Symptoms of Malaria

by

QUESTION

What are the main symptoms of malaria?

ANSWER

Malaria can have many different symptoms, but the initial signs are similar to a flu-like illness, with high fever, chills, headache and muscle soreness or aches. A characteristic sign of malaria is cyclical fever, with peaks of severity every two or three days. Additionally, some people will experience nausea, coughing, vomiting and/or diarrhea.

Because these symptoms are quite generic of a wide variety of illnesses, if you live in a malaria-endemic region, it is crucial to be tested when you develop such symptoms, rather than assuming it’s just the flu and soldiering on! If you have recently traveled to a malarial area and start to experience these signs of infection, similarly you should inform your doctor of your travel history, as otherwise they might not recognize your symptoms as potentially that of malaria.

If treated rapidly and with the correct medication, malaria is almost always completely treatable; it is only if treatment is delayed that it becomes more serious, with long-lasting and potentially fatal consequences. Similarly, if you take sensible precautions while living or traveling in malarial areas, such as taking prophylaxis (and taking them as per the instructions, for the full required amount of time!), avoiding being bitten by mosquitoes and sleeping under an insecticide-treated bed-net, you vastly reduce your chances of getting infected in the first place.

It’s also worth noting that different species of Plasmodium, the parasite that causes malaria, cause slightly different manifestations of the disease, and also require different forms of treatment. Plasmodium falciparum has a unique way of affecting the red blood cells it infects, which eventually can result in loss of function of internal organs. ‘Cerebral malaria’ is a particularly deadly version of this, whereby the function of the brain is affected. The cycles of fever, mentioned above, are caused by synchronous rupturing of the red blood cells in the body by the malaria parasite; P. falciparum, P. vivax and P. ovale, complete this cycle every 48 hours, resulting in fever cycles of roughly two days (though P. falciparum can be unpredictable); P. malariae, on the other hand, has a cycle lasting 72 hours, so three day cycles of fever are expected. Finally, although many types of malaria can be successfully treated with the drug chloroquine, some strains, and notably of P. falciparum, have become resistant to this treatment. In these cases, artemesinin-based treatment is recommended, usually in combination with other therapies (artemesinin-combination therapy, or ACT). P. vivax, in addition, requires an additional drug, called primaquine, which is used to treat lingering liver stages of the parasite, to prevent recurrence of the infection.

Examination of Malaria Parasite

by

QUESTION

How can you examine malaria parasites?

ANSWER

Malaria parasites are usually examined under a microscope using a peripheral blood smear method (also called a blood film). Thick blood smears, which use a large unsmeared drop of blood, are sensitive since a large number of red blood cells can be examined, though the parasites, if present, are difficult to distinguish morphologically.

For species-level identification of malaria parasites, a thin blood film is more commonly used, whereby a small volume of blood is smeared thinly across the slide and then stained, usually with Romanowsky stain, in order to see the detailed structures which differentiate the different species of malaria. It is crucial to make the blood films soon after the blood sample has been taken, and to store the blood in an appropriate anti-coagulate.

Characters to look out for include the presence of Maurer’s dots on the surface of red blood cells infected with Plasmodium falciparum. You may also see multi-infected red blood cells with this species, and it is rare to see mature trophozoites or schizonts with this parasite since when this stage is reached the red blood cells are usually sequestered deep within major organs and so are not readily present in the peripheral blood.

These parasites have crescent-shaped gametocytes. Plasmodium vivax, on the other hand, enlarges red blood cells that it infects and seems to show a preference for immature red blood cells. The presence of Schüffner’s dots is also characteristic – these looks like specks or granules on the cell surface of the infected red blood cell. P. ovale is very similar to P. vivax, in that it also enlarges the red blood cells and can have Schüffner’s dots, but fewer merozoites tend to be present per cell and infected red blood cells tend to look elongated. P. malariae does not alter the size or shape of the red blood cell it infects and tends to form rosette-like patterns of 8-10 merozoites. Later on in maturation, its trophozoites may form characteristic band-like patterns across the cell.

Schizont

by

QUESTION

What is a schizont?

ANSWER

A schizont is a malaria parasite which has matured and contains many merozoites, which are the parasite stage that infects red blood cells.

Schizonts can be produces during two separate phases of the life cycle within the human host: first in the hepatocytic cells in the liver (when sporozoites mature) during the exo-erythrocytic cycle and then within the red blood cells during the erythrocytic cycle (when trophozoites mature and divide).

When malaria parasites do not immediately mature into schizonts in the liver (as can be the case with Plasmodium vivax and P. ovale infections), the parasite instead becomes a hypnozoite, which can lay dormant in the liver for many weeks or even months (or, in rare case, years), and produce relapse of infection at a much later date.

