The Need for a Better Understanding of the Transmission of Cryptosporidium in Urban Areas

Rapid Communication

Hancke D and Suárez OV. The Need for a Better Understanding of the Transmission of Cryptosporidium in Urban Areas. Austin Trop Med Care. 2019; 2(1): 1002.

The Need for a Better Understanding of the Transmission of Cryptosporidium in Urban Areas

Hancke D* and Suárez OV

Laboratorio de Ecología de Roedores Urbanos, Departamento de Ecología, Genética y Evolución, IEGEBA (CONICET-UBA), Facultad de Ciencias Exactas y Naturales, Universidad de Buenos Aires, Intendente Güiraldes, Ciudad Universitaria, Buenos Aires, Argentina

*Corresponding author: Diego Hancke, Laboratorio de Ecología de Roedores, Departamento de Ecología, Genética y Evolución, Facultad de Ciencias Exactas y Naturales, Universidad de Buenos Aires, Avenida Intendente Cantilo s/n, Ciudad Universitaria, Buenos Aires, Argentina; Email: diegohancke@ege.fcen.uba.ar

Received: October 10, 2019; Accepted: November 28, 2019; Published: December 05, 2019

Rapid Communication

Cryptosporidium is an intracellular protozoan parasite that infects the small intestine causing damage to the intestinal epithelium and disrupts absorption and barrier function, leading to mild-to-severe diarrhea [1]. Cryptosporidium has a worldwide distribution infecting humans and animals but in low and middle income countries, cryptosporidiosis is much more prevalent [2]. However, the burden of this parasitosis is underrated. According to Khalil et al (2018), Cryptosporidium infection was the fifth leading cause of diarrheal mortality in children younger than 5 years in 2016 and the estimation of the burden of Cryptosporidium is 2.5 times higher than previously reported by accounting childhood health beyond acute illness by decreasing growth. In addition, the co-infection of Cryptosporidium with other intestinal pathogens and respiratory cryptosporidiosis are other neglected topics [3]. There is currently no vaccine available, and the only approved treatment, the drug nitazoxanide, is not highly effective in immunocompromised individuals [4].

Characteristics of the biology of Cryptosporidium such as lifecycle completion within an individual host, zoonotic transmission, prolonged survival in environments, high probability of infection at low doses coupled with high excretion rate, substantial transmission through water and resistance to traditional water treatment technique are determinant to understand how environmental and social factors interact favoring the transmission of this parasite [5]. Among the factors that affect the incidence of Cryptosporidium, low socioeconomic status, crowded living conditions, presence of animals (pigs, cats, dogs, rodents, etc.), food storage, non-potable water consumption and rainy season are mentioned [2,6]. A model-based inventory of Cryptosporodium emissions to surface water developed by Hofstra et al [7] proposed large cities in China, India and Latin America, principally, as hot-spot areas. The authors suggested a more in-depth research attention regarding oocyst inactivation, specification for different genotypes, human and livestock emissions, the role of wildlife, wastewater treatment efficiency and runoff fraction for a better understanding of the causes of Cryptosporidium- related health problems.

Cities represent artificial ecosystems that are in constant transformation. According to reports from United Nations (UN), more than half of the world’s population lives in urban areas and the higher urbanization rates take place in less developed regions [8]. Uncontrolled urban growth result in large health inequities and several rural pathogens have adapted to urban environments [9]. The most problematic areas with regards to safe disposal of human faeces, and thus to Cryptosporidium emission to the environment, are likely to be urban slums [10]. Studies conducted in urban slums worldwide have shown that the main responsible of cryptosporidiosis cases were C. hominis and the IIc subtype of C. parvum, revealing that anthroponotic transmission dominate in this type of informal settlements [11–14]. These results are in concordance with a recent review performed by King et al demonstrating that anthroponotic transmission of Cryptosporidium predominates primarily in lowerincome countries with poor sanitation, highlighting that the need of improving sanitation provision may be the most important intervention to reduce the burden of the disease [15]. However, zoonotic transmission should not be neglected, since zoonotic species and genotypes of Cryptosporidium (C. parvum (not IIc), C. felis, C. meleagridis, C. muris, C. canis) were detected in human stool samples [11,14,16] and urban raw water samples [17,18]. Additionally, different genotypes of Cryptosporidium were detected in rats, dogs and cats, suggesting that urban pest and pet animals could be reservoirs for human cryptosporidiosis and potential sources of urban water contamination [19–22]. But studies involving a holistic approach considering the environment, animal reservoirs and human being in the transmission of Cryptosporidium in urban ecosystems are still lacking (Figure 1).

Citation: Hancke D and Suárez OV. The Need for a Better Understanding of the Transmission of Cryptosporidium in Urban Areas. Austin Trop Med Care. 2019; 2(1): 1002.