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Show J. Clin. Neuro-ophtludmol. 5: 229-237, 1985 © 1985 Raven Press, New York Branch Retinal Artery Occlusion in the .Churg-Strauss Syndrome UNDA RABINOWITZ DAGI, M.D. JON CURRIE, M.B., B.S., F.R.A.C.P. Abstract Amawosis fugax followed by retinal infarction occurred as an early manifestation of exacerbation in a 46-yeaJ'oOld woman with allergic angiitis and granulomatosis (Churg-Strauss syndrome). There was evidence of widespread intraluminal branch retinal artery occlusions without accompanying retinal vasculitis. Low molecular weight dextran and heparin, in addition to systemic steroid therapy, appeared to be beneficial. A review of the ophthalmic manifestations of the Churg-Strauss syndrome and of other hypereosinophilic conditions suggests that thromboembolism resulting from a hypercoagulable state may be as important as vasculitis in causing visual symptoms. Specific therapy attempting to alter blood coagulation and rheology may have an important role in these conditions. Allergic angiitis and granulomatosis (ChurgStrauss syndrome) forms part of the spectrum of disseminated systemic necrotizing vasculitis, of which classic pol~arteritis nodosa is the best recognized entity.1- With polyarteritis nodosa, Churg-Strauss syndrome shares the features of fibrinoid necrosis of small- and medium-sized muscular arteries, causing multisystem organ involvement.3- 6 However, in addition, ChurgStrauss syndrome is associated with an allergic diathesis, adult-onset asthma, fever, transient pulmonary infiltrations, high levels of peripheral eosinophilia, and eosinophilic tissue infiltration and granuloma formation, all of which are uncommon in classic polyarteritis nodosa. I -5.7 Histologically there is also a substantial degree of inflammatory involvement of small vessels such as capillaries and venules, which does not occur in polyarteritis nodosa.3,7 Tissue ischemia is the "universal common denominator" of the vasculitides and most attention has been focused on vascular occlusion From the National Eye Institute, National Institutes of Health, Bethesda, Maryland. Write for reprints to: Jon Currie, Nationallnstilutes of Health, Building 10, Room 105227, Bethesda, MD 20892. December 1985 caused by acute inflammation or by sustained fibrotic narrowing of the vessel wall after acute inflammation has subsided.s This certainly applies to the ocular manifestations of polyarteritis nodosa, for which reports of retinal, choroidal, and conjunctival ischemia invoke an underlying arteritis. 9- 12 Reports of ophthalmic complications in Churg-Strauss syndrome are much rarer, but again they usually implicate the underlying vasculitis. 1j- 15 We present a case of Churg-Strauss syndrome in which amaurosis fugax and eventual retinal infarction were clearly caused by branch retinal artery thromboembolism rather than by retinal artery vasculitis. From this case, together with a review of the few reports of ophthalmic complications in Churg-Strauss syndrome and a comparison with the reported ophthalmic manifestations of the hypereosinophilic syndrome, we suggest that, in Churg-Strauss syndrome, thromboembolism resulting from a hypercoagulable state may be as important as vasculitis in causing visual symptoms. This has important implications for specific therapy for such visual loss in the Churg-Strauss syndrome. Case Report A 46-year-old Asian woman with ChurgStrauss syndrome was referred for neuroophthalmic evaluation following sudden visual loss in the right eye. The clinical diagnosis of Churg-Strauss syndrome had been made 12 months before on the basis of adult-onset asthma at age 40, intermittent petechial and purpuric vesicular rash, fevers, recurrent sinusitus, and a mononeuritis multiplex involving both motor and sensory nerves. Laboratory studies had shown white blood cell counts ranging from 10,000 to 20,Ooo/mm3, an eosinophilia of 10-70%, platelet counts from 250,000 to 600,OOO/mm3, and sedimentation rates (Westergren) as high as 140 mmlh. Biopsy material from skin, gastrocnemius muscle, and sural nerve had shown acute and chronic vasculitis with a prominent eosinophilic 229 Churg-Strauss Syndrome with Retinal Artery Occlusion component and focal areas of perivascular inflammatory infiltration with eosinophils, plasma cells, and some small and large lymphocytes (Fig. 1). While some arteries showed narrowing and occlusion from vasculitic changes in their walls, a few small arteries appeared to be occluded by intraluminal collections of eosinophils and fibrin debris, without vasculitic changes (Fig. 2). Bronchial and nasal sinus biopsies showed eosinophilic subepithelial inflammation and soft tissue infiltration with eosinophils, plasma cells, and occasional lymphocytes. Like the clinical and laboratory features, these histologic changes were consistent with the diagnosis of Churg-Strauss syndrome.3•7 The patient's clinical condition remained relatively stable, with maintenance