Shingles

For other uses, see Shingle (disambiguation).

"Zoster" redirects here. For other uses, see Zoster (disambiguation).

Shingles
Other names	Herpes zoster
Herpes zoster blisters on the neck and shoulder
Specialty	Dermatology
Symptoms	Painful rash
Complications	Meningitis, facial nerve palsy, keratitis, postherpetic neuralgia [1]
Duration	2–4 weeks [2]
Causes	Varicella zoster virus (VZV) [1]
Risk factors	Old age, poor immune function, having had chickenpox before 18 months of age [1]
Diagnostic method	Based on symptoms [3]
Differential diagnosis	Herpes simplex, chest pain, insect bites, cutaneous leishmaniasis [4]
Prevention	Shingles vaccine [1]
Medication	Aciclovir (if given early), pain medication [3]
Frequency	33% (at some point) [1]
Deaths	6,400 (with chickenpox) [5]

Shingles, also known as herpes zoster, is a viral disease characterized by a painful skin rash with blisters in a localized area. ^{[2] [6]} Typically the rash occurs in a single, wide mark either on the left or right side of the body or face. ^[1] Two to four days before the rash occurs there may be tingling or local pain in the area. ^{[1] [7]} Other common symptoms are fever, headache, and tiredness. ^{[1] [8]} The rash usually heals within two to four weeks; ^[2] however, some people develop ongoing nerve pain which can last for months or years, a condition called postherpetic neuralgia (PHN). ^[1] In those with poor immune function the rash may occur widely. ^[1] If the rash involves the eye, vision loss may occur. ^{[2] [9]}

Shingles is caused by the varicella zoster virus (VZV) that also causes chickenpox. In the case of chickenpox, also called varicella, the initial infection with the virus typically occurs during childhood or adolescence. ^[1] Once the chickenpox has resolved, the virus can remain dormant (inactive) in human nerve cells (dorsal root ganglia or cranial nerves) ^[10] for years or decades, ^[1] after which it may reactivate. Shingles results when the dormant varicella virus is reactivated. ^[1] The virus then travels along nerve bodies to nerve endings in the skin, producing blisters. ^[7] During an outbreak of shingles, exposure to the varicella virus found in shingles blisters can cause chickenpox in someone who has not yet had chickenpox, although that person will not suffer from shingles, at least on the first infection. ^[11] How the virus remains dormant in the body or subsequently re-activates is not well understood. ^{[1] [12]}

The disease has been recognized since ancient times. ^[1] Risk factors for reactivation of the dormant virus include old age, poor immune function, and having contracted chickenpox before 18 months of age. ^[1] Diagnosis is typically based on the signs and symptoms presented. ^[3] Varicella zoster virus is not the same as herpes simplex virus , although they belong to the same family of herpesviruses. ^[13]

Shingles vaccines reduce the risk of shingles by 50 to 90%, depending on the vaccine used. ^{[1] [14]} Vaccination also decreases rates of postherpetic neuralgia, and, if shingles occurs, its severity. ^[1] If shingles develops, antiviral medications such as aciclovir can reduce the severity and duration of disease if started within 72 hours of the appearance of the rash. ^[3] Evidence does not show a significant effect of antivirals or steroids on rates of postherpetic neuralgia. ^{[15] [16]} Paracetamol, NSAIDs, or opioids may be used to help with acute pain. ^[3]

It is estimated that about a third of people develop shingles at some point in their lives. ^[1] While shingles is more common among older people, children may also get the disease. ^[13] According to the US National Institutes of Health, the number of new cases per year ranges from 1.2 to 3.4 per 1,000 person-years among healthy individuals to 3.9 to 11.8 per 1,000 person-years among those older than 65 years of age. ^{[8] [17]} About half of those living to age 85 will have at least one attack, and fewer than 5% will have more than one attack. ^{[1] [18]} Although symptoms can be severe, risk of death is very low: 0.28 to 0.69 deaths per million. ^[10]

Signs and symptoms

Shingles in various locations

A case of shingles that demonstrates a typical dermatomal distribution, here C8/T1.

The earliest symptoms of shingles, which include headache, fever, and malaise, are nonspecific, and may result in an incorrect diagnosis. ^{[8] [19]} These symptoms are commonly followed by sensations of burning pain, itching, hyperesthesia (oversensitivity), or paresthesia ("pins and needles": tingling, pricking, or numbness). ^[20] Pain can be mild to severe in the affected dermatome, with sensations that are often described as stinging, tingling, aching, numbing or throbbing, and can be interspersed with quick stabs of agonizing pain. ^[21]

Shingles in children is often painless, but people are more likely to get shingles as they age, and the disease tends to be more severe. ^[22]

In most cases, after one to two days—but sometimes as long as three weeks—the initial phase is followed by the appearance of the characteristic skin rash. The pain and rash most commonly occur on the torso but can appear on the face, eyes, or other parts of the body. At first, the rash appears similar to the first appearance of hives; however, unlike hives, shingles causes skin changes limited to a dermatome, normally resulting in a stripe or belt-like pattern that is limited to one side of the body and does not cross the midline. ^[20] Zoster sine herpete ("zoster without herpes") describes a person who has all of the symptoms of shingles except this characteristic rash. ^[23]

Later the rash becomes vesicular, forming small blisters filled with a serous exudate, as the fever and general malaise continue. The painful vesicles eventually become cloudy or darkened as they fill with blood, and crust over within seven to ten days; usually the crusts fall off and the skin heals, but sometimes, after severe blistering, scarring and discolored skin remain. ^[20] The blister fluid contains varicella zoster virus, which can be transmitted through contact or inhalation of fluid droplets until the lesions crust over, which may take up to four weeks. ^[24]

Development of the shingles rash

Day 1	Day 2	Day 5	Day 6

Face

Shingles may have additional symptoms, depending on the dermatome involved. The trigeminal nerve is the most commonly involved nerve, ^[25] of which the ophthalmic division is the most commonly involved branch. ^[26] When the virus is reactivated in this nerve branch it is termed zoster ophthalmicus . The skin of the forehead, upper eyelid and orbit of the eye may be involved. Zoster ophthalmicus occurs in approximately 10% to 25% of cases. In some people, symptoms may include conjunctivitis, keratitis, uveitis, and optic nerve palsies that can sometimes cause chronic ocular inflammation, loss of vision, and debilitating pain. ^[27]

Shingles oticus, also known as Ramsay Hunt syndrome type II, involves the ear. It is thought to result from the virus spreading from the facial nerve to the vestibulocochlear nerve. Symptoms include hearing loss and vertigo (rotational dizziness). ^[28]

Shingles may occur in the mouth if the maxillary or mandibular division of the trigeminal nerve is affected, ^[29] in which the rash may appear on the mucous membrane of the upper jaw (usually the palate, sometimes the gums of the upper teeth) or the lower jaw (tongue or gums of the lower teeth) respectively. ^[30] Oral involvement may occur alone or in combination with a rash on the skin over the cutaneous distribution of the same trigeminal branch. ^[29] As with shingles of the skin, the lesions tend to only involve one side, distinguishing it from other oral blistering conditions. ^[30] In the mouth, shingles appears initially as 1–4 mm opaque blisters (vesicles), ^[29] which break down quickly to leave ulcers that heal within 10–14 days. ^[30] The prodromal pain (before the rash) may be confused with toothache. ^[29] Sometimes this leads to unnecessary dental treatment. ^[30] Post-herpetic neuralgia uncommonly is associated with shingles in the mouth. ^[30] Unusual complications may occur with intra-oral shingles that are not seen elsewhere. Due to the close relationship of blood vessels to nerves, the virus can spread to involve the blood vessels and compromise the blood supply, sometimes causing ischemic necrosis. ^[29] In rare cases, oral involvement causes complications such as osteonecrosis, tooth loss, periodontitis (gum disease), pulp calcification, pulp necrosis, periapical lesions and tooth developmental anomalies. ^[25]

Disseminated shingles

In those with deficits in immune function, disseminated shingles may occur (wide rash). ^[1] It is defined as more than 20 skin lesions appearing outside either the primarily affected dermatome or dermatomes directly adjacent to it. Besides the skin, other organs, such as the liver or brain, may also be affected (causing hepatitis or encephalitis, ^{[31] [32]} respectively), making the condition potentially lethal. ^{[33] : 380}

Pathophysiology

Electron micrograph of Varicella zoster virus. Approximately 150,000× magnification. The virus diameter is 150–200 nm.

