Recommend
Official website Clean Forte

Life cycles of human and animal parasites: types and classification

Lifespan- this is the totality of all stages of development "from egg to egg", and in the absence of an egg, from any stage to the closest similar one. The main biological aspects of the life of any organism are adaptations that guarantee the preservation of the individual and the species.

In parasites (unlike free-living animals), nutrition is provided uninterruptedly and therefore the reproductive activity of the body increases. Increased reproduction of the parasite due to the spatial and temporal limitation of its habitat leads to rapid overpopulation of this location and the associated need for resettlement of the species for its conservation.

The totality of all stages of the ontogeny of the parasite and the routes of its transmission from one host to another is called the life cycle.

Forms of cycles

Having discovered that parasites are organisms that use other living beings for their development, it is important to understand what life development options exist. According to the classification, there are simple and complex cycles. The first occurs without a change of ownership. Examples include the development of roundworm, amoeba, whipworm, and so on. A complex group includes multiple hosts at the same time. These can be vertebrates, fish, shellfish and so on. One example is helminths.

The development cycle of whipworms does not require an intermediate host.

After entering the final host, the parasites grow and multiply. Depending on the type of pathogen, the larvae can remain inside or exit the body. In most cases, excretion occurs through the intestines. This allows you to determine the type of pathogen using simple tests.

Features of cyclical stages

Each stage of development has its own characteristics. Even the treatment is determined based on this factor alone. This is explained by the fact that, for example, not all drugs act on larvae, although it is much easier to get rid of mature parasites.

The intermediate and final carrier of the parasite depends on the type of helminthiasis.

In this regard, let's see how the development cycle proceeds:

  • Dispersal - this cycle exists when the intermediate host, which is the source but not the final stage, is considered the only option at the time, i. e. there is no potential final host. In such a situation, the intermediate host is used for further development and nutrition.
  • Active growth - having reached the most suitable conditions, the parasite stops, attaches itself if suitable devices are available and begins its growth to a sexually mature state.
  • Migration to another habitat - after a mature individual reproduces eggs, they in most cases migrate for further development. They can be distributed in different ways. Most often, parasites migrate through the digestive system with food mass. There are also those that, due to their size, easily penetrate the bloodstream and spread throughout the body.
  • Asexual reproduction - some types of parasites are distinguished by the fact that they do not need a second partner for reproduction. The most striking example is the tapeworm, in which each strobile has a uterus that reproduces mature eggs.
Parasite developmental life cycle

Important concepts

The first thing that should be highlighted when familiarizing yourself with parasites is the concept of "host". This is an organism in which the development and reproduction of parasites occurs. The "intermediate host" stands out separately. In this case, the pathogen remains inside the body until it has the opportunity to migrate to the more favorable environment, which is provided by the final host.

The cycle can occur with a change of 1 to 4 hosts. In this case, the first is intermediate and the others are additional. By direct contact or through an intermediate host, the parasites enter the final host. This is where sexual development and reproduction occurs.

The development of the parasite begins when it enters the final host.

There are also concepts such as reservoir and host-feeder parasitism. In the first case, we are talking about a situation in which the parasite, having reached suitable conditions, can remain unchanged for a long time, waiting for a more favorable settlement option.

Provider Owneris an organism used exclusively as food. The simplest option is pliers. By discovering how parasites of this type feed, it is possible to understand that they need human blood to exist, but they do not remain in or on the human body for a long period of time.

The concept of "parasite reservoir" or "reservoir host" is also distinguished. This is a host in whose body the pathogen can live for a long time, accumulating, multiplying and spreading throughout the environment.

Biology of parasites

The carriage of parasites is considered separately - in the case of pathogenic parasites that live in the human body, but the development of the disease does not occur. However, such a person poses a danger to other people.

The parasite and its host influence each other.

Harmful effects of the parasite on the host:

  1. Mechanic;
  2. Toxic;
  3. Food removal;
  4. Violation of tissue integrity.

Thus, the host's body "gives" a response to the influence of the parasite.

Infections caused by parasites can be divided according to the susceptibility of the pathogen to the host:

  1. Anthroponotic – the human being acts as a host;
  2. Zoonotic – several animals act as hosts;
  3. Anthropozoonotic diseases are invasive and infectious diseases common to humans and animals.

Medical parasitology includes 3 main sections:

  1. Protozoan parasites - protozoology.
  2. Parasitic worms, helminths - helminthology.
  3. Arthropods - arachnology.
Schistosoma is a parasite whose life cycle requires an intermediate host.

Life cycle stages

In most cases, protozoa have special stages adapted to carry out the transition phase from one host to another. These stages are called propagative.

In intestinal parasitespropagative stagesgenerally adapted to experience in the external environment. Most intestinal protozoa form cysts covered with a dense membrane. When cysts of various species (Entamoeba histolytica, E. coli, Lamblia intestinalis, etc. ) mature, several successive divisions of the nucleus occur.

After reaching an adultmultinucleated cystIn the new host, the cytoplasm divides to form several individuals. Cysts are generally supplied with nutrients, which are consumed during the maturation process and when the cyst remains in the external environment. The propagation stage of coccidia is a fertilized female germ cell covered by a membrane (ocyst).

Most parasitic protozoaVertebrate tissue and blood are transmitted from one host to another using a vector. The propagation stages, in this case, are located in the blood or external integument of the vertebrate. The causative agent of Chagas disease, Trypanosoma cruzi, multiplies in the leishmanial phase in the cells of internal organs. The leishmanial forms of the parasite transform into trypanosomes, which penetrate the bloodstream, but do not reproduce there.

Infection transmissionoccurs through a vector, a blood-sucking insect. The causative agent of Indian visceral leishmaniasis (kala-azar), Leishmama donovani, multiplies in histophagocytic cells in tissues that are inaccessible to the vector. However, at a late stage in the process, late leishmania - a lesion containing a large number of leishmania - can form on the patient's skin. In some cases, with this disease, leishmania is also found in the blood. The propagation stages of malaria parasites are gamonts that circulate in the host's bloodstream.

Along withpropagative stagesIn the life cycle of tissue parasites there are so-calledinvasive stages, adapted for penetration into a vertebrate host. Thus, the development of representatives of the genus Trypanosoma in the vector ends with the formation of metacyclic trypanosomes, which no longer reproduce in the vector and are adapted for development in a vertebrate host.

Schistosoma life cycle diagram

The invasive stages of malaria parasites are sporozoites.

Helminth groups

Each type of helminth develops only under certain conditions. Depending on the development conditions, parasitic worms are divided into two large groups:biohelminthsANDgeohelminths.

Biohelminths

ForbiohelminthsThese include parasites that develop with the participation of two or more organisms. In one organism live the adult forms of the worm, in the other - the larval stages.

An organism in which adult forms parasitize and sexual reproduction occurs is calledFinalowner (or definitive).

The organism in which the larval forms develop isintermediarythe owner. For example, the adult bovine tapeworm is a parasite of the human intestine and the development of its larvae occurs in the body of cattle.

Thus, for this tapeworm, man is the definitive host and cows are the intermediate host.

Biohelminths include most representatives of the flatworm type.

Geohelminths

Geohelminthsare those parasites that do not require a change of host during their development. Their eggs are excreted from the body along with feces into the external environment and, at a certain temperature and humidity, larvae develop in them.

This egg containing a larva becomes infectious. Once in the human body (in the intestines), the larvae break free from the egg shells, penetrate certain organs and grow to a sexually mature form. In some helminths, the larva is released from the egg into the external environment. This larva lives in water or soil, goes through certain stages of development and subsequently actively penetrates the body through the skin.