prednisone therapy of alternating daily doses of 60 and 10 mg. Four months prior to her sudden visual loss in the right eye, she had suffered three episodes, 3 h apart, of blurring of the visual field in her left eye. Each episode lasted only a few minutes, but a slight residual blurring of vision remained for about 1 week. On the day before her visual loss, the patient experienced three episodes of transient obscuration of vision in the right eye, one predominantly affecting the upper visual field, one predominantly the lower visual field, and the third involving the whole field of vision. These lasted from 5 to 30 min before resolving, but slight residual clouding of vision persisted. A further episode of amaurosis occurred the next day while she was undergoing a medical examination. On funduscopy at that time, white embolic material was seen passing through the superior temporal retinal artery. Several minutes after this material had migrated distally and disappeared from view, the patient's vision returned to its baseline level. However, within several hours, she again noticed a dense central scotoma obscuring vision in the right eye. This time the scotoma did not resolve but became more extensive during the next 2 h. Visual acuity was reduced to 201 200 in the right eye and remained 20/13 in the left eye, with a relative afferent pupillary defect on the right. Slit lamp examination showed no' evidence of inflammatory cells in the anterior chamber or vitreous. Intraocular pressures were normal, as were extraocular movements. Goldmann perimetry demonstrated a large central scotoma in the right eye, extending superonasally (Fig. 3, top left) and no abnormalities in the left eye. In the right fundus there was white material occluding both the superior and inferior retinal artery bifurcations at their origins on the optic disc (Fig. 4a). Venous return through the inferior retinal vein was severly impeded at the arteriovenous crossing. The blood column in the inferotemporal arterial branches was segmented and stationary and further areas of white material could be seen occluding more distal arterial bifurcations in both the superior and inferior arterial arcades (Figs. 5 and 6a). A segmental area of retinal nerve fiber layer edema and opacification extended from the optic disc to the macula, with an incipient macular cherry-red spot. However, there were no hemorrhages, exudates, or vessel changes suggesting an underlying retinal vasculitis, and the Figure 1. Biopsy from gastrocnemius muscle showing vascu· lilic occlusion of a small vessel and perivascular infiltration, with prominent eosinophUic component. 230 Journal of Clinical Neuro-ophthalmology Dagi, Currie Figure 2. Biopsy from gastrocnemius muscle shOWing occlusion of a small arteriole by an intraluminal collection of eosinophils, without vasculitic changes. left fundus was normal. Laboratory studies showed a white blood cell count of 19,400/mm3 with 48% eosinophils, hemoglobin level of 11.4 gldl, platelet count of 450,OOO/mm3, and erythrocyte sedimentation rate (Westergren) of 45 mm/h. Bilateral carotid arteriogram and echocardiogram were normal. The clinical evidence for an embolic retinal vascular lesion was so strong that therapy was begun with low molecular weight dextran and heparin, in addition to increasing the prednisone dosage to 100 mglday. Within 24 h, visual acuity in the right eye had improved to 20/50, with considerable decrease in the size of the central scotoma (Fig. 3, top right). The white material occluding the bifurcations of the superior and inferior retinal arteries was no longer present (Fig. 4b). There were still peripheral occlusions in the inferior temporal vessels, but distal blood flow had improved (Fig. 6b). FIuo- Pigure 3. Goldmann perimetry for the right eye showing initial dense central scotoma (top left), with continued resolution at 24 h (top right), 14 days (lower left), and 12 months (lower right) after ONet of visual loss. December 1985 231 Churg-Strauss Syndrome with Retinal Artery Occlusion (a) (b) Figure 4. a: Occlusions at the bifurcations of the superior and inferior retinal arteries (arrows) with impaired venous return at the inferior arteriovenous crossing (arrow). b: Resolution of the arterial obstruction within 24 h and improvement of inferior retinal vein flow. rescein angiogram showed focal arterial occlusions without flow, but no evidence of retinal vasculitis such as dye leakage from arteries, veins, or optic disc. By 36 h, there was restoration of flow in the inferior temporal arcade vessels (Fig. 6c), with only small areas of peripheral focal obstruction where bifurcation occlusions had previously been. Retinal edema persisted in the perimacular area. Fluorescein 232 angiography showed only one area of focal dye leakage, at a site of previous occlusion in the inferior branch artery (Fig. 7a). Again there was no evidence of retinal vasculitis. This area of focal dye leakage was no longer present when