Paludisme Depuis 5 Mois (Malaria for 5 Months)

by

QUESTION:

En fait je souffre d’un palu que le médécin a mal traité après une analyse sanguine. J’aimerais savoir comment faire pour m’en débarrasser car je traine ce palu maitenant depuis 5 mois.

ENGLISH TRANSLATION:

In fact I suffer from malaria which the doctor has treated poorly after a blood test. I would like to know how to clear myself of this because I have been carrying this malaria now for 5 months.

ANSWER:

C’est rare de souffre telle longtemps que 5 mois continuellement avec palu; plus commun c’est de observer plusieurs episodes d’infection en serie, si la traitement n’est-ce pas un succes. Mais tout ca depend un peu du type du palu. Vous devrez tenir un autre test sanguine pour determiner ce type du palu, de preference au hôpital ou dans un clinique de santé. Avec celle information, le médécin peut vous recommender un traitement approprié. Par example, si vous avez un infection de Plasmodium vivax ou P. ovale, le parasite peut rester en repos dans le foie pendant plusieurs semaines ou bien plusieurs mois. Des médicaments qui traitent l’infection dans le sang, comme chloroquine ou ACTs, ne touchent pas cette stages de vie dans le foie. Dans ce cas, vous devez parler avec votre médécin sur un autre médicament, qui s’appelle primaquine, qui tue a les parasites dans le foie et previent encore plus de rechutes.

ENGLISH TRANSLATION: It’s rare to suffer from malaria continuously for five months; it is more common to see multiple infections over and over in series, if the disease is not treated appropriately. But all of this depends on the type of malaria that you have. You need to have another blood test to determine the type of malaria, and based on this information, the doctor can give you appropriate treatment. For example, if you have Plasmodium vivax or P. ovale, the parasite can rest dormant in the liver for several weeks or even months. The drugs which treat the initial infection in the blood, such as chloroquine or ACTs, don’t affect these liver stages. In this case, you must talk to your doctor about taking another medication, called primaquine, which kills the liver stages of the malaria parasite and prevents further relapses of the disease.

Pathophysiology of Malaria

by

QUESTION

What is the pathophysiology of malaria?

ANSWER

Malaria causes disease through a number of pathways, which depend to a certain extent on the species. Malaria is caused by a single-celled parasite of the genus Plasmodium; there are five species which infect humans, being Plasmodium falciparum, P. vivax, P. ovale, P. malariae and P. knowlesi.

All these species are introduced into the human blood stream through the bite of an infected mosquito; the life stage of malaria at this point is called a “sporozoite”, and they pass first to the liver, where they undergo an initial stage of replication (called “exo-erythrocytic replication”), before passing back into the blood and invading red blood cells (called “erythrocytes”, hence this is the “erythrocytic” part of the cycle). The malaria parasites that invade red blood cells are known as merozoites, and within the cell they replicate again, bursting out once they have completed a set number of divisions. It is this periodic rupturing of the red blood cells that causes most of the symptoms associated with malaria, as the host’s immune system responds to the waste products produced by the malaria parasites and the debris from the destroyed red blood cells. Different species of malaria rupture the red blood cells at different intervals, which leads to the diagnostic cycles of fever which characterise malaria; P. vivax, for example, tends to produce cycles of fever every two days, whereas P. malaria produces fever every three.

In addition, Plasmodium falciparum produces unique pathological effects, due to its manipulation of the host’s physiology. When it infects red blood cells, it makes them stick to the walls of tiny blood vessels deep within major organs, such as the kidneys, lungs, heart and brain. This is called “sequestration”, and results in reduced blood flow to these organs, causing the severe clinical symptoms associated with this infection, such as cerebral malaria.

More details on the exact biochemical mechanisms for sequestration and its effect on the pathology of the infection can be found on the Tulane University website.

 

Does all malaria kill without treatment?

by

QUESTION:

Does all malaria kill without treatment?

ANSWER:

No. There are five main species of malaria which infect humans: Plasmodium falciparum, P. vivax, P. ovale, P. malariae and P. knowlesi. Of these, P. falciparum is the most deadly, and can often cause death if left untreated.

The other four may also result in death, but more rarely, and usually only in high risk individuals, such as young children, pregnant women and people with weakened immune systems. Given the seriousness of the symptoms and the possibility of death in all cases, it is very important to seek medical advice if you suspect you have malaria. Once given accurate diagnosis of which type of malaria you have, you can be given appropriate treatment.

Treatment for Malaria

by

QUESTION:

What is the main medicine to cure malaria and about safety precautions?

