Malaria disease about full details - News express        
Friday, September 25

Malaria disease about full details

Malaria disease is a life-threatening mosquito-borne blood disease.

Malaria disease the Anopheles mosquito transmits it to humans

The parasites in mosquitos that spread malaria disease belong to the Plasmodium genus. Over 100  types of Plasmodium parasite can infect a variety of species. Different types replicate at different rates, changing how quickly the symptoms escalate, and the severity of the disease.

Five types of Plasmodium parasite can infect humans. These occur in different parts of the world. Some cause a more severe type of malaria than others.

Once an infected mosquito bites a human, the parasites multiply in the host’s liver before infecting and destroying red blood cells.

In some places, early diagnosis can help treat and control malaria. However, some countries lack the resources to carry out effective screening.

Currently, no vaccine is available for use in the United States, although one vaccine has a license in Europe.

In the early 1950s, advances in treatment eliminated malaria from the U.S. However, between 1,500 to 2000 cases still occur each year, mostly in those who have recently traveled to malaria-endemic areas.

Symptoms

Doctors divide malaria symptoms into two categories :

Uncomplicated and severe malaria.

A doctor would give this diagnosis when symptoms are present, but no symptoms occur that suggest severe infection or dysfunction of the vital organs.

This form can become severe malaria without treatment, or if the host has poor or no immunity.

Symptoms of uncomplicated malaria typically last 6 to 10 hours and recur every second day.

Some strains of the parasite can have a longer cycle or cause mixed symptoms.

As symptoms resemble those of flu, they may remain undiagnosed or misdiagnosed in areas where malaria is less common.

In uncomplicated malaria, symptoms progress as follows, through cold, hot, and sweating stages:

a sensation of cold with shivering

Fever , headache, and vomiting

seizures sometimes occur in younger people with the disease

sweats, followed by a return to normal temperature, with tiredness

In areas where malaria is common, many people recognize the symptoms as malaria and treat themselves without visiting a doctor.

Severe malaria

In severe malaria, clinical or laboratory evidence shows signs of vital organ dysfunction.

Symptoms of severe malaria include:

fever and chills

impaired consciousness

prostration, or adopting a prone position

multiple convulsions

deep breathing and respiratory distress

abnormal bleeding and signs of anemia

clinical jaundice and evidence of vital organ dysfunction

Severe malaria can be fatal without treatment.

Treatment

Treatment aims to eliminate the Plasmodium parasite from the bloodstream.

Those without symptoms may be treated for infection to reduce the risk of disease transmission in the surrounding population.

The World Health Organization (WHO) recommends artemisinin-based combination therapy (ACT) to treat uncomplicated malaria.

Artemisinin is derived from the plant Artemisia annua, better known as sweet wormwood. It rapidly reduces the concentration of Plasmodium parasites in the bloodstream.

Practitioners often combine ACT with a partner drug. ACT aims to reduce the number of parasites within the first 3 days of infection, while the partner drugs eliminate the rest.

Expanding access to ACT treatment worldwide has helped reduce the impact of malaria, but the disease is becoming increasingly resistant to the effects of ACT.

In places where malaria is resistant to ACT, treatment must contain an effective partner drug.

The WHO has warned that no alternatives to artemisinin are likely to become available for several years.

Prevention

There are several ways to keep malaria at bay.

Vaccination

Research to develop safe and effective global vaccines for malaria is ongoing, with the licensing of one vaccine already having occurred in Europe. No vaccine is yet licensed in the U.S.

Seek medical attention for suspected symptoms of malaria as early as possible.

Advice for travelers

While malaria is not endemic to the U.S., travel to many countries around the world entails a risk.

The Centers for Disease Control advise travelers to take the following causation:

find out what the risk of malaria is in the country and city or region they are visiting

ask their doctor what medications they should use to prevent infection in that region

obtain antimalarial drugs before leaving home, to avoid the risk of buying counterfeit drugs while abroad

consider the risk for individual travelers, including children, older people, pregnant women, and the existing medical conditions of any travelers

ensure they will have access to preventative tools, many of which are available to purchase online, including insect repellents, insecticides, pre – treated red nets, and appropriate clothing

be aware of the symptoms of malaria

In emergency situations, local health authorities in some countries may carry out”fogging,” or spraying areas with pesticides similar to those used in household sprays.

