IMPORTANCE: Giant cell arteritis (GCA) is the most common systemic vasculitis in elderly individuals. Diagnosis is confirmed by temporal artery (TA) biopsy, although biopsy results are often ...negative. Despite the use of corticosteroids, disease may progress. Identification of causal agents will improve outcomes. Biopsy-positive GCA is associated with TA infection by varicella-zoster virus (VZV). OBJECTIVE: To analyze VZV infection in TAs of patients with clinically suspected GCA whose TAs were histopathologically negative and in normal TAs removed post mortem from age-matched individuals. DESIGN, SETTING, AND PARTICIPANTS: A cross-sectional study for VZV antigen was performed from January 2013 to March 2015 using archived, deidentified, formalin-fixed, paraffin-embedded GCA-negative, GCA-positive, and normal TAs (50 sections/TA) collected during the past 30 years. Regions adjacent to those containing VZV were examined by hematoxylin-eosin staining. Immunohistochemistry identified inflammatory cells and cell types around nerve bundles containing VZV. A combination of 17 tertiary referral centers and private practices worldwide contributed archived TAs from individuals older than 50 years. MAIN OUTCOMES AND MEASURES: Presence and distribution of VZV antigen in TAs and histopathological changes in sections adjacent to those containing VZV were confirmed by 2 independent readers. RESULTS: Varicella-zoster virus antigen was found in 45 of 70 GCA-negative TAs (64%), compared with 11 of 49 normal TAs (22%) (relative risk RR = 2.86; 95% CI, 1.75-5.31; P < .001). Extension of our earlier study revealed VZV antigen in 68 of 93 GCA-positive TAs (73%), compared with 11 of 49 normal TAs (22%) (RR = 3.26; 95% CI, 2.03-5.98; P < .001). Compared with normal TAs, VZV antigen was more likely to be present in the adventitia of both GCA-negative TAs (RR = 2.43; 95% CI, 1.82-3.41; P < .001) and GCA-positive TAs (RR = 2.03; 95% CI, 1.52-2.86; P < .001). Varicella-zoster virus antigen was frequently found in perineurial cells expressing claudin-1 around nerve bundles. Of 45 GCA-negative participants whose TAs contained VZV antigen, 1 had histopathological features characteristic of GCA, and 16 (36%) showed adventitial inflammation adjacent to viral antigen; no inflammation was seen in normal TAs. CONCLUSIONS AND RELEVANCE: In patients with clinically suspected GCA, prevalence of VZV in their TAs is similar independent of whether biopsy results are negative or positive pathologically. Antiviral treatment may confer additional benefit to patients with biopsy-negative GCA treated with corticosteroids, although the optimal antiviral regimen remains to be determined.
OBJECTIVE:Varicella-zoster virus (VZV) infection may trigger the inflammatory cascade that characterizes giant cell arteritis (GCA).
METHODS:Formalin-fixed, paraffin-embedded GCA-positive temporal ...artery (TA) biopsies (50 sections/TA) including adjacent skeletal muscle and normal TAs obtained postmortem from subjects >50 years of age were examined by immunohistochemistry for presence and distribution of VZV antigen and by ultrastructural examination for virions. Adjacent regions were examined by hematoxylin & eosin staining. VZV antigen–positive slides were analyzed by PCR for VZV DNA.
RESULTS:VZV antigen was found in 61/82 (74%) GCA-positive TAs compared with 1/13 (8%) normal TAs (p < 0.0001, relative risk 9.67, 95% confidence interval 1.46, 63.69). Most GCA-positive TAs contained viral antigen in skip areas. VZV antigen was present mostly in adventitia, followed by media and intima. VZV antigen was found in 12/32 (38%) skeletal muscles adjacent to VZV antigen–positive TAs. Despite formalin fixation, VZV DNA was detected in 18/45 (40%) GCA-positive VZV antigen–positive TAs, in 6/10 (60%) VZV antigen–positive skeletal muscles, and in one VZV antigen–positive normal TA. Varicella-zoster virions were found in a GCA-positive TA. In sections adjacent to those containing VZV, GCA pathology was seen in 89% of GCA-positive TAs but in none of 18 adjacent sections from normal TAs.
