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Non-communicable diseases

Diseases that cannot be passed from one individual to another by an infectious agent, for example heart disease, most cancers.

Digestive system

The organ system in the body which breaks down large insoluble food molecules into small soluble molecules which can be used by the body

Red blood cells

Carry oxygen in the blood. They are also known as erythrocytes.


Organism that feeds off another living host and causes it some damage. An example of a parasite is a tapeworm that lives in the digestive system of a host organism.


Protozoa are one-celled animals


Medicine that contains a dead or weakened pathogen. It stimulates the immune system so that the vaccinated person has an immunity against that particular disease.


Breaking open


A large organ in the upper abdomen which manufactures, stores and breaks down substances as required by the body


A common term for the digestive system.

Protista and other parasites

The protista

The protista consist of unicellular eukaryotic organisms which have a variety of methods of nutrition and reproduction. These single celled organisms come in an enormous range of shapes and lifestyles: from amoeba to diatoms, including plant-like cells that swim, animal-like cells that cannot move, cells that are shaped like bells or fans or shells - some may even be grouped into colonies. Within the protista are organisms which make up the greater part of the plankton of the oceans, and a few which cause some of the most serious diseases to affect the human race. In some ways the kingdom of the protista contains all the organisms which scientists are not able to classify into one of the other kingdoms.

Diatoms Amoeba

(Photo credit: Jubai Harshaw)

(Photo credit: Wellcome Trust/Spike Walker)

Protozoa and disease

The protozoa are one group of the protista and it is largely members of the protozoa that cause human diseases. They all act as parasites, and many of them involve other species for part of their life cycle, which is how they move from host to host. Human diseases caused by protozoa include:

  • Amoebic dysentery – caused by Entamoeba histolytica
  • Sleeping sickness – caused by various Trypanosoma
  • Malaria – caused by Plasmodium vivax

Malaria: a case study

Malaria is a disease which affects hundreds of millions of people world-wide and kills up to a million people each year, many of them are children under 5 years old. The main economic impact is that many young adults are affected and weakened by this disease. They cannot work effectively and this in turn has an impact on the economy of the individuals and the country.

The lifecycle of the malaria parasite involves two hosts, the Anopheles mosquito and people. The stages of the lifecycle which occur within the human body involve the lysis of large numbers of red blood cells and the associated disease symptoms of fevers, sweating, shaking with long-term weakness, anaemia and eventually death. The disease can be treated and prevented, although neither method is perfect. Controlling the mosquitoes that carry malaria and preventing them from biting people are the best ways of overcoming the disease. Simple measures such as using insecticide-impregnated mosquito nets have been successful at reducing the number of people affected by malaria in many countries.

There have been many attempts to find an effective vaccine, but up until now this has not been successful, partly because the protozoans hide inside the host cells. In 2015 the first human vaccine against malaria was launched. Scientists hope it will provide some protection for babies and small children and reduce deaths from the disease.

Protozoan life cycle Malaria parasite

The protozoan that causes malaria has a complex life cycle with time spent inside female Anopheles mosquitos and human beings. It causes disease and death in millions of people each year (photo credit: Tony Toey).

More parasites

Not all of the parasites that cause disease in humans are microscopic. In many countries, parasitic worms cause a significant burden of disease. Worms are important animals – they play a major role in decomposition and the maintenance of healthy soil. However some types of worm can cause serious human diseases. Many of them damage the gut or other organs of the body, and they also take their food from the digestive system or body of their host. For example:

  • Nematodes (roundworms) cause diseases such as lymphatic filariasis (elephantiasis) and onchoceriasis (river blindness) which affects 26 million people.
    Lymphatic filariasis

    Globally, around 120 million people are affected by lymphatic filariasis
    (Photo credit CDC)

  • Trematode worms or flukes are all parasitic. They cause a variety of different diseases in humans, livestock and pets. For example, Schistosoma is a blood fluke that causes bilharzia.
  • The cestoda or tapeworms are also all parasites. They affect the gut but can also affect the liver, brain and other body organs.

Parasitic worms have adaptations that protect them against attack by the body of the host – the tapeworm is a very good example of this, with many adaptations on the head for attachment to the host, and a reproductive system that does not depend on mating so a constant supply of eggs are shed from the body of the host.

Tapeworm Tapeworm diagram

Photo of tapeworm
(Photo credit: CDC)

Tapeworms are well adapted to life inside the human gut, where they can cause many different health problems.

Global causes of disease

Bacteria, viruses, fungi, protista and other parasites all cause communicable diseases. Around 40% of deaths globally result from these communicable diseases – the other 60% are caused by non-communicable diseases such as heart disease, cancers and malnutrition.

Impact of pathogens on incidence of disease

This data shows the impact of different types of pathogens on the incidence of disease. Fungi do not appear as their direct impact is so small.


Investigate one of the major parasitic diseases that affect people globally and compare it to a common bacterial disease. Using the information you collect prepare a poster to argue the case for more research into effective treatments for the parasitic disease you have chosen, highlighting the problems as well as the possibilities of treatment regimes.