Progression of shingles. A cluster of small bumps (1) turns into blisters (2). The blisters fill with lymph, break open (3), crust over (4), and finally disappear. Postherpetic neuralgia can sometimes occur due to nerve damage (5).

The causative agent for shingles is the varicella zoster virus (VZV)—a double-stranded DNA virus related to the herpes simplex virus. Most individuals are infected with this virus as children which causes an episode of chickenpox. The immune system eventually eliminates the virus from most locations, but it remains dormant (or latent) in the ganglia adjacent to the spinal cord (called the dorsal root ganglion) or the trigeminal ganglion in the base of the skull. ^[35]

Shingles occurs only in people who have been previously infected with VZV; although it can occur at any age, approximately half of the cases in the United States occur in those aged 50 years or older. ^[36] Shingles can recur. ^[37] In contrast to the frequent recurrence of herpes simplex symptoms, repeated attacks of shingles are unusual. ^[38] It is extremely rare for a person to have more than three recurrences. ^[35]

The disease results from virus particles in a single sensory ganglion switching from their latent phase to their active phase. ^[39] Due to difficulties in studying VZV reactivation directly in humans (leading to reliance on small-animal models), its latency is less well understood than that of the herpes simplex virus. ^[38] Virus-specific proteins continue to be made by the infected cells during the latent period, so true latency, as opposed to chronic, low-level, active infection, has not been proven to occur in VZV infections. ^{[40] [41]} Although VZV has been detected in autopsies of nervous tissue, ^[42] there are no methods to find dormant virus in the ganglia of living people.

Unless the immune system is compromised, it suppresses reactivation of the virus and prevents shingles outbreaks. Why this suppression sometimes fails is poorly understood, ^[43] but shingles is more likely to occur in people whose immune systems are impaired due to aging, immunosuppressive therapy, psychological stress, or other factors. ^{[44] [45]} Upon reactivation, the virus replicates in neuronal cell bodies, and virions are shed from the cells and carried down the axons to the area of skin innervated by that ganglion. In the skin, the virus causes local inflammation and blistering. The short- and long-term pain caused by shingles outbreaks originates from inflammation of affected nerves due to the widespread growth of the virus in those areas. ^[46]

As with chickenpox and other forms of alpha-herpesvirus infection, direct contact with an active rash can spread the virus to a person who lacks immunity to it. This newly infected individual may then develop chickenpox, but will not immediately develop shingles. ^[20]

The complete sequence of the viral genome was published in 1986. ^[47]

Diagnosis

Shingles on the chest

If the rash has appeared, identifying this disease (making a differential diagnosis) requires only a visual examination, since very few diseases produce a rash in a dermatomal pattern (sometimes called by doctors on TV "a dermatonal map"). However, herpes simplex virus (HSV) can occasionally produce a rash in such a pattern (zosteriform herpes simplex). ^{[48] [49]}

When the rash is absent (early or late in the disease, or in the case of zoster sine herpete), shingles can be difficult to diagnose. ^[50] Apart from the rash, most symptoms can occur also in other conditions.

Laboratory tests are available to diagnose shingles. The most popular test detects VZV-specific IgM antibody in blood; this appears only during chickenpox or shingles and not while the virus is dormant. ^[51] In larger laboratories, lymph collected from a blister is tested by polymerase chain reaction (PCR) for VZV DNA, or examined with an electron microscope for virus particles. ^[52] Molecular biology tests based on in vitro nucleic acid amplification (PCR tests) are currently considered the most reliable. Nested PCR test has high sensitivity, but is susceptible to contamination leading to false positive results. The latest real-time PCR tests are rapid, easy to perform, and as sensitive as nested PCR, and have a lower risk of contamination. They also have more sensitivity than viral cultures. ^[53]

Differential diagnosis

Shingles can be confused with herpes simplex, dermatitis herpetiformis and impetigo, and skin reactions caused by contact dermatitis, candidiasis, certain drugs and insect bites. ^[54]

Prevention

Main article: Zoster vaccine

Shingles risk can be reduced in children by the chickenpox vaccine if the vaccine is administered before the individual gets chickenpox. ^[55] If primary infection has already occurred, there are shingles vaccines that reduce the risk of developing shingles or developing severe shingles if the disease occurs. ^{[1] [14]} They include a live attenuated virus vaccine, Zostavax, and an adjuvanted subunit vaccine, Shingrix. ^{[37] [56] [57]}

A review by Cochrane concluded that Zostavax was useful for preventing shingles for at least three years. ^[7] This equates to about 50% relative risk reduction. The vaccine reduced rates of persistent, severe pain after shingles by 66% in people who contracted shingles despite vaccination. ^[58] Vaccine efficacy was maintained through four years of follow-up. ^[58] It has been recommended that people with primary or acquired immunodeficiency should not receive the live vaccine. ^[58]

Two doses of Shingrix are recommended, which provide about 90% protection at 3.5 years. ^{[37] [57]} As of 2016, it had been studied only in people with an intact immune system. ^[14] It appears to also be effective in the very old. ^[14]

In the UK, shingles vaccination is offered by the National Health Service (NHS) to all people in their 70s. As of 2021 ^[update] Zostavax is the usual vaccine, but Shingrix vaccine is recommended if Zostavax is unsuitable, for example for those with immune system issues. Vaccination is not available to people over 80 as "it seems to be less effective in this age group". ^{[59] [60]} By August 2017, just under half of eligible 70–78 year olds had been vaccinated. ^[61] About 3% of those eligible by age have conditions that suppress their immune system, and should not receive Zostavax. ^[62] There had been 1,104 adverse reaction reports by April 2018. ^[62] In the US, it is recommended that healthy adults 50 years and older receive two doses of Shingrix, two to six months apart. ^{[37] [63]}

Treatment

The aims of treatment are to limit the severity and duration of pain, shorten the duration of a shingles episode, and reduce complications. Symptomatic treatment is often needed for the complication of postherpetic neuralgia. ^[64] However, a study on untreated shingles shows that, once the rash has cleared, postherpetic neuralgia is very rare in people under 50 and wears off in time; in older people, the pain wore off more slowly, but even in people over 70, 85% were free from pain a year after their shingles outbreak. ^[65]

Analgesics

People with mild to moderate pain can be treated with over-the-counter pain medications. Topical lotions containing calamine can be used on the rash or blisters and may be soothing. Occasionally, severe pain may require an opioid medication, such as morphine. Once the lesions have crusted over, capsaicin cream (Zostrix) can be used. Topical lidocaine and nerve blocks may also reduce pain. ^[66] Administering gabapentin along with antivirals may offer relief of postherpetic neuralgia. ^[64]

