Key symptoms and signs

CMV retinitis commonly affects the peripheral retina and symptoms of early disease may be minimal or absent. Blurring, floaters and central scotomas may develop with the affection of the central retina.

Historical development

CMV eye disease was first reported in 1947, being a rare clinical entity mostly seen in adults under medical immunosuppression. In the 1980s, with the acquired immunodeficiency syndrome (AIDS) pandemic, CMV became a frequent form of posterior uveitis. In the mid-1990s, before the introduction of highly active antiretroviral therapy (HAART), about 30% of patients with AIDS developed CMV retinitis during their lifetime. However, the introduction of HAART achieved a 75% reduction in the incidence of CMV retinitis.

Epidemiology

About half of the normal population has antibodies against CMV. However, CMV infection in immunocompetent hosts does not usually produce symptomatic disease. The mode of transmission is by direct person-to-person contact and the virus is shed predominantly in urine, saliva, and semen. Most of the CMV retinitis cases result from reactivation of previously acquired disease. In patients with AIDS, CMV is one of the most common opportunistic infection. CMV retinitis usually presents in an advanced disease stage and is strongly associated with a low CD4+ T-cell count below 50 cells/mm ³ .

Diagnostic workup

The diagnosis is principally based clinically, with the typical clinical features in an immunocompromised patient. Detection of anti-CMV antibody from the vitreous and/or aqueous humor (and comparing it with the serum levels using the Goldmann–Witmer coefficient) can be helpful in selected cases. Viral culture and polymerase chain reaction (PCR) from ocular tissue (if other malignant entities are suspected) or fluid can demonstrate the existence of viral DNA, but it is important to remember that this does not directly confirm the diagnosis of CMV retinitis, because CMV can persist in the tissue without causing disease.

Differential diagnosis

CMV retinitis must be differentiated from retinitis due to HSV or VZV, syphilitic retinitis, toxoplasma retinochoroiditis, intraocular lymphomas and fungal infections.

Treatment

The first step is to improve, if possible, the immune status of the patient. In AIDS, HAART therapy has demonstrated immune reconstruction and is beneficial not only for prevention, but also for treating CMV retinitis. Systemic and local anti-CMV drugs are needed in almost all AIDS patients. The most common include ganciclovir, foscarnet, and cidofovir. Others approved for treatment include fomivirsen and valganciclovir. These drugs are usually administered systemically, but in patients with intolerance or progression, intravitreal (injections or implants) ganciclovir or foscarnet can also be considered. The size of the lesion will be the main sign to evaluate the response to the treatment. In chronic immunocompromised patients, the anti-CMV therapy must be maintained indefinitely.

Prognosis and complications

Rhegmatogenous retinal detachment (RD) is a common complication of CMV retinitis. This is usually associated with retinal necrosis and multiple retinal breaks. A vitrectomy with silicone oil tamponade has been shown to be an effective treatment for patients who have an RD caused by CMV retinitis.

The course of CMV retinitis in the HAART era shows that the rate of retinitis progression is decreased compared with the pre-HAART era, even among those with low CD4+ T-cell counts. The incidence of visual impairment during follow-up after CMV retinitis is substantially lower among patients who receive HAART, especially those observed to have immune recovery. However, among patients with CD4+ T-cell counts less than 50 cells/mm ³ , while on HAART, the rates were more similar to those from the pre-HAART era.

Key symptoms and signs

EBV may affect the eye in many different ways, usually as conjunctivitis or uveitis, and often occurs in primary infec tions in the context of infectious mononucleosis. Follicular conjunctivitis is the most frequent ocular feature. Severe bilateral iritis and iridocyclitis have also been reported. Almost all structures of the posterior segment can be affected. Macular edema, retinal hemorrhages, punctate outer retinitis with secondary subretinal neovascularization, and subretinal fibrosis may occur. Multifocal choroiditis and other posterior-segment pathologies are uncommon and have been described in patients with infectious mononucleosis and, more recently, in patients suffering from X-linked lymphoproliferative disorder, AIDS, or even in otherwise healthy individuals.

Historical development

EBV was first isolated in 1964 from a cultured Burkitt’s lymphoma cell line. During recent decades, EBV has been implicated in a broad spectrum of human diseases like infectious mononucleosis, anaplastic nasopharyngeal carcinoma, and B-cell lymphomas, among others.

Epidemiology

EBV infection is distributed worldwide. Antibodies against EBV can be detected in approximately 90% of the population but only a few suffer from ocular disease.

Transmission requires contact with body fluids, primarily saliva, but also through blood transfusions. Primary infection is usually subclinical or leads to mild symptoms typical of a nonspecific viral illness, but in some cases it takes the clinical picture of infectious mononucleosis, especially when it affects adolescents.

