DETECTION OF VARICELLA-ZOSTER VIRUS DNA IN OCULAR SAMPLES FROM PATIENTS WITH UVEITIS BUT NO CUTANEOUS ERUPTION P. STAVROUI, S. M. MITCHELL2, J. D. FOX", M. W. HOPE-ROSSi and P. I. MURRAY I SUMMARY with intraocular inflammation can be a diagnostic Herpes zoster ophthalmicus is a well-recognised cause of dilemma when there is no history of rash or evidence of intraocular inflammation, which may become recurrent skin scarring.IA.9 In the past, the availability of only small or chronic after the acute phase has elapsed. Although it volumes of ocular fluid and the high prevalence of serum commonly presents with the typical rash, cases of ocular antibodies to herpes viruses in the general popUlation has zoster with no cutaneous eruption have been well docu­ meant that making a specific diagnosis in such circum­ mented. We present two patients with unilateral anterior stances has been difficult. Recently, molecular techniques uveitis complicated by cataract, in whom molecular tech­ based on the polymerase chain reaction (PCR) have been niques based on the polymerase chain reaction detected applied successfully to a variety of ocular samples to iden­ 0- varicella-zoster virus DNA in intraocular material tify viruses in cases of intraocular inflammation.1 16 The obtained during cataract surgery. Neither patient gave a PCR has proven advantages as a diagnostic aid in view of history of cutaneous eruption. its specificity for amplification of specific genomic Herpes zoster ophthalmicus (HZO) is a common disease sequences from an infectious agent, requiring only minute caused by the reactivation of latent infection by the vari­ specimens and giving results within several hours. cella-zoster virus (VZV).1-4 An important complication is We present two patients with unilateral uveitis of anterior uveitis, which develops in 43-53% of patients.4-6 unknown aetiology and no history of cutaneous eruption. Its onset may be delayed for months after the disappear­ In both patients VZV DNA was isolated from intraocular ance of the rashlA.5 and can vary in severity from mild to samples obtained during cataract surgery, after ampli­ severe.1.4 Keratic precipitates, anterior and posterior syn­ fication by the PCR. echiae are common,2.7 and iris atrophy, although usually a PATIENTS AND METHODS late manifestation, may occasionally be present during the acute stage.1 .7 This is characterised by sectoral loss of iris Case I pigment epithelium and migration of pigment into the A 62-year-old healthy, immunocompetent, Caucasian overlying stroma and is thought to be secondary to an male initially presented to the Accident & Emergency occlusive vasculitis.H8 Posterior subcapsular cataract Department of the Birmingham and Midland Eye Hospital may develop as a result of chronic uveitis or prolonged use in September 1990, complaining of a red, painful left eye of topical steroids.1A Secondary glaucoma, seen in associated with blurred vision of 9 days' duration. His past 15-43% of patients with anterior uveitis due to HZO,s is ocular history was unremarkable. He was found to have a thought to be due to a combination of several mechanisms left anterior uveitis with 'mutton fat' keratic precipitates, including trabeculitis and plugging of the trabecular dense flare and cells, posterior synechiae, an intraocular meshwork with debris and cells, posterior synechiae caus­ pressure of 22 mmHg and a visual acuity reduced to 6/18. ing pupillary block and anterior synechiae causing angle The other eye was normal. He improved on topical ster­ closure.IA oids and was discharged after 2 months. While the clinical diagnosis of HZO is relatively easy He re-presented 6 days later with a relapse of the uvei­ when the typical cutaneous eruption is present, patients tis. At that visit, sectoral iris atrophy was noted. Routine From: 'Birmingham & Midland Eye Hospital, Birmingham. UK; uveitis investigations were negative except for an elevated 'Department of Medical Microbiology. Division of Virology. University plasma viscosity of 1.88 cP (normal range: 1.50-1.72 cP). College London Medical School. London, UK. The anterior uveitis became chronic in nature and a pos­ Correspondence to: Mr P. L Murray. PhD. FRCS, FRCOphth. Academic Unit of Ophthalmology. Birmingham and Midland Ey e terior subcapsular cataract developed. Hospital, Church Street. Birmingham B3 2NS. UK. Fax: 021-233 9213. In December 1992 he underwent a left extracapsular Eye (1994) 8, 684-687 © 1994 Royal College of Ophthalmologists VARICELLA-ZOSTER DNA IN UVEITIS 685 cataract extraction which was complicated by vitreous out, followed by a 7 minute extension at 72 °c using an loss, although a posterior chamber intraocular lens (IOL) automated thermal cycler. The reaction conditions for the was implanted. During the operation, aqueous humour, second round of PCR were as for the first except that the lens nucleus and vitreous humour were obtained. mix contained 100 ng of each ' inner' primer pair and I