Antivirals

Antiviral drugs may reduce the severity and duration of shingles; ^[67] however, they do not prevent postherpetic neuralgia. ^[68] Of these drugs, aciclovir has been the standard treatment, but the newer drugs valaciclovir and famciclovir demonstrate similar or superior efficacy and good safety and tolerability. ^[64] The drugs are used both for prevention (for example in people with HIV/AIDS) and as therapy during the acute phase. Complications in immunocompromised individuals with shingles may be reduced with intravenous aciclovir. In people who are at a high risk for repeated attacks of shingles, five daily oral doses of aciclovir are usually effective. ^[28]

Steroids

Corticosteroids do not appear to decrease the risk of long-term pain. ^[16] Side effects however appear to be minimal. Their use in Ramsay Hunt syndrome had not been properly studied as of 2008. ^[69]

Zoster ophthalmicus

Zoster ophthalmicus. Labels in Serbian, from top: exudative erythema, scabs, blister, eyelid swelling

Treatment for zoster ophthalmicus is similar to standard treatment for shingles at other sites.^{[ medical citation needed ]} A trial comparing aciclovir with its prodrug, valaciclovir, demonstrated similar efficacies in treating this form of the disease. ^[70]

Prognosis

The rash and pain usually subside within three to five weeks, but about one in five people develop a painful condition called postherpetic neuralgia, which is often difficult to manage. In some people, shingles can reactivate presenting as zoster sine herpete: pain radiating along the path of a single spinal nerve (a dermatomal distribution), but without an accompanying rash. This condition may involve complications that affect several levels of the nervous system and cause many cranial neuropathies, polyneuritis, myelitis, or aseptic meningitis. Other serious effects that may occur in some cases include partial facial paralysis (usually temporary), ear damage, or encephalitis. ^[28] Although initial infections with VZV during pregnancy, causing chickenpox, may lead to infection of the fetus and complications in the newborn, chronic infection or reactivation in shingles are not associated with fetal infection. ^{[71] [72]}

There is a slightly increased risk of developing cancer after a shingles episode. However, the mechanism is unclear and mortality from cancer did not appear to increase as a direct result of the presence of the virus. ^[73] Instead, the increased risk may result from the immune suppression that allows the reactivation of the virus. ^[74]

Although shingles typically resolves within 3–5 weeks, certain complications may arise:

• Secondary bacterial infection. ^[9]
• Motor involvement, ^[9] including weakness especially in "motor herpes zoster". ^[75]
• Eye involvement: trigeminal nerve involvement (as seen in herpes ophthalmicus) should be treated early and aggressively as it may lead to blindness. Involvement of the tip of the nose in the zoster rash is a strong predictor of herpes ophthalmicus. ^[76]
• Postherpetic neuralgia, a condition of chronic pain following shingles.

Epidemiology

See also: Chickenpox epidemiology

Varicella zoster virus (VZV) has a high level of infectivity and has a worldwide prevalence. ^[77] Shingles is a re-activation of latent VZV infection: zoster can only occur in someone who has previously had chickenpox (varicella).

Shingles has no relationship to season and does not occur in epidemics. There is, however, a strong relationship with increasing age. ^{[22] [44]} The incidence rate of shingles ranges from 1.2 to 3.4 per 1,000 person‐years among younger healthy individuals, increasing to 3.9–11.8 per 1,000 person‐years among those older than 65 years, ^{[8] [22]} and incidence rates worldwide are similar. ^{[8] [78]} This relationship with age has been demonstrated in many countries, ^{[8] [78] [79] [80] [81] [82]} and is attributed to the fact that cellular immunity declines as people grow older.

Another important risk factor is immunosuppression. ^{[83] [84] [85]} Other risk factors include psychological stress. ^{[21] [86] [87]} According to a study in North Carolina, "black subjects were significantly less likely to develop zoster than were white subjects." ^{[88] [89]} It is unclear whether the risk is different by sex. Other potential risk factors include mechanical trauma and exposure to immunotoxins. ^{[44] [87]}

There is no strong evidence for a genetic link or a link to family history. A 2008 study showed that people with close relatives who had shingles were twice as likely to develop it themselves, ^[90] but a 2010 study found no such link. ^[87]

Adults with latent VZV infection who are exposed intermittently to children with chickenpox receive an immune boost. ^{[22] [87]} This periodic boost to the immune system helps to prevent shingles in older adults. When routine chickenpox vaccination was introduced in the United States, there was concern that, because older adults would no longer receive this natural periodic boost, there would be an increase in the incidence of shingles.

Multiple studies and surveillance data, at least when viewed superficially, demonstrate no consistent trends in incidence in the U.S. since the chickenpox vaccination program began in 1995. ^[91] However, upon closer inspection, the two studies that showed no increase in shingles incidence were conducted among populations where varicella vaccination was not as yet widespread in the community. ^{[92] [93]} A later study by Patel et al. concluded that since the introduction of the chickenpox vaccine, hospitalization costs for complications of shingles increased by more than $700 million annually for those over age 60. ^[94] Another study by Yih et al. reported that as varicella vaccine coverage in children increased, the incidence of varicella decreased, and the occurrence of shingles among adults increased by 90%. ^[95] The results of a further study by Yawn et al. showed a 28% increase in shingles incidence from 1996 to 2001. ^[96] It is likely that incidence rate will change in the future, due to the aging of the population, changes in therapy for malignant and autoimmune diseases, and changes in chickenpox vaccination rates; a wide adoption of zoster vaccination could dramatically reduce the incidence rate. ^[8]

In one study, it was estimated that 26% of those who contract shingles eventually present complications. Postherpetic neuralgia arises in approximately 20% of people with shingles. ^[97] A study of 1994 California data found hospitalization rates of 2.1 per 100,000 person-years, rising to 9.3 per 100,000 person-years for ages 60 and up. ^[98] An earlier Connecticut study found a higher hospitalization rate; the difference may be due to the prevalence of HIV in the earlier study, or to the introduction of antivirals in California before 1994. ^[99]

History

Shingles has a long recorded history, although historical accounts fail to distinguish the blistering caused by VZV and those caused by smallpox, ^[36] ergotism, and erysipelas. In the late 18th century William Heberden established a way to differentiate shingles and smallpox, ^[100] and in the late 19th century, shingles was differentiated from erysipelas. In 1831 Richard Bright hypothesized that the disease arose from the dorsal root ganglion, and an 1861 paper by Felix von Bärensprung confirmed this. ^[101]

Recognition that chickenpox and shingles were caused by the same virus came at the beginning of the 20th century. Physicians began to report that cases of shingles were often followed by chickenpox in younger people who lived with the person with shingles. The idea of an association between the two diseases gained strength when it was shown that lymph from a person with shingles could induce chickenpox in young volunteers. This was finally proved by the first isolation of the virus in cell cultures, by the Nobel laureate Thomas Huckle Weller, in 1953. ^[102] Some sources also attribute the first isolation of the herpes zoster virus to Evelyn Nicol. ^[103]

Until the 1940s the disease was considered benign, and serious complications were thought to be very rare. ^[104] However, by 1942, it was recognized that shingles was a more serious disease in adults than in children and that it increased in frequency with advancing age. Further studies during the 1950s on immunosuppressed individuals showed that the disease was not as benign as once thought, and the search for various therapeutic and preventive measures began. ^[105] By the mid-1960s, several studies identified the gradual reduction in cellular immunity in old age, observing that in a cohort of 1,000 people who lived to the age of 85, approximately 500 (i.e., 50%) would have at least one attack of shingles, and 10 (i.e., 1%) would have at least two attacks. ^[106]

