Author: Maya Naravi / Editor: Kathleen Berry / Reviewer: Michael Perry, Grace McKay / Codes: O2 / Published: 07/06/2021
There are 3 main types of rashes in children:
- The potentially worrying: for example petechiae/purpura associated with meningococcal infections
- Named rashes: those that can be easily recognised such as chickenpox, measles, Henoch-Schonlein purpura, erythema multiforme, idiopathic thrombocytopenic purpura (ITP), eczema and psoriasis
- ‘Everything else’: nondescript viral rashes such as erythema infectiosum and roseola exanthum subitum
Children commonly present to the emergency department (ED) with a febrile illness and a rash.
Approximately 70% of such cases are attributable to viruses, such as coxsackie, echovirus or the enteroviruses. The rest result from bacterial infections such as streptococcal and staphylococcal infections, mycoplasma, rickettsial diseases, drug-related causes or Kawasaki disease.
Prodromal symptoms of such illnesses include:
- Loss of appetite
Some illnesses are associated with a typical rash, which can lead to a definite diagnosis. In other cases, the clinical features may not be specific enough to enable an accurate diagnosis.
Exanthems and Enanthems
Common childhood rashes fall into two categories:
Exanthems are eruptive skin rashes associated with a fever or other constitutional symptoms. They commonly arise from an infectious disease, but can also be drug-related.
Whilst Vaccination programmes have resulted in a reduction in the occurrence of many childhood illnesses, Emergency Clinicians should still be aware of common childhood exanthems, as well as newer types such as Gianotti-Crosti Syndrome.
Six separate childhood exanthems were defined in the late 19th, early part of the 20th Century. These were named in the order they were discovered and are outlined in the table below.
Table 1. The original classical childhood exanthems
Human Herpes Virus 6B or
Human Herpes Virus 7
The term fourth disease or Dukes Disease is thought to be a variant of scarlet fever and is no longer used.
Adapted from http://www.kcom.edu/faculty/chamberlain/exanthems.htm
Chickenpox and Small Pox were two other classic childhood exanthems recognised as separate from one another in the 18th century.
Tropical Viral exanthems are also common in certain regions, however these will not be covered in this learning module.
When assessing a child with a rash, record the childs vital signs, as well as specific features of the childhood exanthem including:
- Central or peripheral
- Extensor surfaces
- Mucosal involvement
- Blanching or non-blanching
- Presence of petechiae
Childhood exanthems vary greatly depending on factors such as location, size, elevation, palpability and the content of the associated skin eruptions.
Seven broad types have been identified:
A macule is a circumscribed area of change in normal skin colour, with no skin elevation or depression. It may be any size.
A papule is a solid raised lesion up to 0.5 cm in greatest diameter.
Note, however, that some text definitions use 1.0 cm as a cut-off limit instead of 0.5 cm.
A nodule is similar to a papule but is located deeper in the dermis or subcutaneous tissue.
Nodules are differentiated from papules by palpability and depth, rather than size.
A plaque is an elevation of skin occupying a relatively large area in relation to its height.
It can often be formed by a confluence of papules.
A pustule is a circumscribed elevation of skin containing purulent fluid of variable character.
The fluid may be white, yellow, greenish or haemorrhagic.
A vesicle is a circumscribed, elevated, fluid-containing lesion less than 0.5 cm in its greatest diameter. It may be intra-epidermal or sub-epidermal in origin.
Note, however, that some text definitions use 1.0 cm as a cut-off limit instead of 0.5 cm.
A bulla is similar to a vesicle, except the lesion is more than 0.5 cm in its greatest diameter.
Note, however, that some text definitions use 1.0 cm as a cut-off limit to replace 0.5 cm.
