NSG 6420 Week 7 Dermatology Discussion

Herpes zoster (HZ) is a disease caused by reactivation of the latent varicella-zoster virus (VZV) that remains latent in the dorsal root and cranial nerve ganglia; this latency is known to be life-long1, 2. Once reactivated, the virus spreads along the involved nerves and the corresponding cutaneous dermatome. The incidence of HZ has increased in the last two decades: 3.6 per 1,000 person-years in the United States, with an increase from 3.2 to 4.1 per 1,000 person-years from 1996 to 20013.

Numerous complications have been associated with HZ, including postherpetic neuralgia, meningitis, myelitis, encephalitis, and arteritis4. In a previous study of 859 patients with HZ, the postherpetic neuralgia occurred in 7.9% within 60 days of the onset of HZ; superinfection, 2.3%; ocular complications, 1.6%; motor neuropathy, 0.9%; meningitis, 0.5%; and HZ oticus, 0.2%5.

Old age and comorbid conditions that may impair cell-mediated immunity including diabetes, cancer, connective tissue disease, chronic obstructive pulmonary disease, inflammatory bowel disease, human immunodeficiency virus infection, organ transplantation, and psoriasis have been reported to be associated with higher risk of complications in HZ patients5. HZ-associated aseptic meningitis is considered a rare complication of HZ, and it usually requires hospitalization and a long period of treatment.

Clinically, HZ-associated aseptic meningitis is relatively common in comparison to other complications involving the central nervous system. In HZ patients with headaches accompanied by nausea, vomiting, neck stiffness, fever or chills complicated meningitis should be suspected. It is thought that the involvement of cranial nerves may contribute to a higher risk of aseptic meningitis.

In a previous report of patients with systemic cancer, cases of HZ-associated meningoencephalitis, although small in number, were all associated with trigeminal or disseminated zoster6. However, the clinical characteristics and potential risk factors that may predispose patients with HZ to complicated aseptic meningitis have been poorly studied. The aim of this study was to identify the possible risk factors and related clinical characteristics in patients with HZ for developing HZ-associated aseptic meningitis.

The demographics and potential risk factors were compared between the uncomplicated HZ group (n=554) and HZ-associated aseptic meningitis group (n=24) (Table 1). The mean age was 56.8 years in the uncomplicated group, and 51.1 years in the aseptic meningitis group. The aseptic meningitis group was 5.7 years younger; however, this difference was not significant (p=0.296).

Age stratification showed that patients over the age of 60 years accounted for half of the uncomplicated HZ group and the aseptic meningitis group (49.9% and 50.0% respectively). Among the potential risk factors, the dermatological distribution of skin rash and gender were significantly different between the two groups.

Patients with craniocervical distribution of HZ accounted for 87.5% (n=21) of the aseptic meningitis group and 54.3% (n=301) of the uncomplicated group (p=0.043). When a comparison was made between craniocervical distributions versus the rest, patients with craniocervical distribution had an odds ratio of 5.884 (95% confidence interval [CI], 1.735~19.953; p=0.001) for developing HZ-associated aseptic meningitis.

The aseptic meningitis group had a higher proportion of men (66.7%, n=16) than the uncomplicated group (42.8%, n=237, p=0.033). The frequency of hypertension, diabetes mellitus, use of immunosuppressants, and concurrent malignancy or hematologic disorder was not significantly different between the two groups.

The frequency of liver cirrhosis and chronic kidney disease was also insignificant (Table 1). The interval between onset of HZ and symptoms of meningitis was 5.3 days in average, ranging from 0 to 30 days. In 20 of the cases (83.3%), the meningitis symptoms manifested within 6 days from onset of HZ skin lesions.

To adjust for confounding effects, logistic regression analysis was performed. The gender difference between the two groups faded (95% CI, 0.999~5.953; p=0.050) and the craniocervical involvement had an odds ratio of 5.667 for the complication of aseptic meningitis (95% CI, 1.659~19.365; p=0.006) (Table 2).

Among the craniocervical dermatomes, the V1 trigeminal dermatome was most frequently involved in the meningitis group (p=0.003) with 4-fold increased risk (OR, 4.4; 95% CI, 1.756~11.048; p=0.002) compared to the involvement of other dermatomes. NSG 6420 Week 7 Dermatology Discussion

In a previous retrospective analysis of central nervous system VZV reactivation, 71% of aseptic meningitis cases were noted in male patients9. In regards to the study of HZ prevalence, a Swedish analysis revealed a female predominance10, and a systematic review of European data by Pinchinat et al.11 also reported higher incidence rates in female patients.

In the current study, 56.2% of the total HZ cases were noted in women and although not statistically significant, male predominance in the aseptic meningitis group was observed. Female predominance is a trend for HZ, but the complication rate of HZ-associated aseptic meningitis is higher in male patients.

This is presumed to be due to immunological and hormonal differences between genders. Further study is needed to clarify the relationship between gender and incidence of HZ-associated aseptic meningitis and the underlying mechanisms contributing to this difference.

HZ-associated aseptic meningitis accounted for 4.15% of the total HZ cases in our study, which is higher than the previous report: 0.5%5. This may be due to the increasing proportion of the elderly population, resulting in older HZ patients who bear higher risk of complications. In our study, however, the mean age was younger in the aseptic meningitis group (51.1 years vs. 56.8 years in the uncomplicated HZ group).

The relatively small number of the meningitis patients (24 cases) compared with the other group (554 cases) may have contributed to the contradictory age difference between the two groups. A larger sample size may yield a contrasting result. Immunosuppression is associated with increased risk of not only HZ and its complications3, 12, 13, 14.

Our results did not show significant difference in immunocompromised hosts, which include patients with concurrent malignancy, hematologic disease, or chronic immunosuppressant use, between the uncomplicated HZ group and the Hz-associated aseptic meningitis group. These results may be indicating reduced incidence of HZ complications in immunocompromised population of our study, probably due to active diagnosis and early antiviral treatment at initial stage of HZ in these patients and increased prophylactic use of antiviral agents especially in patients undergoing hematopoietic cell transplantation15.

Previous comorbidities or medical conditions (hypertension, diabetes mellitus, pregnancy, liver cirrhosis, and chronic kidney disease) were not significantly associated with HZ-associated aseptic meningitis in the current study. Although patients with chronic kidney disease have been reported to have a higher risk for HZ compared to the general population16, 17, the association between complicated aseptic meningitis and chronic kidney disease was not significant. Future study with a larger sample size may reveal significance of the previously mentioned comorbidities in relation to HZ-associated meningitis.

The strength of our study is that we enrolled a relatively large number of patients for analysis. However, there are also several limitations. First, given that this was a retrospective study, the associations observed cannot be considered as definitive evidence of a causal relationship. Further study with a prospective design is needed. Second, 240 patients were excluded from the analysis due to insufficient medical records or lack of proper diagnosis, which may have influenced analysis of the results.

Third, the etiology of complicated aseptic meningitis cases was not confirmed by VZV PCR in the current study. Patients with aseptic meningitis caused by other viral agents may have been included in the analysis, as enterovirus is the most common causative pathogen and VZV accounts for only 8% of aseptic meningitis cases in adults18.

In HZ patients, a skin rash with craniocervical distribution is associated with a higher risk of HZ-associated aseptic meningitis. Closer observation is needed to detect signs and symptoms of meningitis in patients with HZ infection with this risk factor. Clinicians should take this information into account when treating patients with HZ. NSG 6420 Week 7 Dermatology Discussion