ANSWER:

There are a number of medicines used to treat malaria. Traditionally, chloroquine has been the first line drug of choice for uncomplicated, non-resistant malaria. However, several types of malaria, and most notably Plasmodium falciparum, the most severe and deadly kind, has become resistant to chloroquine in many places. In some parts of south-east Asia, Plasmodium vivax has also begun to show worrying signs of chloroquine resistance. In such settings, where resistance to chloroquine is suspected, the first line medications for uncomplicated cases are artemisinin-based combination therapies (ACTs), such as Coartem.

The World Health Organization has recommended that artemisinin only be given in combination with another drug to prevent malaria also becoming resistant to this therapy as well. Cases of malaria which have progressed beyond the grasp of that treatable with oral medication as described above (so-called “complicated” cases, most common with P. falciparum infection) are usually given intravenous quinine as a first-line response.

All of these treatments have been rigorously tested in strictly controlled clinical and field trials, and while they may have side effects, they are generally mild and in most cases, the patient will be given the dose without prior testing for reaction to the drug. One exception is with primaquine, which is sometimes used as a preventative medication against malaria and can also be used to treat the liver stages of P. vivax and P. ovale. Primaquine is known to cause severe haemolysis in people with G6DP deficiency, and so people with a high statistical probability of having this condition (for example due to family history or ethnicity) should be tested prior to being given primaquine.

Drugs for Malaria

by

QUESTION

What drugs are used in the treatment of malaria?

ANSWER

There are a number of medicines used to treat malaria. Traditionally, chloroquine has been the first line drug of choice for uncomplicated, non-resistant malaria. However, several types of malaria, and most notably Plasmodium falciparum, the most severe and deadly kind, has become resistant to chloroquine in many places. In some parts of south-east Asia, Plasmodium vivax has also begun to show worrying signs of chloroquine resistance. In such settings, where resistance to chloroquine is suspected, the first line medications for uncomplicated cases are artemisinin-based combination therapies (ACTs), such as Coartem.

The World Health Organization has recommended that artemisinin only be given in combination with another drug to prevent malaria also becoming resistant to this therapy as well. Cases of malaria which have progressed beyond the grasp of that treatable with oral medication as described above (so-called “complicated” cases, most common with P. falciparum infection) are usually given intravenous quinine as a first-line response.

All of these treatments have been rigorously tested in strictly controlled clinical and field trials, and while they may have side effects, they are generally mild and in most cases, the patient will be given the dose without prior testing for reaction to the drug. One exception is with primaquine, which is sometimes used as a preventative medication against malaria and can also be used to treat the liver stages of P. vivax and P. ovale. Primaquine is known to cause severe haemolysis in people with G6DP deficiency, and so people with a high statistical probability of having this condition (for example due to family history or ethnicity) should be tested prior to being given primaquine.

 

I am getting malaria every 6 months

by

QUESTION:

I am getting malaria every six months, after taken chloroquine medicine tablets. Is this  normal,when my resistance is low, or is it coming aging, is there any medicine to clear the malaria?

ANSWER:

While taking chloroquine can be used to treat malaria, it will not prevent re-infection, unfortunately. One thing to check though is whether you are living in an area where the local types of malaria might be resistant to chloroquine; if so, it will be worth seeing if you can be treated with artemisinin-based combination therapies (ACTs), such as Coartem or Lonart, instead.

Again, these will not prevent re-infection, however, so you need to also take other preventative actions, such as sleeping under a long-lasting insecticide treated bednet and wearing long-sleeved clothing in the evenings and at night to prevent mosquito bites.

It sounds from your question like you live in an area where malaria is common; however, if you are actually only travelling to malarial areas regularly, you could also ask your doctor about the possibility of taking preventative medicine against malaria for the time that you are travelling (these are called “prophylactics”).

You should also check which species of malaria parasite you are infected with – this can be determined when you are diagnosed with the infection, either through looking at your blood under a microscope or by using a rapid diagnostic test (RDT). If you Plasmodium ovale or Plasmodium vivax, there is a possibility that even though the initial acute phase of the infection is responding to treatment with chloroquine, the parasite is remaining dormant in your liver, and causing the recurrences every 6 months. In this case, you should ask your doctor about the possibility of taking a drug called primaquine, which kills these liver stages and prevents further relapse of the disease.

BT and MT Malaria

by

QUESTION:

What is MT and BT malaria?

ANSWER:

“MT” stands for “malignant tertian” and “BT” stands for “benign tertian” malaria. Tertian malaria describes fever which occurs every other day, in cycles. Of the main types of human malaria, Plasmodium vivax and Plasmodium ovale are the most stereotypically tertian. P. falciparum can be tertian, but it is more erratic and due to its severity, can result in increased frequency of fever. “Malignant” and “benign” refers to the severity of the disease. Malignant malaria is severe and sometimes fatal, whereas benign malaria is less acute and rarely results in death.