In historical shingles studies, shingles incidence generally increased with age. However, in his 1965 paper, Hope-Simpson suggested that the "peculiar age distribution of zoster may in part reflect the frequency with which the different age groups encounter cases of varicella and because of the ensuing boost to their antibody protection have their attacks of zoster postponed". ^[22] Lending support to this hypothesis that contact with children with chickenpox boosts adult cell-mediated immunity to help postpone or suppress shingles, a study by Thomas et al. reported that adults in households with children had lower rates of shingles than households without children. ^[107] Also, the study by Terada et al. indicated that pediatricians reflected incidence rates from 1/2 to 1/8 that of the general population their age. ^[108]

Etymology

The family name of all the herpesviruses derives from the Greek word έρπης herpēs, ^[109] from έρπω herpein ("to creep"), ^{[110] [111] [112]} referring to the latent, recurring infections typical of this group of viruses. Zoster comes from Greek ζωστήρ zōstēr, ^[113] meaning "belt" or "girdle", after the characteristic belt-like dermatomal rash. ^[114] The common name for the disease, shingles, derives from the Latin cingulus, a variant of Latin cingulum, ^[115] meaning "girdle". ^{[116] [117]}

Research

Until the mid-1990s, infectious complications of the central nervous system (CNS) caused by VZV reactivation were regarded as rare. The presence of rash, as well as specific neurological symptoms, were required to diagnose a CNS infection caused by VZV. Since 2000, PCR testing has become more widely used, and the number of diagnosed cases of CNS infection has increased. ^[118]

Classic textbook descriptions state that VZV reactivation in the CNS is restricted to immunocompromised individuals and the elderly; however, studies have found that most participants are immunocompetent, and younger than 60 years old. Historically, vesicular rash was considered a characteristic finding, but studies have found that rash is only present in 45% of cases. ^[118] In addition, systemic inflammation is not as reliable an indicator as previously thought: the mean level of C-reactive protein and mean white blood cell count are within the normal range in participants with VZV meningitis. ^[119] MRI and CT scans are usually normal in cases of VZV reactivation in the CNS. CSF pleocytosis, previously thought to be a strong indicator of VZV encephalitis, was absent in half of a group of people diagnosed with VZV encephalitis by PCR. ^[118]

The frequency of CNS infections presented at the emergency room of a community hospital is not negligible, so a means of diagnosing cases is needed. PCR is not a foolproof method of diagnosis, but because so many other indicators have turned out to not be reliable in diagnosing VZV infections in the CNS, screening for VZV by PCR is recommended. Negative PCR does not rule out VZV involvement, but a positive PCR can be used for diagnosis, and appropriate treatment started (for example, antivirals can be prescribed rather than antibiotics). ^[118]

The introduction of DNA analysis techniques has shown some complications of varicella-zoster to be more common than previously thought. For example, sporadic meningoencephalitis (ME) caused by varicella-zoster was regarded as rare disease, mostly related to childhood chickenpox. However, meningoencephalitis caused by varicella-zoster is increasingly recognized as a predominant cause of ME among immunocompetent adults in non-epidemic circumstances. ^[120]

Diagnosis of complications of varicella-zoster, particularly in cases where the disease reactivates after years or decades of latency, is difficult. A rash (shingles) can be present or absent. Symptoms vary, and there is a significant overlap in symptoms with herpes-simplex symptoms. ^[120]

Although DNA analysis techniques such as polymerase chain reaction (PCR) can be used to look for DNA of herpesviruses in spinal fluid or blood, the results may be negative, even in cases where other definitive symptoms exist. ^[121] Notwithstanding these limitations, the use of PCR has resulted in an advance in the state of the art in our understanding of herpesviruses, including VZV, during the 1990s and 2000s. For example, in the past, clinicians believed that encephalitis was caused by herpes simplex and that people always died or developed serious long-term function problems. People were diagnosed at autopsy or by brain biopsy. Brain biopsy is not undertaken lightly: it is reserved only for serious cases that cannot be diagnosed by less invasive methods. For this reason, knowledge of these herpes virus conditions was limited to severe cases. DNA techniques have made it possible to diagnose "mild" cases, caused by VZV or HSV, in which the symptoms include fever, headache, and altered mental status. Mortality rates in treated people are decreasing. ^[120]