The causes of childhood exanthems can be categorised according to the type of eruptions that occur:
Maculopapular eruptions are seen most commonly in viral illnesses and immune-mediated illnesses. Table 1 lists the most common causes of maculopapular eruptions.
|Erythema infectiosum (slapped cheek)|
|Exanthum subitum (roseola)|
Diffuse Erythema with Desquamation
The majority of children with diffuse erythema will present with a fever and non-specific symptoms. The most common causes of diffuse erythema with desquamation are shown in Table 2.
|Toxic shock syndrome|
|Staphylococcal scaled skin syndrome|
Vesicobullous or pustular eruptions
Vesicobullous or pustular eruptions are linked to infections, acute ezcematous tissue reactions, trauma or inflammatory bullous disorders. The most common causes of infection-related vesicobullous or pustular eruptions are shown in Table 3.
|(Diffuse) varicella zoster|
|(Diffuse) disseminated gonococcaemia|
|(Local) hand, foot and mouth (coxsackievirus)|
|(Local) herpes zoster|
Aetiology and epidemiology
Measles is caused by a paramyxovirus and occurs in epidemics in winter and spring. It is still a leading cause of morbidity and mortality; especially in less developed countries. The infection is spread by droplets, or, less commonly, by aerosol spread. The primary site of infection is the nasopharynx.
The incubation period for measles is typically 7-21 days. The infectivity period usually commences several days before the onset of the symptoms and lasts until up to 4 days after the appearance of the characteristic rash.
Measles is characterised by an erythematous maculopapular rash beginning on the head, with a cephalocaudal progression.
The clinical case definition of this disease has been defined as a fever >38.3 C or felt hot if not measured, a generalised maculopapular rash lasting in excess of 3 days and at least one of: cough, conjunctivitis or coryza.
Other associated signs described in measles are:
- Pin-point elevations of the soft palate, which coalesce to cause a reddened pharynx
- Blue-white Kopliks spots occurring on the buccal mucosa opposite the second molar and lasting around 1-2 days
|Fig 1: Typical measles rash||Fig 2: Koplik’s spots are pathognomonic of measles|
The clinical case definition of measles has a low positive predictive value in settings of low prevalence and therefore a laboratory diagnosis is important .
The investigation for measles is performed using oral fluid or serum sampling for measles immunoglobulin M (IgM) antibody.
In acute cases, measles can be detected by taking throat swabs or testing the urine.
Measles is a notifiable illness and notification is required based on clinical suspicion.
Children diagnosed with measles should be kept off school until 5 days after the appearance of the rash.
The treatment of measles is largely symptomatic and the majority of children will recover uneventfully.
Patients should be advised to attend, however, if symptoms do not resolve within 1 week or if unusual symptoms develop.
Additional treatment options
High fatality rates are still seen in more vulnerable patients, e.g. the immunocompromised, the malnourished and those living in less developed countries. In these instances, a range of additional treatment options can be considered.
|Prophylactic antibiotics||Shown to reduce the incidence of some complications in children in areas with high case-fatality rates, e.g. pneumonia, otitis media and tonsillitis |
|Human normal immunoglobulin (HNIG)||Shown to prevent or reduce the severity of an attack in infants under 12 months, immunocompromised children and pregnant patients (if used within 72 hours of exposure)|
|Measles, Mumps and Rubella (MMR) vaccination||Indicated in healthy unimmunised or partially immunised children if used within 72 hours of exposure to measles|
|Vitamin A supplements||Shown to reduce mortality and pneumonia-specific mortality in children under two years, for example in less developed countries |
A number of complications can potentially arise from measles:
- Otitis media
- Acute encephalitis
- Sub-acute sclerosing pan encephalitis
Aetiology and epidemiology
Scarlet fever or scarlatina is an exotoxin-mediated disease arising from Group A beta-haemolytic streptococci (GABHS). Over one hundred different M protein types have been identified.
The organism is mainly spread by aerosol or droplet spread; although it can also be found in contaminated foods.
The incubation period for scarlet fever is usually 2-5 days. The infectivity period is about 5 days from when the patient is given antibiotics.
Scarlet fever usually begins with a sore throat, headache, fever, tender cervical lymphadenopathy and malaise. In children, abdominal pain may also occur. This is then followed by a confluent erythematous rash (A) with a sandpaper-like quality.