Diagnostic workup

Serum antibody titers against EBV may be helpful, especially if the initial high levels are followed by a subsequent decrease coinciding with the resolution of the acute phase. Other techniques like PCR or biopsy of the affected tissues may also be helpful in selected cases.

Differential diagnosis

Posterior-segment findings may appear similar to those caused by tuberculosis, syphilis, or sarcoidosis. Retinal and choroidal infiltrations may be confused with acute phases of toxoplasmosis, histoplasmosis, or white-dot syndromes.

Treatment

Ocular disease is commonly self-limiting and no treatment is indicated. Uveitis sometimes requires corticosteroid therapy. Severe cases, especially those rare instances where the posterior segment is affected, may require similar antiviral agents as those used in acute retinal necrosis syndrome: intravenous aciclovir, ganciclovir, brivudine, valganciclovir, and foscarnet.

Prognosis and complications

The panuveitis and choroiditis in patients with EBV infection can be complicated by macular edema and cataract formation. Visual prognosis is usually poor in patients with chronic smoldering chorioretinitis leading to subretinal neovascularization or cystoid macular edema.

Key symptoms and signs

Ocular manifestations

Ocular manifestations include trabeculitis, iridocyclitis, acute retinal necrosis ( Figure 83.2 ), and variants of necrotizing herpetic retinopathy. Inflammation of the endothelium occurs relatively early in the course of disease and leads to stromal and epithelial edema. Endotheliitis is typically accompanied by signs of mild anterior-chamber inflammation. Keratic precipitates often appear under affected regions of the cornea and they can be either small or large (mutton fat). Iridocyclitis tends to occur within 1–2 weeks of disease onset, but can appear many months later. Later, inflammation is mediated by an immune reaction against persistent viral antigen presence in the corneal stroma. Sectoral occlu sion of the iris vasculature leads to atrophic sectoral patches in approximately 20% of cases and can produce hypopigmentation or, infrequently, hyperpigmentation, and iris sphincter damage.

Foci of retinitis in acute retinal necrosis. Note the perivascular infiltrates along the arteries.

Historical development

Giovanni Filippo provided the first description of the varicella virus. Herpesvirus infections of the uvea were characterized in the late 1970s and Culbertson and associates proved the pathogenic connection of herpesviruses in 1982.

Epidemiology

Ninety percent of the population demonstrates serologic evidence of exposure to VZV by age 60, but only 20% will have experienced an episode of viral reactivation.

Diagnostic workup

The diagnosis is based on a typical clinical picture of unilateral involvement, corneal hypoesthesia, and pattern of keratic precipitates, mild flare and cells in the anterior chamber with foci of iris stromal sectorial atrophy. Aqueous humor aspirates can be analyzed for antibodies directed against VZV by enzyme-linked immunosorbent assay (ELISA). Viral DNA within the aqueous can be detected by PCR technology.

Differential diagnosis

Other viruses of the herpes family, like CMV, EBV, and HSV, can mimic iridocyclitis caused by VZV. Syphilis, tuberculosis, leprosy, lymphogranuloma venereum, and chronic myelomonocytic leukemia can also be considered.

Treatment

Systemic antivirals are the mainstay management of VZV uveitis – usually oral aciclovir but also famciclovir and valaciclovir (a prodrug of aciclovir). Topical corticosteroids are used to control iridocyclitis and the inflammatory manifestations of corneal disease, including disciform keratitis, endotheliitis, and keratouveitis. In the acute stages, cycloplegic agents are used to relieve the discomfort of photophobia and prevent the formation of synechiae.

Prognosis and complications

The most frequent ocular complication is secondary glaucoma. Posterior pole complications can develop and these include cystoid macular edema, epiretinal membrane, papillitis, retinal fibrosis, and detachment. VZV uveitis typically runs a chronic course and visual prognosis is dependent on the severity of complications and its treatment.

Key symptoms and signs

Systemic manifestations include myalgia, malaise, fatigue, low-grade fever, and lymphadenopathy. Ocular manifestations are typically unilateral and can present in both immunocompetent and immunocompromised patients. Neuroretinitis appears to be most common and is usually unilateral, with optic disc edema ( Figure 83.4 ) and a macular star. A multifocal retinitis and/or choroiditis can also develop, as can chorioretinitis, serous macular detachments, intraretinal hemorrhages, cottonwool spots, Parinaud’s oculoglandular syndrome, conjunctivitis, anterior and posterior uveitis, and vascular lesions of the optic nerve.

Fluorescein angiogram in Bartonella -associated panuveitis with papilledema and cystoid macular edema.

Historical development

Barton described the first human Bartonella infection in 1909. Foshay created the term “cat-scratch fever” in 1932. Sweeny and Drance made the correlation between intraocular inflammation and cat-scratch disease (CSD) in 1970.