References

1. Lopez A, Harrington T, Marin M (2015). "Chapter 22: Varicella". In Hamborsky J, Kroger A, Wolfe S (eds.). Epidemiology and Prevention of Vaccine-Preventable Diseases (13th ed.). Washington D.C.: U.S. Centers for Disease Control and Prevention (CDC). ISBN   978-0990449119. Archived from the original on 30 December 2016. Retrieved 9 January 2020. This article incorporates text from this source, which is in the public domain .
2. "Shingles (Herpes Zoster) Signs & Symptoms". Centers for Disease Control and Prevention (CDC). 1 May 2014. Archived from the original on 26 May 2015. Retrieved 26 May 2015. This article incorporates text from this source, which is in the public domain .
3. Cohen JI (July 2013). "Clinical practice: Herpes zoster". The New England Journal of Medicine. 369 (3): 255–263. doi:10.1056/NEJMcp1302674. PMC   4789101 . PMID   23863052.
4. "Herpes Zoster Diagnosis, Testing, Lab Methods". Centers for Disease Control and Prevention (CDC). April 2022. Archived from the original on 3 June 2022. Retrieved 10 June 2022. This article incorporates text from this source, which is in the public domain.
5. GBD 2015 Mortality and Causes of Death Collaborators (8 October 2016). "Global, regional, and national life expectancy, all-cause mortality, and cause-specific mortality for 249 causes of death, 1980–2015: a systematic analysis for the Global Burden of Disease Study 2015". Lancet. 388 (10053): 1459–1544. doi:10.1016/s0140-6736(16)31012-1. PMC   5388903 . PMID   27733281.
6. Sivapathasundharam B, Gururaj N, Ranganathan K (2014). "Viral Infections of the Oral Cavity". In Rajendran A, Sivapathasundharam B (eds.). Shafer's textbook of oral pathology (Seventh ed.). Elsevier Health Sciences ]. p. 351. ISBN   978-8131238004. Archived from the original on 17 December 2019. Retrieved 11 September 2017.
7. de Oliveira Gomes, Juliana; Gagliardi, Anna Mz; Andriolo, Brenda Ng; Torloni, Maria Regina; Andriolo, Regis B.; Puga, Maria Eduarda Dos Santos; Canteiro Cruz, Eduardo (2 October 2023). "Vaccines for preventing herpes zoster in older adults". The Cochrane Database of Systematic Reviews. 2023 (10): CD008858. doi:10.1002/14651858.CD008858.pub5. ISSN   1469-493X. PMC  10542961. PMID   37781954.
8. Dworkin RH, Johnson RW, Breuer J, Gnann JW, Levin MJ, Backonja M, et al. (2007). "Recommendations for the management of herpes zoster". Clin. Infect. Dis. 44 (Suppl 1): S1–26. doi: 10.1086/510206 . PMID   17143845.
9. Johnson RW, Alvarez-Pasquin MJ, Bijl M, Franco E, Gaillat J, Clara JG, et al. (July 2015). "Herpes zoster epidemiology, management, and disease and economic burden in Europe: a multidisciplinary perspective". Therapeutic Advances in Vaccines. 3 (4): 109–120. doi:10.1177/2051013615599151. PMC   4591524 . PMID   26478818.
10. Pan CX, Lee MS, Nambudiri VE (2022). "Global herpes zoster incidence, burden of disease, and vaccine availability: a narrative review". Therapeutic Advances in Vaccines and Immunotherapy . 10. doi:10.1177/25151355221084535. PMC   8941701 . PMID   35340552.
11. "Shingles (Herpes Zoster) Transmission". Centers for Disease Control and Prevention (CDC). 17 September 2014. Archived from the original on 6 May 2015. Retrieved 26 May 2015. This article incorporates text from this source, which is in the public domain .
12. "Researchers discover how chickenpox and shingles virus remains dormant". UCLH Biomedical Research Centre. 20 April 2018. Retrieved 25 April 2023.
13. "Overview". Centers for Disease Control and Prevention (CDC). 17 September 2014. Archived from the original on 16 May 2015. Retrieved 26 May 2015. This article incorporates text from this source, which is in the public domain .
14. Cunningham AL (2016). "The herpes zoster subunit vaccine". Expert Opinion on Biological Therapy. 16 (2): 265–271. doi:10.1517/14712598.2016.1134481. PMID   26865048. S2CID   46480440.
15. Chen N, Li Q, Yang J, Zhou M, Zhou D, He L (February 2014). "Antiviral treatment for preventing postherpetic neuralgia". The Cochrane Database of Systematic Reviews. 2014 (2): CD006866. doi:10.1002/14651858.CD006866.pub3. PMC   10583132 . PMID   24500927.
16. Jiang X, Li Y, Chen N, Zhou M, He L (December 2023). "Corticosteroids for preventing postherpetic neuralgia". The Cochrane Database of Systematic Reviews. 2023 (12): CD005582. doi:10.1002/14651858.CD005582.pub5. PMC  10696631. PMID   38050854.
17. Nair PA, Patel BC (2 November 2021). "Herpes zoster". StatPearls. PMID   28722854. Archived from the original on 10 June 2022. Retrieved 10 June 2022– via NCBI Bookshelf.
18. Schmader KE, Dworkin RH (2011). "Herpes Zoster and Postherpetic Neuralgia". In Benzon HT (ed.). Essentials of Pain Medicine (3rd ed.). London: Elsevier Health Sciences. p. 358. ISBN   978-1437735932. Archived from the original on 17 December 2019. Retrieved 11 September 2017.
19. Zamula E (May–June 2001). "Shingles: an unwelcome encore". FDA Consumer . 35 (3): 21–25. PMID   11458545. Archived from the original on 3 November 2009. Retrieved 5 January 2010. Revised June 2005.
20. Stankus SJ, Dlugopolski M, Packer D (2000). "Management of herpes zoster (shingles) and postherpetic neuralgia". Am. Fam. Physician . 61 (8): 2437–2444, 2447–2448. PMID   10794584. Archived from the original on 29 September 2007.
21. Katz J, Cooper EM, Walther RR, Sweeney EW, Dworkin RH (2004). "Acute pain in herpes zoster and its impact on health-related quality of life". Clin. Infect. Dis. 39 (3): 342–348. doi: 10.1086/421942 . PMID   15307000.
22. Hope-Simpson RE (1965). "The nature of herpes zoster: a long-term study and a new hypothesis". Proceedings of the Royal Society of Medicine . 58 (1): 9–20. doi:10.1177/003591576505800106. PMC   1898279 . PMID   14267505.
23. Furuta Y, Ohtani F, Mesuda Y, Fukuda S, Inuyama Y (2000). "Early diagnosis of zoster sine herpete and antiviral therapy for the treatment of facial palsy". Neurology . 55 (5): 708–710. doi:10.1212/WNL.55.5.708. PMID   10980741. S2CID   29270135.
24. "Shingles (herpes zoster)". Department of Health. New York State. January 2023. Retrieved 9 March 2023.
25. Gupta S, Sreenivasan V, Patil PB (2015). "Dental complications of herpes zoster: Two case reports and review of literature". Indian Journal of Dental Research . 26 (2): 214–219. doi: 10.4103/0970-9290.159175 . PMID   26096121.
26. Samaranayake L (2011). Essential Microbiology for Dentistry (4th ed.). Elsevier Health Sciences. pp. 638–642. ISBN   978-0702046957. Archived from the original on 8 September 2017.
27. Shaikh S, Ta CN (2002). "Evaluation and management of herpes zoster ophthalmicus". Am. Fam. Physician . 66 (9): 1723–1730. PMID   12449270. Archived from the original on 14 May 2008.
28. Johnson RW, Dworkin RH (2003). "Clinical review: Treatment of herpes zoster and postherpetic neuralgia". BMJ . 326 (7392): 748–750. doi:10.1136/bmj.326.7392.748. PMC   1125653 . PMID   12676845.
29. Chi AC, Damm DD, Neville BW, Allen CM, Bouquot J (2008). "Viral Infections". Oral and Maxillofacial Pathology. Elsevier Health Sciences. pp. 250–253. ISBN   978-1437721973. Archived from the original on 8 September 2017.
