Parasitology. Alan Gunn. Читать онлайн. Newlib. NEWLIB.NET

Автор: Alan Gunn
Издательство: John Wiley & Sons Limited
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Жанр произведения: Медицина
Год издания: 0
isbn: 9781119641223
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containing infective sporozoites (Figure 3.13). In common with other members of the genus, each oocyst contains two sporocysts and each sporocyst contains four sporozoites. The sporozoites emerge in the small intestine and invade the epithelial cells where they transform into merozoites that divide to produce more merozoites that in turn divide in a cycle that repeats many times. This destroys the host cell and releases the parasites so that they can invade new host cells. In serious infections, this results in the loss of large areas of the gut lining and allows secondary invasion by gut microbes. Presumably, the parasites gain access to the circulation because tissue cysts develop in variety of organs distant from the gastrointestinal tract. For example, within the spleen, liver, and lymph nodes. Each cyst contains a single parasite (zoite) (i.e., they are monozoic) that resembles a typical coccidian sporozoite. The formation of tissue cysts usually occurs in immunocompromised patients but their role in pathology and relapses is uncertain. There is a suggestion that in pigs, the formation of tissue cysts by C. suis contributes to the maintenance of immunity to the parasite (Shrestha et al. 2015). Nowadays, few animals get the opportunity to eat humans, so the tissue cysts probably play no role in transmission of C. belli. The importance of tissue cysts in the transmission of other mammalian Cystoisospora species is uncertain.

Schematic illustration of life cycle of Isospora belli.

      At some point, the merozoites transform into multinucleate meronts and these give rise to microgametes (male) or macrogametes (female). Unless the microgametes and macrogametes occur within the same cell (which is possible), the microgametes leave their host cell to locate a macrogamete and their fusion results in the formation of a zygote that then develops into an oocyst. The death of the host cell releases the oocyst into the gut lumen and leaves the body with the faeces. The oocyst then undergoes sporulation to produce two sporocysts, each of which contains four sporozoites. Transmission is therefore passive by faecal–oral contamination. Environmental conditions probably heavily influence the time taken for sporulation. For example, in some Isospora species, temperatures below 20 °C inhibit sporulation, but it takes less than 16 hours at 30 °C. Nevertheless, transmission is probably through infected food or water rather than direct contact. For example, through not washing one’s hands after defaecation or by contacting an article touched by such a person. This is therefore distinct from Cryptosporidium parvum in which the oocysts are immediately infective after shedding.

      This genus currently contains 13 species that are parasitic in a range of vertebrates (e.g., snakes, rodents), but the most important is Cyclospora cayetanensis that only infects humans.

      3.5.4.1 Cyclospora cayetanensis

      First described in 1979, this is an emerging parasitic disease with a cosmopolitan distribution (Almeria et al. 2019). There are regular outbreaks in USA and Canada associated with the importation of fresh berries (Dixon et al. 2016). The life cycle begins with the ingestion of oocysts (8–10 μm diameter) containing infective sporozoites. Once the oocysts reach the duodenum and upper small intestine, they release the sporozoites and these invade the gut epithelial cells. They then transform into type I merozoites that then divide to form type II merozoites. The type II merozoites transform into meronts and these give rise to microgametocytes and macrogametocytes. Fusion of a microgametocyte with a macrogametocyte gives rise to zygote, and this develops into an oocyst that is shed with the faeces. The oocyst then undergoes sporulation to produce two sporocysts each containing two sporozoites. Sporulation takes 7–15 days depending upon the environmental conditions and therefore transmission probably occurs through contamination of food and water rather than direct person‐to‐person/contaminated object contact.

      The symptoms of infection are non‐specific and resemble those of many other gastrointestinal diseases. Patients suffer from abdominal pain, watery diarrhoea, flatulence, low‐grade fever, anorexia, and weight loss. In endemic regions, the symptoms tend to be worse in young children and in non‐endemic regions most people who become infected express symptoms. Persons who are immunosuppressed and AIDS patients are more seriously affected.

Species of Sarcocystis Synonym Intermediate host Definitive host
Sarcocystis bovicanis Sarcocystis cruzi Cattle Dogs and other canines
Sarcocystis bovihominis Sarcocystis hominis Cattle Humans
Sarcocystis bovifelis Sarcocystis hirsuta Cattle Cats and other felines
Sarcocystis Suihominis Isospora hominis Pigs Humans and some primates
Sarcocystis ovifelis Sarcocystis tenella Sheep Cats and other felines
Sarcocystis hovathi Sarcocystis gallinarum Chicken Dogs and other canines