The WHO points out that these are not harmful for people, as the concentration of pesticide is only strong enough to kills mosquitoes.

While away, travelers should, where possible, avoid situations that increase the risk of being bitten by mosquitoes. Precautions include taking an air-conditioned room, not camping by stagnant water, and wearing clothes that cover the body at times when mosquitoes are most likely to be around.

For a year after returning home, the traveler may be susceptible to symptoms of malaria. Donating blood may also not be possible for some time.

Causes

Malaria happens when a bite from the female Anopheles mosquito infects the body with Plasmodium. Only the Anophelesmosquito can transmit malaria.

The successful development of the parasite within the mosquito depends on several factors, the most important being humidity and ambient temperatures.

When an infected mosquito bites a human host, the parasite enters the bloodstream and lays dormant within the liver.

The host will have no symptoms for an average of 10.5 days, but the malaria parasite will begin multiplying during this time.

The liver then releases these new malaria parasites back into the bloodstream, where they infect red blood cells and multiply further. Some malaria parasites remain in the liver and do not circulate til later, resulting in recurrence.

An unaffected mosquito acquires parasites once it feeds on a human with malaria. This restarts the cycle.

Mosquito transmission cycle

Uninfected mosquito. A mosquito becomes infected by feeding on a person who has malaria.

Transmission of parasite. If this mosquito bites you in the future, it can transmit malaria parasites to you.

In the liver. Once the parasites enter your body, they travel to your liver — where some types can lie dormant for as long as a year.

Into the bloodstream. When the parasites mature, they leave the liver and infect your red blood cells. This is when people typically develop malaria symptoms.

On to the next person. If an uninfected mosquito bites you at this point in the cycle, it will become infected with your malaria parasites and can spread them to the other people it bites.

Other modes of transmission

Because the parasites that cause malaria affect red blood cells, people can also catch malaria from exposure to infected blood, including:

From mother to unborn child

Through blood transfusions

By sharing needles used to inject drugs

Diagnosis

Early diagnosis is critical for recovery from malaria.

Anyone showing signs of malaria should seek testing and treatment immediately.

The WHO strongly advise confirmation of the parasite through microscopic laboratory testing or by a rapid diagnostic test (RDT), depending on the facilities available.

No combination of symptoms can reliably distinguish malaria from other causes, so a parasitological test is vital for identifying and managing the disease.

In some malaria-endemic areas, such as sub-Saharan Africa, the disease’s severity can cause mild immunity in a large proportion of the local population.

As a result, some people carry the parasites in their bloodstream but do not fall ill.

To diagnose malaria, your doctor will likely review your medical history, conduct a physical exam and order blood tests. Blood tests are the only way to confirm a malaria diagnosis. Certain blood tests can help your doctor by showing:

The presence of the parasite in the blood, to confirm that you have malaria

Which type of malaria parasite is causing your symptoms

If your infection is caused by a parasite resistant to certain drugs

Other blood tests help determine whether the disease is causing any serious complications.

Some blood tests can take several days to complete, while others can produce results in less than 15 minutes.

Treatment

Malaria is treated with prescription drugs to kill the parasite. The types of drugs and the length of treatment will vary, depending on:

Which type of malaria parasite you have

The severity of your symptoms

Your age

Whether you’re pregnant

Medication

The most common antimalarial drugs include:

Artemisinin-based combination therapies (ACTs). ACTs are, in many cases, the first line treatment for malaria. There are several different types of ACTs. Examples include artemether-lumefantrine (Coartem) and artesunate-amodiaquine. Each ACT is a combination of two or more drugs that work against the malaria parasite in different ways.

Chloroquine phosphate. Chloroquine is the preferred treatment for any parasite that is sensitive to the drug. But in many parts of the world, the parasites that cause malaria are resistant to chloroquine, and the drug is no longer an effective treatment.

Other common antimalarial drugs include:

Combination of atovaquone and proguanil (Malarone)

Quinine sulfate (Qualaquin) with doxycycline (Vibramycin, Monodox, others)

Mefloquine

Primaquine phosphate

Possible future treatments

New antimalarial drugs are being researched and developed. Malaria treatment is marked by a constant struggle between evolving drug-resistant parasites and the search for new drug formulations. For example, one variety of the malaria parasite has demonstrated resistance to nearly all of the available antimalarial drugs.

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