30. Glick M (2014). Burket's oral medicine (12th ed.). coco. pp. 62–65. ISBN   978-1607951889.^{[ permanent dead link ]}
31. Chai W, Ho MG (November 2014). "Disseminated varicella zoster virus encephalitis". Lancet. 384 (9955): 1698. doi: 10.1016/S0140-6736(14)60755-8 . PMID   24999086.
32. Grahn A, Studahl M (September 2015). "Varicella-zoster virus infections of the central nervous system – Prognosis, diagnostics and treatment". Journal of Infection . 71 (3): 281–293. doi:10.1016/j.jinf.2015.06.004. PMID   26073188.
33. Elston DM, Berger TG, James WD (2006). Andrews' Diseases of the Skin: Clinical Dermatology. Saunders Elsevier. ISBN   978-0721629216.
34. "Pathogen Safety Data Sheets: Infectious Substances – Varicella-zoster virus". Public Health Agency of Canada. 30 April 2012. Archived from the original on 22 March 2020. Retrieved 3 June 2022.
35. Steiner I, Kennedy PG, Pachner AR (2007). "The neurotropic herpes viruses: herpes simplex and varicella-zoster". The Lancet Neurology . 6 (11): 1015–1028. doi:10.1016/S1474-4422(07)70267-3. PMID   17945155. S2CID   6691444.
36. Weinberg JM (2007). "Herpes zoster: epidemiology, natural history, and common complications". Journal of the American Academy of Dermatology . 57 (6 Suppl): S130–S135. doi:10.1016/j.jaad.2007.08.046. PMID   18021864.
37. Dooling KL, Guo A, Patel M, Lee GM, Moore K, Belongia EA, et al. (January 2018). "Recommendations of the Advisory Committee on Immunization Practices for Use of Herpes Zoster Vaccines" (PDF). MMWR Morb. Mortal. Wkly. Rep. 67 (3): 103–108. doi:10.15585/mmwr.mm6703a5. PMC   5812314 . PMID   29370152. Archived (PDF) from the original on 29 August 2021. Retrieved 9 January 2020.
38. Kennedy PG, Rovnak J, Badani H, Cohrs RJ (2015). "A comparison of herpes simplex virus type 1 and varicella-zoster virus latency and reactivation". The Journal of General Virology. 96 (Pt 7): 1581–1602. doi:10.1099/vir.0.000128. PMC   4635449 . PMID   25794504.
39. Gilden DH, Cohrs RJ, Mahalingam R (2003). "Clinical and molecular pathogenesis of varicella virus infection". Viral Immunology . 16 (3): 243–258. doi:10.1089/088282403322396073. PMID   14583142.
40. Kennedy PG (2002). "Varicella-zoster virus latency in human ganglia". Reviews in Medical Virology . 12 (5): 327–334. doi:10.1002/rmv.362. PMID   12211045. S2CID   34582060.
41. Kennedy PG (2002). "Key issues in varicella-zoster virus latency". Journal of Neurovirology . 8 (Suppl 2): 80–84. CiteSeerX   10.1.1.415.2755 . doi:10.1080/13550280290101058. PMID   12491156.
42. Mitchell BM, Bloom DC, Cohrs RJ, Gilden DH, Kennedy PG (2003). "Herpes simplex virus-1 and varicella-zoster virus latency in ganglia" (PDF). Journal of Neurovirology . 9 (2): 194–204. doi:10.1080/13550280390194000. PMID   12707850. S2CID   5964582. Archived (PDF) from the original on 17 May 2008.
43. Donahue JG, Choo PW, Manson JE, Platt R (1995). "The incidence of herpes zoster". Archives of Internal Medicine . 155 (15): 1605–1609. doi:10.1001/archinte.155.15.1605. PMID   7618983.
44. Thomas SL, Hall AJ (2004). "What does epidemiology tell us about risk factors for herpes zoster?". The Lancet Infectious Diseases . 4 (1): 26–33. doi:10.1016/S1473-3099(03)00857-0. PMID   14720565.
45. "Shingles". NHS.UK. Archived from the original on 26 September 2017. Retrieved 25 September 2017.
46. Schmader K (2007). "Herpes zoster and postherpetic neuralgia in older adults". Clinics in Geriatric Medicine . 23 (3): 615–632, vii–viii. doi:10.1016/j.cger.2007.03.003. PMC   4859150 . PMID   17631237.
47. Davison, AJ, Scott, JE (1986). "The complete DNA sequence of varicella-zoster virus". Journal of General Virology . 67 (9): 1759–1816. doi: 10.1099/0022-1317-67-9-1759 . PMID   3018124.
48. Koh MJ, Seah PP, Teo RY (February 2008). "Zosteriform herpes simplex" (PDF). Singapore Med. J. 49 (2): e59–60. PMID   18301829. Archived (PDF) from the original on 2 June 2014.
49. Kalman CM, Laskin OL (November 1986). "Herpes zoster and zosteriform herpes simplex virus infections in immunocompetent adults". Am. J. Med. 81 (5): 775–778. doi:10.1016/0002-9343(86)90343-8. PMID   3022586.
50. Chan J, Bergstrom RT, Lanza DC, Oas JG (2004). "Lateral sinus thrombosis associated with zoster sine herpete". Am. J. Otolaryngol. 25 (5): 357–360. doi:10.1016/j.amjoto.2004.03.007. PMID   15334402.
51. Arvin AM (1996). "Varicella-zoster virus" (PDF). Clin. Microbiol. Rev. 9 (3): 361–381. doi:10.1128/CMR.9.3.361. PMC   172899 . PMID   8809466. Archived (PDF) from the original on 25 June 2008.
52. Beards G, Graham C, Pillay D (1998). "Investigation of vesicular rashes for HSV and VZV by PCR". J. Med. Virol. 54 (3): 155–157. doi:10.1002/(SICI)1096-9071(199803)54:3<155::AID-JMV1>3.0.CO;2-4. PMID   9515761. S2CID   24215093.
53. De Paschale M, Clerici P (2016). "Microbiology laboratory and the management of mother-child varicella-zoster virus infection". World J Virol (Review). 5 (3): 97–124. doi: 10.5501/wjv.v5.i3.97 . PMC   4981827 . PMID   27563537.
54. Sampathkumar P, Drage LA, Martin DP (2009). "Herpes zoster (shingles) and postherpetic neuralgia". Mayo Clin Proc (Review). 84 (3): 274–280. doi:10.4065/84.3.274. PMC   2664599 . PMID   19252116.
55. Weinmann S, Naleway AL, Koppolu P, Baxter R, Belongia EA, Hambidge SJ, et al. (July 2019). "Incidence of Herpes Zoster Among Children: 2003–2014". Pediatrics. 144 (1): e20182917. doi: 10.1542/peds.2018-2917 . PMC   7748320 . PMID   31182552. S2CID   184486904.*Lay summary in: "Two-for-One: Chickenpox Vaccine Lowers Shingles Risk in Children". Scientific American. 11 June 2019.
56. Harpaz R, Ortega-Sanchez IR, Seward JF (6 June 2008). "Prevention of herpes zoster: recommendations of the Advisory Committee on Immunization Practices (ACIP)". MMWR Recomm. Rep. 57 (RR–5): 1–30, quiz CE2–4. PMID   18528318. Archived from the original on 17 November 2009. Retrieved 4 January 2010. This article incorporates text from this source, which is in the public domain .
57. Cunningham AL, Lal H, Kovac M, Chlibek R, Hwang SJ, Díez-Domingo J, et al. (September 2016). "Efficacy of the Herpes Zoster Subunit Vaccine in Adults 70 Years of Age or Older". N. Engl. J. Med. 375 (11): 1019–1032. doi: 10.1056/NEJMoa1603800 . hdl: 10536/DRO/DU:30086550 . PMID   27626517.
58. Shapiro M, Kvern B, Watson P, Guenther L, McElhaney J, McGeer A (October 2011). "Update on herpes zoster vaccination: a family practitioner's guide". Can. Fam. Physician . 57 (10): 1127–1131. PMC   3192074 . PMID   21998225.
59. "Shingles vaccine overview". NHS (UK). 31 August 2021. Archived from the original on 2 June 2014. Retrieved 9 October 2021. Overview to be reviewed 31 August 2024.
60. "The shingles immunisation programme: evaluation of the programme and implementation in 2018" (PDF). Public Health England (PHE). 9 April 2018. Archived (PDF) from the original on 9 January 2020. Retrieved 9 January 2020.
61. "Herpes zoster (shingles) immunisation programme 2016 to 2017: evaluation report". GOV.UK. 15 December 2017. Archived from the original on 9 January 2020. Retrieved 9 January 2020.
