Hand Foot and Mouth (HFM) Disease

Hand Foot and Mouth Disease and Pregnancy

Commonly HFM is an illness of children less than 10 years of age; adults generally were exposed during childhood and maintain a natural immunity. Information regarding fetal exposure to HFM during pregnancy is limited. No solid evidence exists that maternal enterovirus infection is associated with complications such as spontaneous abortion or congenital defects. However, should a baby be born to a mother with active HFM symptoms, the risk of neonatal infection is high. Typically, such newborns have a mild illness. Rarely, overwhelming infection involving vital organs such as liver, heart, and brain can be lethal.

What is hand foot and mouth (HFM) disease?

Hand foot and mouth disease (HFM) is a viral infection characterized byfever and a typical rash most frequently seen on the palms of the hands, soles of the feet, and inside the mouth. It should not be confused with foot (hoof) and mouth disease that affects cattle, sheep, and swine.

What are the symptoms and signs of hand foot and mouth disease?

HFM is most commonly an illness of the spring and fall seasons. Initial symptoms of mild fever (101 F-102 F) and malaise are followed within one or two days by a characteristic rash. Small (2 mm-3 mm) red spots that quickly develop into small blisters (vesicles) appear on the palms, soles, and oral cavity. The gums, tongue, and inner cheek are most commonly involved. The foot lesions may also involve the lower calf region and rarely may appear on the buttocks. Oral lesions are commonly associated with a sore throat and diminished appetite.

What causes hand foot and mouth disease?

HFM is caused by several members of the enterovirus family of viruses. The most common cause isCoxsackie virus A-16; less frequently enterovirus 71 is the infectious agent. The clinical manifestations of routine HFM are the same regardless of the responsible virus. However, patients infected with enterovirus 71 are more likely to experience rare complications (for example, viral meningitis or cardiac muscle involvement).

Reference: www.healthlinkbc.ca/healthfiles/hfile64.stm

Picture of characteristic rash and blisters of hand foot and mouth disease

Hand, Foot, and Mouth Diseas

Description 

Hand, foot, and mouth disease (HFMD) is a common viral illness of infants and children. The disease causes fever and blister-like eruptions in the mouth and/or a skin rash. HFMD is often confused with foot-and-mouth (also called hoof-and-mouth) disease, a disease of cattle, sheep, and swine; however, the two diseases are not related—they are caused by different viruses. Humans do not get the animal disease, and animals do not get the human disease.

Illness

• The disease usually begins with a fever, poor appetite, malaise (feeling vaguely unwell), and often with a sore throat.

• One or 2 days after fever onset, painful sores usually develop in the mouth. They begin as small red spots that blister and then often become ulcers. The sores are usually located on the tongue, gums, and inside of the cheeks.

• A non-itchy skin rash develops over 1–2 days. The rash has flat or raised red spots, sometimes with blisters. The rash is usually located on the palms of the hands and soles of the feet; it may also appear on the buttocks and/or genitalia.

• A person with HFMD may have only the rash or only the mouth sores.

Cause of Hand, Foot, and Mouth Disease

• HFMD is caused by viruses that belong to the enterovirus genus (group). This group of viruses includes polioviruses, coxsackieviruses, echoviruses, and enteroviruses.

• Coxsackievirus A16 is the most common cause of HFMD in the United States, but other coxsackieviruses have been associated with the illness.

• Enteroviruses, including enterovirus 71, have also been associated with HFMD and with outbreaks of the disease.

How Hand, Foot, and Mouth Disease Is Spread

• Infection is spread from person to person by direct contact with infectious virus. Infectious virus is found in the nose and throat secretions, saliva, blister fluid, and stool of infected persons. The virus is most often spread by persons with unwashed, virus-contaminated hands and by contact with virus-contaminated surfaces.

• Infected persons are most contagious during the first week of the illness.

• The viruses that cause HFMD can remain in the body for weeks after a patient's symptoms have gone away. This means that the infected person can still pass the infection to other people even though he/she appears well. Also, some persons who are infected and excreting the virus, including most adults, may have no symptoms.

• HFMD is not transmitted to or from pets or other animals.

Factors That Increase the Chance for Infection or Disease

• Everyone who has not already been infected with an enterovirus that causes HFMD is at risk of infection, but not everyone who is infected with an enterovirus becomes ill with HFMD.

