Toxoplasma gondii is an apicomplexan parasite with zoonotic importance worldwide especially in pregnant women and immunocompromised people. There is limited information on the distribution of T. gondii in animals and humans in southern African countries. The overall pooled prevalence is estimated as 17%.
Toxoplasma gondii is a coccidian cosmopolitan parasite of global economic and zoonotic importance. The importance of T. gondii in the meat industry and public health has been reported in a wide variety of hosts and humans, especially among immunocompromised individuals. There is limited information on the distribution of T. gondii in animals and humans in southern African countries. The overall pooled prevalence is estimated as 17%.
The overall pooled prevalence of T. gondii infection 29% (95% CI: 7–54%) in domestic felids observed is lower than the pooled seroprevalence of 51% (20–81%) reported in Africa, 52% (15–89%) in Australia [10], and 30–40% global prevalence from previous studies [28][29]. However, the pooled prevalence of T. gondii infections observed in wild felids 79% (95% CI: 60–94%) is higher than the pooled prevalence reported in Africa, Asia, Europe, and South America [10], while in north African countries, no data were available on wild felids [30]. The role of felids (domestic and wild) in T. gondii epidemiology has been documented in several reports [10][31][32]. SIn this review, seven (7) studies were on wild felids, while five (5) studies were on domestic cats. A single infected felid is capable of shedding millions of oocysts for 10–15 days, thereby contaminating the environment and posing infection risk to various intermediate hosts [32]. Emphasis on the adequate veterinary care of animals, including frequent treatment of cats for toxoplasmosis and reduction in the population of stray cats in the environment, should be encouraged in southern African countries. Moreover, a surveillance system for Toxoplasma infection should be instituted at the wildlife-livestock interface areas in the region.
Limited studies exist on T. gondii infection in canids (domestic and wild), with an overall pooled prevalence of 69% (95% CI: 38–96%). This result is higher than the prevalence of 51.2.% reported in wild canids by Dubey et al. [33] and the global prevalence of 39.6% reported in foxes [34]. The studies in cattle were few and only done in South Africa and gave an overall pooled prevalence of 20% (95% CI: 5–39%), which is higher than the pooled prevalence of 16.3% (10.6–23.0%) from West Africa [35] and 12% (CI 8–17%) in the entire continent of Africa [1]. The estimated prevalence is, however, lower than the reported seroprevalence from Brazil and Sudan [36][37]. Studies have identified the consumption of raw or undercooked beef as a possible risk of toxoplasmosis transmission in humans [38][39].
Similarly, there is evidence of T. gondii infection in small ruminants (sheep and goats) [39], and the pooled prevalence of 11% (95% CI: 0–31%) recorded is lower than that of 29.1% (15.6–44.8) in sheep and 18.1% (4.0–38%) in goats in West Africa [35] and sheep 26.1% (95% CI: 17.0–37.0%) and goats 22.9% (95% CI: 12.3–36.0%) in Africa [1]. Among livestock species, sheep constitutes an important source of animal protein as well as meat and milk from goats [40], whereas consumption of rare lamb and drinking of unpasteurized milk has been identified as risk factors in acute toxoplasmosis transmission in humans [39][41][42][43].
Studies reporting the seroprevalence of T. gondii in pigs in southern Africa emanated from South Africa and Zimbabwe, with an overall pooled prevalence of 13% (95% CI: 1–29%). This is similar to the prevalence reported in pigs from Europe [44] but lower than the prevalence reported in pigs from North America, South America, Asia [44], West Africa [35], Africa [1], and globally [42]. Pigs are among the popular food animals and have been reported as a source of human toxoplasmosis through ingestion of raw or undercooked pork [45]. Toxoplasma gondii infections in pigs are either acquired prenatally via transplacental transmission or postnatally via ingestion of oocysts from a contaminated environment [1]. Hence, indoor rearing of pigs is important to reduce the exposure of pigs to T. gondii infections from the contaminated environment [1][46][47].
The overall pooled prevalence of 22% (95% CI: 0–84%) of T. gondii seroprevalence from chickens and birds in southern African countries is lower than the estimated prevalence of anti-T. gondii antibody 22% (95% CI: 0–84%) reported in chickens in West Africa [35] and 37.41% (95% CI: 29.20–46.00%) from chickens in Africa [1]. Chicken meat is a key contributor to animal protein due to affordability and availability [48]; however, it also plays a major role in human toxoplasmosis transmission when the meat is consumed raw or undercooked [1]. The free-range chickens ingest T. gondii oocysts from the contaminated environment while foraging, thus acting as zoonotic agents of human toxoplasmosis. The role of birds, especially the birds of prey, in maintaining transmission between the sylvatic cycle and domestic cycle has also been documented [49].
The pooled seroprevalence of anti-T. gondii antibody from humans came from studies that focused mainly on immunocompetent individuals, HIV+ patients, and pregnant women [8][50][51][52][53][54] as well as a few studies on blood donors and children [55][56]. Overall, the pooled prevalence of 14% (95% CI: 5–25%) of T. gondii infection in humans from southern African countries was lower than the seroprevalence reported from a meta-analysis conducted on pregnant women in African regions, American regions, eastern Mediterranean regions, Europe, the South-East Asia region, globally [57], and in some North African countries (Tunisia, Egypt, and Morocco) [30]. However, this prevalence is greater than the seroprevalence reported from Western pacific region and the World Health Organization (WHO) regions of the world, 1.1% (0.8–1.4) [57]. Humans acquire T. gondii infections either through ingestion of oocysts from the contaminated environment [58][59], via tissue bradyzoites from consumption of raw or undercooked infected meat, transplacental transmission from mother to fetus [60][61], or organ transplants or blood transfusion [11][62]. Infections in immunocompetent individuals are not associated with critical symptoms compared to the immunosuppressed, particularly AIDS patients or newborns. Congenital transmission often results in clinical manifestations, such as encephalitis, pneumonia, and ophthalmologic disorders [1][30].