Other associated features include:
- Strawberry tongue (B)
- Pastias lines (C) in the flexural folds
- Circumoral pallor
- Desquamation of hands, feet and groin
|Fig 1: Rash||Fig 2: Strawberry tongue||Fig 3: Pastias lines|
A broad spectrum of clinical presentations associated with scarlet fever are listed in Table 1.
|Impetigo and pyoderma||Erysipelas||Vaginitis|
|Septic arthritis||Necrotising fasciitis||Toxic shock syndrome|
A variety of diagnostic tests for scarlet fever are available, see Table 2. There are, however, limitations associated with each investigation.
|Streptococcal antibody test||Streptococcal antibody tests are not indicated during acute illness but may confirm previous infection|
|Throat swab culture test||Throat swab culture tests can be performed, but a good quality specimen is required. This is the gold standard test for scarlet fever but results can take 24-48 hours|
|Rapid diagnostic tests||Rapid antigen testing is not routinely recommended for sore throats in the UK. The specificities are generally high but the sensitivities vary and depend on the quality of the throat swab specimen |
Scarlet fever is a notifiable disease and notification is required based on clinical suspicion.
Antibiotic treatment is indicated (penicillin V or erythromycin or cephalosporin) for 10 days.
Health Protection Agency guidance advises that children diagnosed with scarlet fever should be excluded from school for 5 days following the commencement of antibiotics.
The majority of texts advise 24 hours off school post-commencement of antibiotics for group A streptococcal pharyngotonsillitis alone.
Problems can arise from a range of complications associated with scarlet fever.
|Toxic shock-like syndrome|
|Acute rheumatic fever|
Note that the risks of post-streptococcal glomerulonephritis and acute rheumatic fever in the UK are low.
Aetiology and epidemiology
Rubella is a self-limiting benign illness occurring in adults and children worldwide. It is caused by the rubella virus and spread by airborne transmission or droplet.
The incubation period for rubella is around 2 weeks after which a prodrome of headaches, fever and lymphadenopathy occur. The infectivity period is typically from 7 days before to around 7 days after the onset of the characteristic rash.
Rubella is most commonly associated with a characteristic macular rash starting on the face then passing down over the body to the feet. In addition, it is also associated with:
- Tender occipital and posterior auricular lymphadenopathy
- Respiratory involvement
Another characteristic is the appearance of Forschheimer spots. These are pin-point red macules and petechiae, which may be seen on the soft palate and uvula during the rash phase.
The clinical signs of rubella can be difficult to distinguish from other viral illnesses such as parvovirus B19, measles, dengue and human herpesvirus 6.
Clinical diagnosis of rubella is therefore unreliable and laboratory confirmation of the disease is required, particularly during pregnancy due to the potential consequences to the foetus.
Immunoglobulin G and Immunoglobulin M assays should be used.
Rubella is a notifiable disease and notification is required based on clinical suspicion. Children diagnosed with rubella should remain off school for at least 5 days following the onset of the rash.
Women should avoid pregnancy until 3 months after immunisation.
Complications of rubella are rare, although conditions which can arise are listed in Table 1.
The risks of congenital defects (congenital rubella syndrome) are highest (90%) if infection occurs within the first 12 weeks of pregnancy. Under these circumstances, follow-up should be arranged.
|Arthralgia or arthritis|
Aetiology and epidemiology
Erythema infectiosum is caused by parvovirus B19, a highly infectious human pathogen found around the world. It is predominantly spread in respiratory droplets but can also pass from mother to fetus and in blood transfusions.
The incubation period for erythema infectiosum is usually between 4 and 14 days but can be as long as 21 days.
The infectivity period commences at exposure and lasts until the symptoms appear, i.e. at 4-14 days.
Fever and non-specific symptoms occur early and these are followed approximately 2-3 weeks later by a rash and arthropathy.
The classical rash is described as having a slapped cheek appearance and lasts for up to 4 days. The rash is a confluent, erythematous, oedematous rash with patches or plaques on cheeks, with sparing of nasal bridge and periorbital areas. This is followed by a maculopapular rash to the trunk and limbs. This rash can vary in intensity and duration. As the rash begins to fade it can take on a lacy appearance.
A broad spectrum of clinical presentations are associated with erythema infectiosum and these are presented on the next page.
The clinical presentations of erythema infectiosum are shown in Table 1.
|Papular purpuric glove and socks syndrome|
|Meningitis and encephalitis|
|Fibromyalgia and chronic fatigue syndrome|
|Chronic infection (in patients with immunodeficiency)|
The majority of patients with erythema infectiosum do not need investigations unless there is a history of immunocompromise or haemoglobinopathy or unless a patient is pregnant.