• HFMD occurs mainly in children under 10 years old but can also occur in adults. Children are more likely to be at risk for infection and illness because they are less likely than adults to have antibodies to protect them. Such antibodies develop in the body during a person’s first exposure to the enteroviruses that cause HFMD.

• Infection results in immunity to (protection against) the specific virus that caused HFMD. A second case of HFMD may occur following infection with a different member of the enterovirus group.

Diagnosis of Hand, Foot, and Mouth Disease

• HFMD is one of many infections that result in mouth sores. However, health care providers can usually tell the difference between HFMD and other causes of mouth sores by considering the patient’s age, the symptoms reported by the patient or parent, and the appearance of the rash and sores.

• Samples from the throat or stool may be sent to a laboratory to test for virus and to find out which enterovirus caused the illness. However, it can take 2–4 weeks to obtain test results, so health care providers usually do not order tests.

Treatment and Medical Management of Hand, Foot, and Mouth Disease

• There is no specific treatment for HFMD.
• Symptoms can be treated to provide relief from pain from mouth sores and from fever and aches:
  
  • Pain and fever can be treated with over-the-counter medications (caution: aspirin should not be given to children).
  • Mouthwashes or sprays that numb pain can be used to lessen mouth pain.
• Fluid intake should be enough to prevent dehydration (lack of body fluids). If moderate-to-severe dehydration develops, it can be treated medically by giving fluids through the veins.

Prevention of Hand, Foot, and Mouth Disease

• A specific preventive for HFMD is not available, but the risk of infection can be lowered by following good hygiene practices.
• Good hygiene practices that can lower the risk of infection include
  
  • Washing hands frequently and correctly (see Clean Hands Save Lives! ) and especially after changing diapers and after using the toilet
  • Cleaning dirty surfaces and soiled items, including toys, first with soap and water and then disinfecting them by cleansing with a solution of chlorine bleach (made by adding 1 tablespoon of bleach to 4 cups of water)
  • Avoiding close contact (kissing, hugging, sharing eating utensils or cups, etc.) with persons with HFMD

Vaccination Recommendations

• No vaccine is available to protect against the enteroviruses that cause HFMD.

Complications of Hand, Foot, and Mouth Disease

• Complications from the virus infections that cause HFMD are not common, but if they do occur, medical care should be sought.

• Viral or "aseptic meningitis can rarely occur with HFMD. Viral meningitis causes fever, headache, stiff neck, or back pain. The condition is usually mild and clears without treatment; however, some patients may need to be hospitalized for a short time.

• Other more serious diseases, such as encephalitis (swelling of the brain) or a polio-like paralysis, result even more rarely. Encephalitis can be fatal.
• There have been reports of fingernail and toenail loss occurring mostly in children within 4 weeks of their having hand, foot, and mouth disease (HFMD). At this time, it is not known whether the reported nail loss is or is not a result of the infection. However, in the reports reviewed, the nail loss has been temporary and nail growth resumed without medical treatment.

Trends and Statistics of Hand, Foot, and Mouth Disease

• Individual cases and outbreaks of HFMD occur worldwide. In temperate climates, cases occur more often in summer and early autumn.

• Since 1997, outbreaks of HFMD caused by enterovirus 71 have been reported in Asia and Australia.

• HFMD caused by coxsackievirus A16 infection is a mild disease. Nearly all patients recover in 7 to 10 days without medical treatment.

• HFMD caused by enterovirus 71 has shown a higher incidence of neurologic (nervous system) involvement. And fatal cases of encephalitis (swelling of the brain) caused by enterovirus 71 have occurred during outbreaks. However, these serious outcomes are still very rare.
  
  Source: National Center for Immunization and respiratory diseases CDC
  
  

Tips for a Safe and Healthy Life

Take steps every day to live a safe and healthy life.

Eat healthy.

Eat a variety of fruits, vegetables, and whole grains every day. Limit foods and drinks high in calories, sugar, salt, fat, and alcohol. Eat a balanced diet to help keep a healthy weight. Get Smart with Fruits and Veggies Healthy Weight Nutrition for Everyone

Be active.

Be active for at least 2½ hours a week. Include activities that raise your breathing and heart rates and that strengthen your muscles. Help kids and teens be active for at least 1 hour a day. Include activities that raise their breathing and heart rates and that strengthen their muscles and bones. Physical Activity

Protect yourself.