III His chronic uveitis persisted afterhis cataract extraction of the first-round product. For detection of the second­ and while his immediate post-operative acuity was 6/18, it round product, 25 cycles were sufficient. The first- and deteriorated to 6/36 in June 1993 due to cystoid macular second-round products were analysed by electrophoresis oedema (CMO). Although the CMO resolved after a peri­ using a 2% agarose gel and were visualised at 302 nm ocular injection of depot steroid, his visual acuity remains after staining with ethidium bromide. The extracted at 6/18 due to posterior lens capsular thickening. In view material from lens nucleus was treated in a similar way of the sector iris atrophy, there was a clinical suspicion of and lO-fold dilutions were added to the PCR reaction. VZV being the cause of this patient's chronic unilateral Aqueous samples were also obtained at cataract extrac­ uveitis. tion from 20 control patients with senile cataract and 20 patients with Fuchs' heterochromic cyclitis who acted as a Case 2 disease control group.211 A 55-year-old healthy, immunocompetent, Caucasian male has been attending the Birmingham and Midland RESULTS Eye Hospital since 1976 with a recurrent left anterior uvei­ In the aqueous samples no VZV, HSV-J or CMV DNA tis and secondary glaucoma. His other eye has always sequences could be detected in either case. In the vitreous been quiet. Routine uveitis investigations have been samples VZV DNA but not HSV-I or CMV DNA was normal except for a positive Mantoux test in 1976. As a detected in case I; no herpesviral DNA sequences were result of his recurrent inflammation he developed a pos­ found in case 2. In the lens nucleus VZV DNA but not terior subcapsular cataract. HSV-J or CMV DNA was detected in case 2; no herpes­ In January 1993 he underwent an uneventful extra­ viral DNA sequences were found in case 1. capsular cataract extraction and a heparin surface-modi­ No herpesviral DNA sequences were found in aqueous fied posterior chamber IOL was implanted. During the samples from either control group. operation, aqueous humour and lens nucleus were obtained. DISCUSSION Post-operatively, his visual acuity improved to 6/6 and Although viruses have been implicated as causative agents he still continues on topical steroid and beta-blocker. As in various forms of uveitis,1,lllIS,ln,21-29 the clinical diag- this patient's hypertensive anterior uveitis had always nosis can occasionally be difficult, particularly in atypical been unilateral over 17 years, there was a clinical sus­ cases. Confirmation of a viral aetiology using laboratory picion of herpes simplex virus-I (HSV-I) being the aeti­ techniques usually is unsatisfactory as demonstration of ological agent. antiviral antibodies in the serum does not confirm end­ organ disease. Increased concentration of specific anti­ Methodfor the Detection of Herpesviral DNA in bodies in aqueous humour and vitreous is also an indirect Ocular Samples sign of viral infection. Culturing herpes viruses from All ocular samples were taken under sterile conditions and intraocular fluids is difficult, requires relatively large then stored at -50°C. Prior to analysis, the aqueous and amounts of sample, and may take a considerable time until vitreous humour samples were boiled for 10 minutes then the result is known. Recent work by a variety of authors rapidly cooled on ice. The lens nucleus samples were dis­ has shown the value of applying molecular techniques solved in buffer containing sodium dodecyl sulphate and based on the PCR to the detection of herpes viruses in III-In proteinase K, boiled for 10 minutes, then incubated over­ ocular samples. Inherent to these techniques is their night at 37°C. rapidity, sensitivity and specificity when compared with The nested PCR method used for the detection of viral previous laboratory-based methods. DNA sequences from VZV gene 29, HSV-l gD and cyto­ The molecular technique used detected fragments of megalovirus (CMV) gB in ocular fluids has been reported VZV DNA and as such does not indicate actively repli­ previousl/S.16 and was applied to the ocular samples from cating virus. Treatment of the samples does not differen­ the patients described here. The method utilises oligonu­ tiate between cell-associated viral DNA and 'free' virus. cleotide primers adapted from those described by Maha­ Nevertheless, fragments of unencapsulated viral DNA are IX lingham et al.,17 Aurelius et 01. and Darlington et 01.19 unlikely to persist without being degraded, so our findings The first-round reaction mix contained 10 mM Tris-HCI almost certainly reflect the presence of VZV, latent or pH 8.3, 50 mM KCI, 1.5 mM MgCI , I unit of Taq poly­ otherwise. Also, as herpesviral DNA was not present in 2 merase (Perkin Elmer Cetus, ILS Ltd, London), 200 11M the controls, it is highly probable that VZV was the of each dNTP, 100 ng of each 'outer' primer and J III of causative agent of the intraocular inflammation.