the fluorescein angiogram was repeated 3 days later (Fig. 7b). The low molecular weight dextran and heparin were ceased after 5 days, at which time Journal of Clinical Neuro-ophthalmology visual acuity in the right eye was 20/25, but with perimacular retinal edema and a small central scotoma still resolving. Over the next 2 weeks, increasing cough and asthma, new ischemic skin lesions, and an increasing eosinophilia, platelet count, and erythrocyte sedimentation rate necessitated the addition of cyclophosphamide to the patient's treatment regimen, with considerable clinical improvement. On review 12 months later, visual acuity in the right eye was 20/25, with a small residual central scotoma (Fig. 3, lower right) and an inferior maculopapular nerve fiber bundle defect as the only fundus abnormality. No further episodes of transient amaurosis had occurred. Discussion There are very few reports of ophthalmic complications in the Churg-Strauss syndrome, and only occasionally do these involve the retinal vasculature. Cury et al. 13 reported a chronic bilateral uveoscleritis associated with progressive visual loss, bilateral disc edema, and optic nerve inflammation in a 67-year-old woman with Churg-Strauss syndrome. Histology available for the most affected eye showed necrotizing eosinophilic granulomatous inflammation involving sclera, ciliary body, iris, vitreous, optic nerve, and choroid. Retinal vessels were "almost entirely replaced by inflammatory reac- Dagi, Currie tion." Although transient vJsual obscurations occurred in this patient, they are more likely to have been related to her disc edema16 than to transient retinal artery ischemia. Meisler et al. 14 reported conjunctival inflammation and amyloidosis in a 32-year-old woman with Churg-Strauss syndrome. Again, histology showed a diffuse extravascular eosinophilic inflammatory infiltrate, this time involving the conjunctiva. No clinical evidence of retinal vascular inflammation was noted. Chumbley and associates2 make brief mention of marginal corneal ulceration in one of 30 cases with Churg-Strauss syndrome that they reviewed. In 1983, Weinstein et aLI5 described neuroophthalmic complications in two cases of Churg-Strauss syndrome. One patient had a left fourth nerve palsy with an otherwise normal eye examination. Rackemann and Greenl7 had also previously described fourth nerve palsy in the Churg-Strauss syndrome. The second case reported by Weinstein et al. was that of a 61-year-old man with visual loss and ischemic optic neuropathy in the right eye and symptoms of amaurosis fugax together with scattered retinal infarcts in the left eye. Although a diagnosis of retinal vasculitis was made, in fact the retinal vessels in both eyes were normal, there was no evidence of intraocular inflammatory cells, and only a single ret- Fipre S. Multiple branch occlusions with white intraluminal material in the superior retinal arterial arcade at the lime of initial visual loss. December 1985 233 Fjgu~ 6. a: Intraluminal arterial occlusion in a distal inferotemporal retina1 artery at the lime of visual loss (arrows), with poor distal blood flow. b: Twenty-four hours later, some residual arterial occlusion remains (arrows), but distal flow has improved. c: Thirty-six hours later, resolution of arterial occlusion (arrows) and restoration of distal flow. (a) (el Churg-Strauss Syndrome with Retinal Artery Occlusion (b) inal hemorrhage was noted along the right superotemporal vascular arcade. Most recently, Ibanez Bermudez et at. 18 reported an episode of visual loss with "central retinal artery occlusion" in a 44-year-old woman with Churg-Strauss syndrome. Although the clinical details concerning this episode are extremely sketchy, it was apparently reversible and occurred during a period of severe exacerbation of the patient's underlying asthma. There is no suggestion that any retinal vascular abnormalities were present other than the central retinal artery occlusion. Thus, in only one reported case of ChurgStrauss syndrome is there convincing evidence of retinal vasculitis,13 and that occurred in the setting of chronic panocular inflammation, a sit- 234 uation quite different from that in our case and in those of Weinstein et al. IS and Ibanez Bermudez et al. I8 In our patient, at least one episode of amaurosis fugax occurred while embolic material was observed passing through the retinal arteries. Retinal infarction was accompanied by branch retinal artery occlusions with aggregations of intraluminal white material at vessel bifurcations (Figs. 5 and 6a). These arterial occlusions cleared rapidly within 36 h and were not associated with any concomitant ophthalmoscopic evidence of arterial or venous vasculitis or with any evidence of inflammatory cells in the vitreous. Fluorescein angiography showed only one area of focal arterial leakage, present at the time and site of an arterial 0bstruction and resolving within 3 days of the res- Joumal of Clinical Neuro-op~tha1mology FiPft 7. &: Fluorescein angiogram, 36 h after visual loss, showing focal leakage of dye from the inferior temporal arterial bifurcation illustrated in Fig. 6 (arrow). b: Three days later. the area of focal leakage has resolved (arrow). la) Ib) olution of the arterial obstruction (Fig. 7a and b). Such focal arterial leakage has been described as a hallmark of embolic branch retinal artery occlusion.19 There was no evidence of the more widespread leakage from arteries, veins, or optic disc itself that has commonly been described in various forms of retinal vasculitis. 