62. Shaun Linter (18 April 2018). "NHS England warning as vaccine programme extended" . Health Service Journal. Archived from the original on 15 November 2019. Retrieved 10 June 2018.
63. "Shingles (Herpes Zoster) Vaccination". Centers for Disease Control and Prevention (CDC). 25 October 2018. Archived from the original on 16 January 2020. Retrieved 18 January 2019. This article incorporates text from this source, which is in the public domain .
64. Tyring SK (2007). "Management of herpes zoster and postherpetic neuralgia". J. Am. Acad. Dermatol. 57 (6 Suppl): S136–S142. doi:10.1016/j.jaad.2007.09.016. PMID   18021865.
65. Helgason S, Petursson G, Gudmundsson S, Sigurdsson JA (2000). "Prevalence of postherpetic neuralgia after a single episode of herpes zoster: prospective study with long term follow up". British Medical Journal . 321 (7264): 794–796. doi:10.1136/bmj.321.7264.794. PMC   27491 . PMID   11009518.
66. Baron R (2004). "Post-herpetic neuralgia case study: optimizing pain control". Eur. J. Neurol. 11 (Suppl 1): 3–11. doi:10.1111/j.1471-0552.2004.00794.x. PMID   15061819. S2CID   24555396.
67. Bader MS (September 2013). "Herpes zoster: diagnostic, therapeutic, and preventive approaches". Postgraduate Medicine . 125 (5): 78–91. doi:10.3810/pgm.2013.09.2703. PMID   24113666. S2CID   5296437.
68. Chen N, Li Q, Yang J, Zhou M, Zhou D, He (2014). He L (ed.). "Antiviral treatment for preventing postherpetic neuralgia". Cochrane Database of Systematic Reviews . 2014 (2): CD006866. doi:10.1002/14651858.CD006866.pub3. PMC   10583132 . PMID   24500927.
69. Uscategui T, Doree C, Chamberlain IJ, Burton MJ (16 July 2008). "Corticosteroids as adjuvant to antiviral treatment in Ramsay Hunt syndrome (herpes zoster oticus with facial palsy) in adults". Cochrane Database of Systematic Reviews (3): CD006852. doi:10.1002/14651858.CD006852.pub2. PMID   18646170.
70. Colin J, Prisant O, Cochener B, Lescale O, Rolland B, Hoang-Xuan T (2000). "Comparison of the Efficacy and Safety of Valaciclovir and Acyclovir for the Treatment of Herpes zoster Ophthalmicus". Ophthalmology . 107 (8): 1507–1511. doi:10.1016/S0161-6420(00)00222-0. PMID   10919899.
71. Paryani SG, Arvin AM (1986). "Intrauterine infection with varicella-zoster virus after maternal varicella". The New England Journal of Medicine . 314 (24): 1542–1546. doi:10.1056/NEJM198606123142403. PMID   3012334.
72. Enders G, Miller E, Cradock-Watson J, Bolley I, Ridehalgh M (1994). "Consequences of varicella and herpes zoster in pregnancy: prospective study of 1739 cases". The Lancet . 343 (8912): 1548–1551. doi:10.1016/S0140-6736(94)92943-2. PMID   7802767. S2CID   476280.
73. Sørensen HT, Olsen JH, Jepsen P, Johnsen SP, Schønheyder HC, Mellemkjaer (2004). "The risk and prognosis of cancer after hospitalisation for herpes zoster: a population-based follow-up study". Br. J. Cancer . 91 (7): 1275–1279. doi:10.1038/sj.bjc.6602120. PMC   2409892 . PMID   15328522.
74. Ragozzino MW, Melton LJ, Kurland LT, Chu CP, Perry HO (1982). "Risk of cancer after herpes zoster: a population-based study". The New England Journal of Medicine . 307 (7): 393–397. doi:10.1056/NEJM198208123070701. PMID   6979711.
75. Ismail A, Rao DG, Sharrack B (2009). "Pure motor Herpes Zoster induced brachial plexopathy". Journal of Neurology. 256 (8): 1343–1345. doi:10.1007/s00415-009-5149-8. PMID   19434442. S2CID   26443976.
76. Roat MI (September 2014). "Herpes Zoster Ophthalmicus". Merck Manual. Archived from the original on 12 August 2016. Retrieved 14 August 2016.
77. Apisarnthanarak A, Kitphati R, Tawatsupha P, Thongphubeth K, Apisarnthanarak P, Mundy LM (2007). "Outbreak of varicella-zoster virus infection among Thai healthcare workers". Infect. Control Hosp. Epidemiol. 28 (4): 430–434. doi:10.1086/512639. PMID   17385149. S2CID   20844136.
78. Araújo LQ, Macintyre CR, Vujacich C (2007). "Epidemiology and burden of herpes zoster and post-herpetic neuralgia in Australia, Asia and South America" (PDF). Herpes . 14 (Suppl 2): 40A–44A. PMID   17939895. Archived from the original (PDF) on 5 December 2019. Retrieved 16 December 2007.
79. Brisson M, Edmunds WJ, Law B, Gay NJ, Walld R, Brownell M, et al. (2001). "Epidemiology of varicella zoster virus infection in Canada and the United Kingdom". Epidemiol. Infect. 127 (2): 305–314. doi:10.1017/S0950268801005921. PMC   2869750 . PMID   11693508.
80. Insinga RP, Itzler RF, Pellissier JM, Saddier P, Nikas AA (2005). "The incidence of herpes zoster in a United States administrative database". J. Gen. Intern. Med. 20 (8): 748–753. doi:10.1111/j.1525-1497.2005.0150.x. PMC   1490195 . PMID   16050886.
81. Yawn BP, Saddier P, Wollan PC, St Sauver JL, Kurland MJ, Sy LS (2007). "A population-based study of the incidence and complication rates of herpes zoster before zoster vaccine introduction". Mayo Clin. Proc. 82 (11): 1341–1349. doi:10.4065/82.11.1341. PMID   17976353.
82. de Melker H, Berbers G, Hahné S, Rümke H, van den Hof S, de Wit A, et al. (2006). "The epidemiology of varicella and herpes zoster in The Netherlands: implications for varicella zoster virus vaccination" (PDF). Vaccine . 24 (18): 3946–3952. doi:10.1016/j.vaccine.2006.02.017. hdl: 10029/5604 . PMID   16564115. Archived (PDF) from the original on 8 August 2017. Retrieved 3 September 2019.
83. Colebunders R, Mann JM, Francis H, Bila K, Izaley L, Ilwaya M, et al. (1988). "Herpes zoster in African patients: a clinical predictor of human immunodeficiency virus infection". J. Infect. Dis. 157 (2): 314–318. doi:10.1093/infdis/157.2.314. PMID   3335810.
84. Buchbinder SP, Katz MH, Hessol NA, Liu JY, O'Malley PM, Underwood R, et al. (1992). "Herpes zoster and human immunodeficiency virus infection". J. Infect. Dis. 166 (5): 1153–1156. doi:10.1093/infdis/166.5.1153. PMID   1308664.
85. Tsai SY, Chen HJ, Lio CF, Ho HP, Kuo CF, Jia X, et al. (22 August 2017). "Increased risk of herpes zoster in patients with psoriasis: A population-based retrospective cohort study". PLOS ONE. 12 (8): e0179447. Bibcode:2017PLoSO..1279447T. doi: 10.1371/journal.pone.0179447 . ISSN   1932-6203. PMC   5567491 . PMID   28829784.
86. Livengood JM (2000). "The role of stress in the development of herpes zoster and postherpetic neuralgia". Curr. Rev. Pain . 4 (1): 7–11. doi:10.1007/s11916-000-0003-9. PMID   10998709. S2CID   37086354.
87. Gatti A, Pica F, Boccia MT, De Antoni F, Sabato AF, Volpi A (2010). "No evidence of family history as a risk factor for herpes zoster in patients with post-herpetic neuralgia". J. Med. Virol. 82 (6): 1007–1011. doi:10.1002/jmv.21748. hdl: 2108/15842 . PMID   20419815. S2CID   31667542.
88. Schmader K, George LK, Burchett BM, Pieper CF (1998). "Racial and psychosocial risk factors for herpes zoster in the elderly". J. Infect. Dis. 178 (Suppl 1): S67–S70. doi: 10.1086/514254 . PMID   9852978.
89. Schmader K, George LK, Burchett BM, Hamilton JD, Pieper CF (1998). "Race and stress in the incidence of herpes zoster in older adults". J. Am. Geriatr. Soc. 46 (8): 973–977. doi:10.1111/j.1532-5415.1998.tb02751.x. PMID   9706885. S2CID   7583608.