Immunoglobulin M antibodies appear around 10 days post-infection and remain detectable for up to 2-3 months. Immunoglobulin G antibodies appear around 14 days post-infection and remain for life.
Erythema infectiosum is a mild self-limiting illness for most children.
Treatment is largely symptomatic for the majority of patients, although analgesia may be needed to help the patient cope with joint pains.
Transfusion may also be indicated for patients with aplastic crises.
Intravenous immunoglobulin containing pooled neutralising anti-B19 antibody has been used to treat immunocompromised patients.
Pregnant women in contact with, or with, suspected parvovirus B19, should have serological testing. Referral to an obstetrician for regular monitoring and follow-up is also required.
Patients with haemoglobinopathies, immunocompromise or in pregnancy may experience complications if exposed to parvovirus B19. Under these circumstances, appropriate serological testing, investigations, management planning and follow-up are required.
Transient aplastic crises can also occur in those with, and without, underlying chronic haemolytic illness.
Viral transmission in pregnancy is more likely to occur during the first and second trimester. Foetal hydrops is more likely to occur in the second trimester. Estimated transplacental infection of women who are infected in pregnancy is around 30% with a 5-8% risk of foetal loss.
Aetiology and epidemiology
Exanthem subitum (otherwise known as sixth disease or roseola infantum) is caused by human herpesvirus 6 (HHV-6) and human herpesvirus 7 (HHV-7). HHV-6 is particularly widespread and nearly all children will acquire the infection early in childhood. HHV-6 infection results in a common benign illness and is a common cause of fever and febrile seizures in infants.
The incubation period for exanthem subitum is from 5-15 days.
Exanthem subitum is associated with a mild respiratory illness, 3-5 days of fever and cervical lymphadenopathy (in 30% of cases).
Some 10% of infants develop the characteristic rash, which appears as the fever disappears. It commences behind the ears, taking the form of discrete blanching macules and papules surrounded by halos. It typically lasts for 1-2 days.
Other symptoms and signs include:
1. Palpebral oedema (in 30% of cases)
2. Uvulopalatal junction ulcers
3. Erythematous papules on the soft palate also known as Nagayamas spots (in 65% of cases)
4. Diarrhoea (in 68% of cases)
5. Cough (in 50% of cases)
Prenatal and perinatal infections are uncommon due to the presence of maternal antibodies.
Serological testing for exanthem subitum is not necessary in the majority of cases.
Human herpesvirus 6 causes a benign illness and anti-viral therapy is not needed in the majority of cases.
Children may, however, present with a febrile seizure, which may need admission for a period of observation.
The child may warrant investigation and management for a septic illness if the clinical course does not present or improve as expected.
Reactivation of the virus can occur in transplant recipients.
A number of rare central nervous system complications associated with exanthem subitum are shown in Table 1.
Aetiology and epidemiology
Chicken pox is a common highly infectious illness found worldwide.
It is caused by the varicella zoster virus and is spread via respiratory droplets.
The incubation period for chicken pox is usually 10-21 days. The infectivity period starts when symptoms first appear and lasts until all the lesions have crusted over. This is usually around 5-6 days after the onset of the illness, with most crusts disappearing by 20 days.
Chicken pox is a coryzal-type illness with itchy fluid filled vesicles, which progress over the trunk around 3-5 days. It is possible to be infected with no symptoms. Fever tends to resolve by day 4.
Chicken pox is a very common illness and the vast majority of cases can be managed symptomatically at home.
Prolonged fever >4 days should prompt the suspicion of complications of varicella such as secondary bacterial sepsis.
Under these circumstances, patients should be examined carefully with appropriate blood test work up and a chest x-ray, depending on their clinical presentation.
Oral acyclovir has been shown to reduce the effects of chicken pox, for example the number of lesions and duration of fever, if used within 24 hours of the onset of rash in immunocompetent children.
Oral acylovir has not been shown to reduce the incidence of varicella zoster virus pneumonia or other complications when compared to placebo. Cochrane results do not support the widespread use of acyclovir in immunocompetent children .