CONCLUSIONS:Most GCA-positive TAs contained VZV in skip areas that correlated with adjacent GCA pathology, supporting the hypothesis that VZV triggers GCA immunopathology. Antiviral treatment may confer additional benefit to patients with GCA treated with corticosteroids, although the optimal antiviral regimen remains to be determined.
Varicella zoster virus (VZV) pneumonitis and brainstem encephalitis developed in an immunocompetent adult without rash. Chest computed tomography exhibited nodularity; lung biopsy revealed ...multinucleated giant cells, Cowdry A inclusions, VZV antigen, and DNA. Varicella zoster virus central nervous system disease was verified by cerebrospinal fluid (CSF) anti-VZV IgG antibody with reduced serum/CSF ratios.
OBJECTIVE:To address the incidence of varicella-zoster virus (VZV) infection in patients with biopsy-negative giant cell arteritis (GCA), we examined archived biopsy-negative temporal arteries from ...subjects with clinically suspected GCA for the presence of VZV antigen.
METHODS:Formalin-fixed, paraffin-embedded temporal arteries that were pathologically negative for GCA and normal temporal arteries were analyzed immunohistochemically for VZV and herpes simplex virus-1 (HSV-1) antigen.
RESULTS:Five (21%) of 24 temporal arteries from patients who were clinically suspect but biopsy negative for GCA revealed VZV but not HSV-1 by immunohistochemical analysis. Thirteen normal temporal arteries did not contain VZV or HSV-1 antigen. All 5 subjects whose temporal arteries contained VZV antigen presented with clinical and laboratory features of GCA and early visual disturbances.
CONCLUSION:Multifocal VZV vasculopathy can present with the full spectrum of clinical features and laboratory abnormalities characteristically seen in GCA.
Abstract We recently detected varicella zoster virus (VZV) in the temporal arteries (TA) of 5/24 patients with clinically suspect giant cell arteritis (GCA) whose TAs were GCA-negative ...pathologically; in those GCA-negative, VZV + TAs, virus antigen predominated in the arterial adventitia, but without medial necrosis and multinucleated giant cells 1. During our continuing search for VZV antigen in GCA-negative TAs, in the TA of one subject, we found abundant VZV antigen, as well as VZV DNA, in multiple regions (skip areas) of the TA spanning 350 μm, as well as in skeletal muscle adjacent to the infected TA. Additional pathological analysis of sections adjacent to those containing viral antigen revealed inflammation involving the arterial media and abundant multinucleated giant cells characteristic of GCA. Detection of VZV in areas of the TA with pathological features of GCA warrants further correlative pathological-virological analysis of VZV in GCA.
Abstract Recent analysis of archived temporal arteries (TAs) acquired from 13 pathology laboratories in the US, Canada, Iceland, France, Germany and Israel from patients with pathologically-verified ...giant cell arteritis (GCA-positive) and TAs from patients with clinical features and laboratory abnormalities of GCA but whose TAs were pathologically negative (GCA-negative) revealed VZV antigen in most TAs from both groups. Despite formalin-fixation, VZV DNA was also found in many VZV-antigen positive sections that were scraped, subjected to DNA extraction, and examined by PCR with VZV-specific primers. Importantly, in past studies, the pathological diagnosis (GCA-positive or -negative) was known to the neurovirology laboratory. Herein, GCA-positive and GCA-negative TAs were provided by an outside institution and examined by 4 investigators blinded to the pathological diagnoses. VZV antigen was found in 3/3 GCA-positive TAs and in 4/6 GCA-negative TAs, and VZV DNA in 1/3 VZV antigen-positive, GCA-positive TAs and in 3/4 VZV antigen-positive, GCA-negative TAs. VZV DNA was also detected in one GCA-negative, VZV-antigen negative TA. Overall, the detection of VZV antigen in 78% of GCA-positive and GCA-negative TAs is consistent with previous reports on the prevalence of VZV antigen in patients with clinically suspect GCA.