90. Hicks LD, Cook-Norris RH, Mendoza N, Madkan V, Arora A, Tyring SK (May 2008). "Family history as a risk factor for herpes zoster: a case-control study". Arch. Dermatol. 144 (5): 603–608. doi: 10.1001/archderm.144.5.603 . PMID   18490586.
91. Marin M, Güris D, Chaves SS, Schmid S, Seward JF, et al. (Advisory Committee On Immunization Practices) (22 June 2007). "Prevention of varicella: recommendations of the Advisory Committee on Immunization Practices (ACIP)". MMWR Recomm. Rep. 56 (RR–4): 1–40. PMID   17585291. Archived from the original on 4 September 2011. This article incorporates text from this source, which is in the public domain .
92. Jumaan AO, Yu O, Jackson LA, Bohlke K, Galil K, Seward JF (2005). "Incidence of herpes zoster, before and after varicella-vaccination-associated decreases in the incidence of varicella, 1992–2002". J. Infect. Dis. 191 (12): 2002–2007. doi: 10.1086/430325 . PMID   15897984.
93. Whitley RJ (2005). "Changing dynamics of varicella-zoster virus infections in the 21st century: the impact of vaccination". J. Infect. Dis. 191 (12): 1999–2001. doi: 10.1086/430328 . PMID   15897983.
94. Patel MS, Gebremariam A, Davis MM (December 2008). "Herpes zoster-related hospitalizations and expenditures before and after introduction of the varicella vaccine in the United States". Infect. Control Hosp. Epidemiol. 29 (12): 1157–1163. doi:10.1086/591975. PMID   18999945. S2CID   21934553.
95. Yih WK, Brooks DR, Lett SM, Jumaan AO, Zhang Z, Clements KM, et al. (2005). "The incidence of varicella and herpes zoster in Massachusetts as measured by the Behavioral Risk Factor Surveillance System (BRFSS) during a period of increasing varicella vaccine coverage, 1998–2003". BMC Public Health . 5: 68. doi: 10.1186/1471-2458-5-68 . PMC   1177968 . PMID   15960856.
96. Yawn BP, Saddier P, Wollan PC, St Sauver JL, Kurland MJ, Sy LS (2007). "A population-based study of the incidence and complication rates of herpes zoster before zoster vaccine introduction". Mayo Clin. Proc. 82 (11): 1341–1349. doi:10.4065/82.11.1341. PMID   17976353.
97. Volpi A (2007). "Severe complications of herpes zoster" (PDF). Herpes . 14 (Suppl 2): 35A–39A. PMID   17939894. Archived (PDF) from the original on 27 January 2019. Retrieved 18 December 2007.
98. Coplan P, Black S, Rojas C, Shinefield H, Ray P, Lewis E, et al. (2001). "Incidence and hospitalization rates of varicella and herpes zoster before varicella vaccine introduction: a baseline assessment of the shifting epidemiology of varicella disease". Pediatr. Infect. Dis. J. 20 (7): 641–645. doi:10.1097/00006454-200107000-00002. PMID   11465834. S2CID   25626718.
99. Weaver BA (1 March 2007). "The burden of herpes zoster and postherpetic neuralgia in the United States". J. Am. Osteopath. Assoc. 107 (3 Suppl): S2–57. PMID   17488884. Archived from the original on 13 January 2008.
100. Weller TH (2000). "Chapter 1. Historical perspective". In Arvin AM, Gershon AA (eds.). Varicella-Zoster Virus: Virology and Clinical Management. Cambridge University Press. ISBN   978-0521660242.
101. Oaklander AL (October 1999). "The pathology of shingles: Head and Campbell's 1900 monograph". Arch. Neurol. 56 (10): 1292–1294. doi:10.1001/archneur.56.10.1292. PMID   10520948.
102. Weller TH (1953). "Serial propagation in vitro of agents producing inclusion bodies derived from varicella and herpes zoster". Proc. Soc. Exp. Biol. Med. 83 (2): 340–346. doi:10.3181/00379727-83-20354. PMID   13064265. S2CID   28771357.
103. "Evelyn Nicol 1930 - 2020 - Obituary". legacy.com. Archived from the original on 27 May 2022. Retrieved 28 August 2020.
104. Holt LE, McIntosh R (1936). Holt's Diseases of Infancy and Childhood. D Appleton Century Company. pp. 931–933.
105. Weller TH (1997). "Varicella-herpes zoster virus" . In Evans AS, Kaslow RA (eds.). Viral Infections of Humans: Epidemiology and Control. Plenum Press. pp. 865–892. ISBN   978-0306448553.
106. Hope-Simpson RE (1965). "The nature of herpes zoster; a long-term study and a new hypothesis". Proceedings of the Royal Society of Medicine . 58 (1): 9–20. doi:10.1177/003591576505800106. PMC   1898279 . PMID   14267505.
107. Thomas SL, Wheeler JG, Hall AJ (2002). "Contacts with varicella or with children and protection against herpes zoster in adults: a case-control study". The Lancet . 360 (9334): 678–682. doi:10.1016/S0140-6736(02)09837-9. PMID   12241874. S2CID   28385365.
108. Terada K, Hiraga Y, Kawano S, Kataoka N (1995). "Incidence of herpes zoster in pediatricians and history of reexposure to varicella-zoster virus in patients with herpes zoster". Kansenshogaku Zasshi. 69 (8): 908–912. doi: 10.11150/kansenshogakuzasshi1970.69.908 . ISSN   0387-5911. PMID   7594784.
109. ἕρπης . Liddell, Henry George ; Scott, Robert ; A Greek–English Lexicon at the Perseus Project.
110. ἕρπειν  in Liddell and Scott.
111. Harper, Douglas. "herpes". Online Etymology Dictionary .
112. "Herpes | Define Herpes at Dictionary.com". Archived from the original on 25 February 2011. Retrieved 14 March 2011.
113. ζωστήρ  in Liddell and Scott.
114. Harper, Douglas. "zoster". Online Etymology Dictionary .
115. cingulus, cingulum . Charlton T. Lewis and Charles Short. A Latin Dictionary on Perseus Project .
116. Harper, Douglas. "shingles". Online Etymology Dictionary .
117. Yawn BP, Gilden D (3 September 2013). "The global epidemiology of herpes zoster". Neurology . 81 (10): 928–930. doi:10.1212/wnl.0b013e3182a3516e. PMC   3885217 . PMID   23999562.
118. Becerra JC, Sieber R, Martinetti G, Costa ST, Meylan P, Bernasconi E (July 2013). "Infection of the central nervous system caused by varicella zoster virus reactivation: a retrospective case series study". International Journal of Infectious Diseases . 17 (7): e529–534. doi: 10.1016/j.ijid.2013.01.031 . PMID   23566589. Archived from the original on 17 December 2019. Retrieved 2 March 2016.
119. Ihekwaba UK, Kudesia G, McKendrick MW (15 September 2008). "Clinical features of viral meningitis in adults: significant differences in cerebrospinal fluid findings among herpes simplex virus, varicella zoster virus, and enterovirus infections". Clinical Infectious Diseases. 47 (6): 783–789. doi: 10.1086/591129 . ISSN   1058-4838. PMID   18680414.
120. Pollak L, Dovrat S, Book M, Mendelson E, Weinberger M (August 2011). "Varicella zoster vs. herpes simplex meningoencephalitis in the PCR era. A single center study". Journal of the Neurological Sciences . 314 (1–2): 29–36. doi:10.1016/j.jns.2011.11.004. PMID   22138027. S2CID   3321888.
121. Kojima Y, Hashiguchi H, Hashimoto T, Tsuji S, Shoji H, Kazuyama Y (15 September 2008). "Recurrent Herpes Simplex Virus Type 2 Meningitis: A Case Report of Mollaret's Meningitis" (PDF). Japanese Journal of Infectious Diseases. 55 (3): 85–88. ISSN   1344-6304. PMID   12195049. Archived (PDF) from the original on 22 January 2013.

Further reading

• Saguil A (November 2017). "Herpes Zoster and Postherpetic Neuralgia: Prevention and Management". American Family Physician. 96 (10): 656–663. PMID   29431387.

External links

Wikipedia's health care articles can be viewed offline with the Medical Wikipedia app .

• NINDS Shingles Information Page – National Institute of Neurological Disorders and Stroke