Varicella zoster immunoglobulin (VZIG) should be given to neonates whose mothers develop the rash 7 days before or 7 days after the delivery, to reduce the risk of severe neonatal varicella.
Problems may arise where there is a failure to recognise the complications of secondary streptococcal or staphylococcal infections or to appropriately manage high-risk groups.
A prolonged fever for more than 4 days in a child with chicken pox, for example, should prompt the suspicion of secondary bacterial complications .
A range of complications including pneumonia, bacteraemia and encephalitis are recognised . Neurological complications may occur without a preceding rash .
The incidence of congenital varicella syndrome is low if maternal infection occurs before 20 weeks of gestation. Congenital varicella syndrome is associated with shortened limbs, skin scarring, cataracts and growth retardation.
Ibuprofen should not be used for fever control with chicken pox due to the established risk of developing necrotising fascitis.
Aetiology and epidemiology
|Viral||Epstein Barr virus|
|Hepatitis A, B, C|
|Human herpesvirus 6|
|Coxsackie A16, B4, B5|
Gianotti-Crosti syndrome is a papular acrodermatitis. It is a self-limiting illness peaking between 1 and 6 years of age and is associated with a range of viruses and bacteria (Table 1).
Symptoms of Gianotti-Crosti syndrome include:
- Low-grade fever
Children with atopic dermatitis are more often affected and an association with immunisation is recognised.
The rash is characteristically papular or papulovesicular in form and symmetrically distributed on the face, buttocks and the upper and lower extensor surface of the extremities. The trunk, however, is usually spared. Lesions can last from 5 days up to 12 months, although most heal within 2 months.
Image reproduced with permission from Medscape. Article: Dermatologic Manifestations of Gianotti-Crosti Syndrome.
Investigations of Gianotti-Crosti syndrome are rarely indicated unless there is diagnostic uncertainty or presence of physical findings, e.g. hepatomegaly.
Further management of Gianotti-Crosti patients is rarely indicated unless there is diagnostic uncertainty or atypical presentation. Under these circumstances, follow-up is indicated.
Antihistamines may be needed with some patients for treatment of pruritus.
Complications of Gianotti-Crosti syndrome are rare but can include chronic liver disease secondary to hepatitis B infection.
Notification of specified infectious diseases is a legal requirement under the Public Health (Control of Disease) Act 1984 and the Public Health (Infectious Diseases) Regulations 1988.
Clinically suspicious cases of a notifiable disease must be notified, although notification can be changed later if the initial diagnosis proves incorrect. The primary purpose of notification is to identify potential outbreaks and epidemics rapidly.
At the time of writing, there are 30 notifiable diseases. A fully up-to-date list is published on the Health Protection Agency website. Depending in which devolved region of the United Kingdom you work, please consult guidance from your local public health authority as some variances exist in what diseases require notification.
|Acute encephalitis||Paratyphoid fever|
|Meningitis||Viral haemorrhagic fever|
|Meningococcal septicaemia||Viral hepatitis|
|Ophthalmia neonatorum||Yellow fever|
Several of the diseases referred to in this session are notifiable infectious diseases.
|Name of Disease||Status|
Notification procedures may vary locally but are based on a number of common key points.
|Who is responsible for notification?||The doctor attending the patient when diagnosed|
|What should I notify?||Any clinical manifestation of a notifiable disease|
|When should I notify?||On suspicion or diagnosis of clinical disease|
|How do I notify?||On a form available from the proper officer of the local authority; also by telephone or fax if urgent action is likely to be required|
|Why should I notify?||So that the proper officer or Consultant in Communicable Disease Control can take appropriate action to investigate and control spread, and to provide data for local and national surveillance|
The measles, mumps and rubella (MMR) vaccination was introduced in 1988 and forms a key part of the current immunisation schedule.
Coverage initially exceeded 90% and measles notifications declined to their lowest point in UK history. Uptake of the vaccine fell, however, between 1995 and 2003, resulting in measles outbreaks in the period 2006 to 2008.
Similarly, the incidence of rubella has been markedly reduced over recent decades. As a consequence, many junior clinicians lack experience in dealing with the clinical features of rubella.
The side effects of the MMR vaccine are a fever, usually in the second week after immunisation, and a rash.
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