Wear helmets, seat belts, sunscreen, and insect repellent. Wash hands to stop the spread of germs. Avoid smoking and breathing other people’s smoke. Build safe and healthy relationships with family and friends. Be ready for emergencies. Make a supply kit. Make a plan. Be informed. Clean Hands Save Lives Emergency Preparedness and You Injury Topics and Fact Sheets Protect Yourself from the Sun Quit Smoking

Manage stress.

Balance work, home, and play. Get support from family and friends. Stay positive. Take time to relax. Get 7-9 hours of sleep each night. Make sure kids get more, based on their age. Get help or counseling if needed. Coping with a Disaster or Traumatic Event Mental Health Sleep and Sleep Disorders Stress at Work Tips for Coping with Stress

Get check-ups.

Ask your doctor or nurse how you can lower your chances for health problems based on your lifestyle and personal and family health histories. Find out what exams, tests, and shots you need and when to get them. See your doctor or nurse as often as he or she says to do so. See him or her sooner if you feel sick, have pain, notice changes, or have problems with medicine. Content Source: CDC Office of Women's Health Page last modified: March 15, 2011  Page last reviewed: March 15, 2011

DENGUE AND DENGUE HAEMORRHAGIC FEVER

Definition

• Dengue is a mosquito-borne infection that causes a severe flu-like illness, and sometimes a potentially lethal complication called dengue haemorrhagic fever.
• Global incidence of dengue has grown dramatically in recent decades.
• About two fifths of the world's population are now at risk.
• Dengue is found in tropical and sub-tropical climates worldwide, mostly in urban and semi-urban areas.
• Dengue haemorrhagic fever is a leading cause of serious illness and death among children in some Asian countries.
• There is no specific treatment for dengue, but appropriate medical care frequently saves the lives of patients with the more serious dengue haemorrhagic fever.
• The only way to prevent dengue virus transmission is to combat the disease-carrying mosquitoes.

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Dengue is a mosquito-borne infection that in recent decades has become a major international public health concern. Dengue is found in tropical and sub-tropical regions around the world, predominantly in urban and semi-urban areas.

Dengue haemorrhagic fever (DHF), a potentially lethal complication, was first recognized in the 1950s during dengue epidemics in the Philippines and Thailand. Today DHF affects most Asian countries and has become a leading cause of hospitalization and death among children in the region.

There are four distinct, but closely related, viruses that cause dengue. Recovery from infection by one provides lifelong immunity against that virus but confers only partial and transient protection against subsequent infection by the other three viruses. There is good evidence that sequential infection increases the risk of developing DHF.

Global burden of dengue

The incidence of dengue has grown dramatically around the world in recent decades. Some 2.5 billion people – two fifths of the world's population – are now at risk from dengue. WHO currently estimates there may be 50 million dengue infections worldwide every year.

In 2007 alone, there were more than 890 000 reported cases of dengue in the Americas, of which 26 000 cases were DHF.

The disease is now endemic in more than 100 countries in Africa, the Americas, the Eastern Mediterranean, South-east Asia and the Western Pacific. South-east Asia and the Western Pacific are the most seriously affected. Before 1970 only nine countries had experienced DHF epidemics, a number that had increased more than four-fold by 1995.

Not only is the number of cases increasing as the disease is spreading to new areas, but explosive outbreaks are occurring. In 2007, Venezuela reported over 80 000 cases, including more than 6 000 cases of DHF.

Some other statistics:

• During epidemics of dengue, infection rates among those who have not been previously exposed to the virus are often 40% to 50%, but can reach 80% to 90%.
• An estimated 500 000 people with DHF require hospitalization each year, a very large proportion of whom are children. About 2.5% of those affected die.
• Without proper treatment, DHF fatality rates can exceed 20%. Wider access to medical care from health providers with knowledge about DHF - physicians and nurses who recognize its symptoms and know how to treat its effects - can reduce death rates to less than 1%.

The spread of dengue is attributed to expanding geographic distribution of the four dengue viruses and their mosquito vectors, the most important of which is the predominantly urban species Aedes aegypti. A rapid rise in urban mosquito populations is bringing ever greater numbers of people into contact with this vector, especially in areas that are favourable for mosquito breeding, e.g. where household water storage is common and where solid waste disposal services are inadequate.

