such as lung, lymph nodes, eyes, or skin. The other organs including heart, liver, bones, salivary glands, nervous, or muscles are also affected but the incidences are much less. Among all sarcoidosis patients, about 40–50% of the patients develop ocular complications including granulomatous uveitis (Obenauf et al. 1978; Jabs and Johns 1986; Ohara et al. 1992). The ocular symptoms such as photophobia, blurred vision, or floaters, often appear as the first symptoms of sarcoidosis. Although the etiology of sarcoidosis is not known yet, systemic cellular immune responses against certain microbes such as Mycobacterium tuberculosis (Fang et al. 2016), Propionibacterium acnes (Ishige et al. 2005; Negi et al. 2012), or mumps virus (Uzun et al. 2004) are hypothesized to be the causative antigen to form granulomas in sarcoidosis. Most frequently affected ages by sarcoidosis distribute between the third to fifth decade of life in both genders, and elderly women are also affected (Silver and Messner 1994). Sarcoidosis is currently the most frequent cause of uveitis in Japan (Ohguro et al. 2012), but it is not the case in other countries including neighboring Asian countries. In general, African American, Asian, and South Americans are often affected by sarcoidosis, while Caucasian people are less affected.
The gold standard to diagnose sarcoidosis is histopathological proof of noncaseating epithelioid granuloma, but biopsy is essentially not possible to perform using intraocular tissues, and biopsy in other organs could not easily be done because it is invasive procedure especially for the patients who do not have systemic symptoms other than the eye. Therefore, diagnosis of sarcoidosis is usually performed based on a combination of clinical intraocular signs and systemic investigational tests. In 2006, the first international workshop on ocular sarcoidosis (IWOS) was held, and the international diagnostic criteria for ocular sarcoidosis (IWOS criteria) were established (Herbort et al. 2009). These criteria were revised in 2017, but the intraocular clinical signs included in both criteria are identical as described in the next section.
Clinical Features
The intraocular clinical features suggestive of sarcoidosis described in IWOS criteria are: mutton fat keratic precipitates and/or iris nodules at the pupillary margin (Koeppe) or in the stroma (Busacca), trabecular meshwork nodules and/or tent-shaped peripheral anterior synechia, snowball/string of pearls vitreous opacities, multiple chorioretinal peripheral lesions (active and atrophic), nodular and/or segmental periphlebitis and/or macroaneurysm in an inflamed eye, optic disc nodule/granuloma and/or solitary choroidal nodule, and bilaterality assessed by clinical examination showing subclinical inflammation (Herbort et al. 2009) (Table 11.1). The granulomatous signs in the anterior segment can easily be diminished by local steroid therapy, so it is very important to actively look for the signs of granuloma in every tissue of the eye before initiating steroid treatment using slit lamp biomicroscopy, gonioscopy, indirect fundoscopy, and other imaging tools such as fluorescein or indocyanine green angiography (FA, ICGA) or optical coherence tomography (OCT).
Retinal and Choroidal Involvements
Multiple chorioretinal lesions are regarded to be the sign of retinal or choroidal granuloma which appears to be yellowish-white lesions in its active phase. The lesions in the shallow layer of the retina look similar to the scars of laser photo coagulation in its atrophic phase (Fig. 11.1). Only a few chorioretinal lesions sometimes appear (Fig. 11.2a), while a number of lesions are sometimes observed in a close formation (Fig. 11.2b).
Retinal lesions also appear as yellowish subretinal exudative lesions (Fig. 11.3), and FA shows mottled hyperfluorescence in the corresponding area (Fig. 11.4). Although the other area of the retina looks normal, FA sometimes shows extensive hyperfluorescence in the retina or the retinal veins.
The chorioretinal lesions can present in the deeper layer of the retina or in the choroid (Fig. 11.5a). While FA does not detect such lesions, ICGA can show the presence of the chorioretinal lesions in the deeper layers as multiple hypofluorescence dots (Fig. 11.5b, c).
Choroidal granuloma is a rare form of intraocular sign of sarcoidosis. It is observed as subretinal yellowish lesion with dull margin (Fig. 11.6a). Ultrasound imaging shows the elevated lesion (Fig. 11.6b), and OCT shows the thickened choroid and elevated RPE (Fig. 11.6c). OCT also detects the subretinal infiltrates, and this may be shown as hyperfluorescein area by FA (Fig. 11.6d). ICGA shows broadly distributed dark spots, and choroidal folds surrounding the granuloma (Fig. 11.6e). Optic disc nodule also is a rare form of intraocular sign of sarcoidosis (Fig. 11.7). The specificity of choroidal granuloma and optic disc nodule is high in patients with sarcoidosis when compared to other types of uveitis (Takase et al. 2010; Acharya et al. 2018). Choroidal granuloma eventually causes chorioretinal atrophy and retinal pigment epithelium degeneration (Figs. 11.8 and 11.9).
Retinal Vascular Involvements
Sarcoidosis affects retinal veins as perivascular exudates, so-called candle-wax drippings, along with the retinal vein (Fig. 11.10a), or segmental nodular periphlebitis along with the retinal vein (Fig. 11.11a). FA shows diffuse hyperfluorescence in the perivascular exudates (Fig. 11.10b), while FA shows segmental hyperfluorescence in the nodular periphlebitis (Fig. 11.11b). Severe sheath formation of the retinal vein can also be seen although it is relatively rare (Fig. 11.12a). Fluorescein angiography shows diffuse hyperfluorescence in the corresponding retinal vein (Fig. 11.12b). Even when retinal periphlebitis is absent or just faint nodular periphlebitis is seen, FA sometimes shows nodular hyperfluorescence more than expected from the appearance of the fundus (Fig. 11.13). As for retinal artery involvement, macroaneurysm accompanied with intraocular inflammation is sometimes seen (Fig. 11.14).
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Takase, H. (2020). Sarcoidosis. In: Yu, H. (eds) Inflammatory and Infectious Ocular Disorders. Retina Atlas. Springer, Singapore. https://doi.org/10.1007/978-981-13-8546-9_11
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