20-23 There are many reports of different forms of retinal vasculitis occuring in conjunction with a December 1985 wide variety of inflammatory and vasculitic diseases. 11.12.21,24-32 Recently, however, some attention has been focused on intraarterial thromboembolism without vasculitis as a cause of retinal arter~ occlusion in some of these conditions. 33- 6 Mechanisms such as immune complex deposition, fibrin-platelet pluggin~ and hypercoagulability have been suggested. -38 A marked peripheral and tissue eosinophilia 235 Churg-Strauss Syndrome with Retinal Artery Occlusion is a feature that distinguishes the ChurgStrauss syndrome from other necrotizing vasculitides. I - 4 In considering the possibility of nonvasculitic retinal thromboembolism in the Churg-Strauss syndrome, it is interesting to review the ophthalmic manifestations of the hypereosinophilic syndrome. Here, peripheral blood eosinophilia is accompanied by organ system involvement without evidence of a generalized vasculitis. 39.40 Histologically, vessels often show occlusion by microthrombi together with perivascular eosinophilic infiltrates, without an accompanying vasculitis. 39.40 Evidence of choroidal and retinal vessel thromboembolism is frequent (66 and 58%, respectively), with areas of choroidal and retinal ischemia associated with both arterial occlusions and capillary dropout. 41 Gardner-Thorpe and colleagues41 noted occlusion of the right superior retinal artery in one of four patients they described who had bilateral cerebral hemisphere damage from "disseminated eosinophilic collagen disease." Blacklock et al. 42 described recurrent episodes of transient retinal ischemia in an 18-year-old man with profound eosinophilia. On one occasion, "white emboli were observed in both inferior temporal retinal arteries." After therapy with heparin and leukapheresis, only one further episode of amaurosis occurred. The common occurrence of nailbed splinter hemorrhages43 and evidence of arterial emboli throughout the body44 is also well described in the hypereosiniphilic syndrome, an~ extensive peripheral thromboembolism may be a cause of death.45 Endocardial lesions are one source of emboli in the hypereosinophilic syndrome,43-4S and similar myocardial and endocardial inflammation and fibrosis can occur in the Churg-Strauss syndrome.1 In our patient, however, echocardiography was normal. Local arterial thrombus formation with peripheral embolus propagation may also arise in the hypereosinophilic syndrome from direct endothelial cell damage produced by Charcot- Leyden crystals,46 or following activation of Ha~eman factor by eosinophilic cationic protein. 7 Our patient's retinal artery occlusion was an early manifestation of a period of increased disease activity. At the time of her visual loss, the peripheral eosinophil count was 9,300/mm3 and the platelet count was 450,OOO/mm3. Such eosinophilia and thrombocytosis are both characteristic of the ChurgStrauss syndrome,S and both are risk factors for hypercoagulability and thromboembolism. Of particular interest in our patient is the fact that previous biopsies of skin, gastrocnemius muscle, and sural nerve had demonstrated some intraluminal vascular occlusions caused by collections of eosinophils and fibrin debris 236 (Fig. 2), in addition to the more frequently seen vasculitic occlusions of small arteries (Fig. 1). Chaine et al. 40 suggested that thromboembolic occlusions in the hypereosinophilic syndrome may be more widespread than currently suspected; this may also be the case in the ChurgStrauss syndrome and may be the basis for some of the complications in both syndromes. The presence of retinal artery emboli without vasculitis in our patient led us to treat her with low molecular weight dextran and heparin in an attempt to alter the blood rheology, in addition to increasing her regular anti-inflammatory therapy of steroids. We believe that this may have been helpful both in reducing her residual visual loss and in preventing additional episodes of retinal embolization during a period of enhanced coagulability. This case emphasizes that the possibility of thromboembolism as well as vasculitis should be considered in the Churg-Strauss syndrome, particularly in patients presenting with symptoms of visual loss, where direct observation of the retinal vessels is possible. References 1. 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