• DengueNet: WHO surveillance

Transmission

WHO/TDR/Stammers

Dengue viruses are transmitted to humans through the bites of infective female Aedesmosquitoes. Mosquitoes generally acquire the virus while feeding on the blood of an infected person. After virus incubation for eight to 10 days, an infected mosquito is capable, during probing and blood feeding, of transmitting the virus for the rest of its life. Infected female mosquitoes may also transmit the virus to their offspring by transovarial (via the eggs) transmission, but the role of this in sustaining transmission of the virus to humans has not yet been defined.

Infected humans are the main carriers and multipliers of the virus, serving as a source of the virus for uninfected mosquitoes. The virus circulates in the blood of infected humans for two to seven days, at approximately the same time that they have a fever; Aedes mosquitoes may acquire the virus when they feed on an individual during this period. Some studies have shown that monkeys in some parts of the world play a similar role in transmission.

Characteristics

Dengue fever is a severe, flu-like illness that affects infants, young children and adults, but seldom causes death.

The clinical features of dengue fever vary according to the age of the patient. Infants and young children may have a fever with rash. Older children and adults may have either a mild fever or the classical incapacitating disease with abrupt onset and high fever, severe headache, pain behind the eyes, muscle and joint pains, and rash.

Dengue haemorrhagic fever (DHF) is a potentially deadly complication that is characterized by high fever, often with enlargement of the liver, and in severe cases circulatory failure. The illness often begins with a sudden rise in temperature accompanied by facial flush and other flu-like symptoms. The fever usually continues for two to seven days and can be as high as 41°C, possibly with convulsions and other complications.

In moderate DHF cases, all signs and symptoms abate after the fever subsides. In severe cases, the patient's condition may suddenly deteriorate after a few days of fever; the temperature drops, followed by signs of circulatory failure, and the patient may rapidly go into a critical state of shock and die within 12 to 24 hours, or quickly recover following appropriate medical treatment (see below).

Treatment

There is no specific treatment for dengue fever.

For DHF, medical care by physicians and nurses experienced with the effects and progression of the complicating haemorrhagic fever can frequently save lives - decreasing mortality rates from more than 20% to less than 1%. Maintenance of the patient's circulating fluid volume is the central feature of DHF care.

Immunization

There is no vaccine to protect against dengue. Although progress is underway, developing a vaccine against the disease - in either its mild or severe form - is challenging.

• With four closely related viruses that can cause the disease, the vaccine must immunize against all four types to be effective.
• There is limited understanding of how the disease typically behaves and how the virus interacts with the immune system.
• There is a lack of laboratory animal models available to test immune responses to potential vaccines.

Despite these challenges, two vaccine candidates have advanced to evaluation in human subjects in countries with endemic disease, and several potential vaccines are in earlier stages of development. WHO provides technical advice and guidance to countries and private partners to support vaccine research and evaluation.

• More on vaccine research

Prevention and control

At present, the only method of controlling or preventing dengue virus transmission is to combat the vector mosquitoes.

In Asia and the Americas, Aedes aegypti breeds primarily in man-made containers like earthenware jars, metal drums and concrete cisterns used for domestic water storage, as well as discarded plastic food containers, used automobile tyres and other items that collect rainwater. In Africa the mosquito also breeds extensively in natural habitats such as tree holes, and leaves that gather to form "cups" and catch water.

WHO/TDR/Crump

In recent years, Aedes albopictus, a secondary dengue vector in Asia, has become established in the United States, several Latin American and Caribbean countries, parts of Europe and Africa. The rapid geographic spread of this species is largely attributed to the international trade in used tyres, a breeding habitat.

Vector control is implemented using environmental management and chemical methods. Proper solid waste disposal and improved water storage practices, including covering containers to prevent access by egg-laying female mosquitoes are among methods that are encouraged through community-based programmes.

The application of appropriate insecticides to larval habitats, particularly those that are useful in households, e.g. water storage vessels, prevents mosquito breeding for several weeks but must be re-applied periodically. Small, mosquito-eating fish and copepods (tiny crustaceans) have also been used with some success.

During outbreaks, emergency vector control measures can also include broad application of insecticides as space sprays using portable or truck-mounted machines or even aircraft. However, the mosquito-killing effect is transient, variable in its effectiveness because the aerosol droplets may not penetrate indoors to microhabitats where adult mosquitoes are sequestered, and the procedure is costly and operationally difficult. Regular monitoring of the vectors' susceptibility to widely used insecticides is necessary to ensure the appropriate choice of chemicals. Active monitoring and surveillance of the natural mosquito population should accompany control efforts to determine programme effectiveness.

Fact sheet N°117
March 2009