Epidemiology

CSD has been shown to be a worldwide zoonotic infection with the reservoir for Bartonella henselae in domestic cats. CSD is the leading cause of regional lymphadenopathy in children and young adults worldwide. Prevalence of neuroretinitis in the context of CSD is approximately 1–2%. The infection is not known to be transmitted from human to human. The prevalence of CSD in the USA is approximately 22 000 cases per year.

Diagnostic workup

The diagnosis of CSD is primarily based on clinical features supported by laboratory testing with detection of DNA of B. henselae by PCR technology using a very small sample of serum or other body fluids. Other tests include enzyme immunoassay (EIA) and Western blot test.

Differential diagnosis

Other causes of regional lymphadenopathy and conjunctivitis include tularemia, sporotrichosis, tuberculosis, syphilis, lymphogranuloma venereum, leprosy, and Yersinia . Neuroretinitis may be seen in syphilis, tuberculosis, toxoplasmosis, varicella, herpes simplex, toxocariasis, leptospirosis, and infectious mononucleosis. A macular star with vitritis can be seen in toxoplasmosis and vascular disorders such as anterior ischemic optic neuropathy, acute systemic hypertension, and increased intracranial pressures.

Treatment

There are no formalized guidelines which one can follow to treat the ocular complications associated with B. henselae . Despite this, several groups have used oral ciprofloxacin, prednisone, and doxycycline, with favorable responses. Elevated immunoglobulin (Ig) M or IgG titers for B. henselae can be suggestive of current or past infection.

Prognosis and complications

CSD typically runs a self-limiting course in immunocompetent hosts. Antimicrobial therapy in immunocompromised hosts results in a dramatic response and hence these have been recommended for severe ocular or systemic complications of CSD. Visual prognosis of most patients with CSD-associated neuroretinitis is therefore excellent.

Key symptoms and signs

Ocular manifestations

Most patients with syphilitic uveitis develop it during the latent stage of the infection. Anterior uveitis may be unilateral or bilateral, granulomatous, or nongranulomatous. It can present with iris nodules or atrophy, anterior-chamber cells with or without anterior vitritis, dilated iris vessels, interstitial keratitis, and lens dislocation. Syphilis can affect the posterior segment ( Figure 83.5 ), most commonly causing chorioretinitis. The fundus lesions are usually grayish yellow in color. Other manifestations include disc edema, arterial or venous vasculitis, vitritis, intermediate uveitis, serous RD, neuroretinitis, and necrotizing retinitis. Complications include glaucoma, cataracts, macular edema, and choroidal neovascular membranes.

Syphilitic panuveitis with vitritis, vitreous hemorrhage, and papillitis.

Historical development

Schaudin and Hoffman isolated the spirochete in 1905 from the skin lesions of infected patients.

Epidemiology

Although it was the second leading cause of uveitis before the 1940s, currently it comprises about 1–2% of all uveitis cases.

Diagnostic workup

Available nonspecific serological tests that quantify the amount of serum anticardiolipin antibody are the rapid plasma reagin (RPR) and the Venereal Disease Research Laboratory (VDRL). The results depend on the status of infection and treatment. Titers are usually high in active infection, but drop when the disease is not active (latent infection or after successful treatment). Specific tests measure the amount of serum antibody against treponemal antigens. The fluorescent treponemal antigen absorption test (FTA-ABS) is the one mostly used. This test becomes positive during the secondary stage of syphilis and remains positive for the patient’s lifetime. This test is more sensitive during the latent stage, which is when uveitis usually develops. With the microhemagglutination assay for T. pallidum (MHA-TP) test, treponemes can be visualized by incubating infected body fluid (from chancre or skin pustule) with fluorescent-tagged antibody and visualizing it under dark-field microscopy. The T. pallidum particle agglutination test (TP-PA) is used to confirm a positive FTA-ABS. Patients with uveitis who are diagnosed with syphilis must have examination of the cerebrospinal fluid.

Differential diagnosis

Syphilitic uveitis must be differentiated from other causes of granulomatous uveitis like tuberculosis, leprosy, sarcoidosis, and herpes. It is also in the differential diagnosis of intermediate uveitis and therefore may be confused with Lyme disease or sarcoidosis.

Treatment

Penicillin is the treatment of choice in syphilis, either intramuscular or intravenous. As syphilitic uveitis is considered a form of neurosyphilis, the intravenous regimen is favored. Alternative treatments for penicillin-allergic patients include doxycycline or tetracycline. Penicillin desensitization is another option for these patients.

Prognosis and complications

Complications from syphilitic uveitis include cataracts, glaucoma, macular edema, epiretinal membranes, RD, chorioretinitis, and neovascular memebranes. Complications secondary to treatment include Jarisch–Herxheimer reaction manifesting as fever, myalgia, malaise, and headache.

Syphilis, if recognized early and treated appropriately, can result in a cure. If untreated, prolonged syphilitic disease can permanently damage the eye and can result in significant morbidity and mortality due to cardiovascular complications.