Abstract With a decline in varicella zoster virus (VZV)-specific cell-mediated immunity, VZV can reactivate, infect cerebral arteries and cause stroke. Previous studies of cerebral arteries from ...subjects without a history of transient ischemic attacks or stroke revealed no VZV DNA or VZV antigen; however, VZV DNA and VZV antigen were found in the cerebral arteries of a subject with diabetes, a known risk factor for VZV reactivation and zoster. The present study analyzed an additional 55 cerebral arteries from 18 subjects with co-morbidities that may increase risk of VZV reactivation: a history of alcohol abuse, tricyclic antidepressant intoxication, cocaine abuse, HIV or being over age 70 years. VZV antigen was detected in 24 (44%) cerebral arteries from 14 (78%) subjects.
A 75-year-old woman developed periorbital pain and blurred vision OS. Visual acuity (VA) was 20/40 OD, 20/400 OS with mild left relative afferent pupillary defect (APD). Left optic nerve was swollen ...and hyperemic with peripapillary flame hemorrhages (figure, A). Erythrocyte sedimentation rate (ESR) was 124 mm/h. She was treated with IV methylprednisolone, 250 mg every 6 h. On day 3, headache and vision improved. ESR was 98 mm/h and C-reactive protein was 1.40 mg/L. Rheumatoid factor, antinuclear antibodies, and antineutrophil cytoplasmic antibodies titers were negative. On day 4, left temporal artery biopsy revealed thickened intima and intact internal elastic lamina (figure, B) but no medial necrosis characteristic of giant cell arteritis (GCA). Sections of the temporal artery were deparaffinized and incubated with 10% normal sheep serum (NSS) in phosphate-buffered saline (PBS) for 1 hour at room temperature, rinsed 3 times in PBS, and incubated overnight at 4°C with polyclonal antibodies raised against the varicella-zoster virus (VZV) open reading frame 63 protein (1:1,000 dilution) or with normal rabbit serum (1:1,000 dilution). The next day, sections were washed 3 times in PBS, incubated with a 1:300 dilution of biotinylated goat antirabbit immunoglobulin G (IgG) in PBS containing 5% NSS, washed 3 times in PBS, incubated for 1 hour at room temperature with alkaline phosphatase–conjugated streptavidin (1:100 dilution), and washed 3 times with PBS. The color reaction was developed for 5–30 minutes with fresh fuchsin substrate system. Levamisole was added to the color reaction to block endogenous phosphatase. Uninfected and VZV-infected human fibroblast lung cells were used as controls (not shown). Steroids were changed to oral prednisone 60 mg daily. On day 7, brain MRI with gadolinium was negative. On day 9, pain and vision worsened. On day 11, orbital CT and head CT angiography were negative. On day 15, VA was 20/400 OS with relative left APD. On day 17, OS became blind without direct pupillary light reaction; fundus was obscured by vitreous hemorrhage. CSF contained 8 leukocytes/mm
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, protein 72 mg/L, and glucose 54 mg/L. CSF cultures for bacteria, fungi, acid-fast bacilli, and cytology were negative. Because asymptomatic temporal artery biopsy was GCA-negative, VZV ischemic optic neuropathy (ION) was considered, and she was treated with IV acyclovir, 10 mg/kg every 8 hours for 7 days. On day 31, CSF contained anti-VZV IgG but not anti-herpes simplex virus IgG antibody, and serum-to-CSF ratio of anti-VZV IgG was reduced (14) compared to ratios for total IgG (121) and albumin (81). Immunohistochemistry and pathology revealed VZV antigen and neutrophils in the original left temporal artery specimen (figure, C). On day 31, she was treated with oral valacyclovir, 1 gram TID for 6 weeks; prednisone was reduced to 20 mg daily and tapered 5 mg/week. Six weeks later, pain resolved, and VA improved to finger counting. Left optic nerve was pale with clear margins and resolution of hemorrhage.
Abstract We describe a 54-year-old diabetic woman who developed ischemic optic neuropathy followed by acute retinal necrosis and multiple areas of focal venous beading. Vitreous fluid contained ...amplifiable VZV DNA but not HSV-1, CMV or toxoplasma DNA. The clinical presentation was remarkable for jaw claudication and intermittent scalp pain, prompting a temporal artery biopsy that was pathologically negative for giant cell arteritis, but notable for VZV antigen. The current case adds to the clinical spectrum of multifocal VZV vasculopathy. The development of acute VZV retinal necrosis after ischemic optic neuropathy supports the notion that vasculitis is an important additional mechanism in the development of VZV retinal injury.
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