In recent years Venezuela has faced a severe economic crisis precipitated by political instability and a significant reduction in oil revenue. Public health provision has suffered particularly. Long-term shortages of medicines and medical supplies and an exodus of trained personnel have occurred against the backdrop of a surge in vector-borne parasitic and arboviral infections. Herein, we aim to assess comprehensively the impact of Venezuela's healthcare crisis on vectorborne diseases and the spillover to neighbouring countries. Methods Alongside the ongoing challenges affecting the healthcare system, health-indicator statistics have become increasingly scarce. Official data from the Ministry of Health, for example, are no longer available. To provide and update on vector-borne disease in Venezuela, this study used individualized data from nongovernmental organizations, academic institutions and professional colleges, various local health authorities and epidemiological surveillance programs from neighbouring countries, as well as data available through international agencies. Findings Between 2000-2015 Venezuela witnessed a 365% increase malaria cases followed by a 68% increase (319,765 cases) in late 2017. Neighbouring countries such as Brazil have reported an escalating trend of imported cases from Venezuelan from 1,538 (2014) to 3,129 (2017). Active Chagas disease transmission is reported with seroprevalence in children (<10 years) as high as 12.5% in one community tested (N=64). There has been a nine-fold rise in the mean incidence of dengue between 1990 to 2016. Estimated rates of chikungunya and Zika are 6,975 and 2,057 cases per 100,000 population, respectively, during their epidemic peaks. Interpretation The re-emergence of many arthropod-borne endemic diseases has set in place an epidemic of unprecedented proportions, not only in Venezuela but in the region. Data presented here demonstrates the complex determinants of this situation. National, regional and global authorities must take action to address these worsening epidemics and prevent their expansion beyond Venezuelan borders.
Mansonellosis is a filarial disease caused by three species of filarial (nematode) parasites (Mansonella perstans, Mansonella streptocerca, and Mansonella ozzardi) that use humans as their main definitive hosts. These parasites are transmitted from person to person by bloodsucking females from two families of flies (Diptera). Biting midges (Ceratopogonidae) transmit all three species of Mansonella, but blackflies (Simuliidae) are also known to play a role in the transmission of M. ozzardi in parts of Latin America. M. perstans and M. streptocerca are endemic in western, eastern, and central Africa, and M. perstans is also present in the neotropical region from equatorial Brazil to the Caribbean coast. M. ozzardi has a patchy distribution in Latin America and the Caribbean. Mansonellosis infections are thought to have little pathogenicity and to be almost always asymptomatic, but occasionally causing itching, joint pains, enlarged lymph glands, and vague abdominal symptoms. In Brazil, M. ozzardi infections are also associated with corneal lesions. Diagnosis is usually performed by detecting microfilariae in peripheral blood or skin without any periodicity. There is no standard treatment at present for mansonellosis. The combination therapy of diethylcarbamazine plus mebendazole for M. perstans microfilaremia is presently one of the most widely used, but the use of ivermectin has also been proven to be very effective against microfilariae. Recently, doxycycline has shown excellent efficacy and safety when used as an antimicrobial against endosymbiotic Wolbachia bacteria harbored by some strains of M. perstans and M. ozzardi. Diethylcarbamazine and ivermectin have been used effectively to treat M. streptocerca infection. There are at present no estimates of the disease burden caused by mansonellosis, and thus its importance to many global health professionals and policy makers is presently limited to how it can interfere with diagnostic tools used in modern filarial disease control and elimination programs aimed at other species of filariae.
To assess the presence of the four main viruses responsible for human acute gastroenteritis in a hydrographic network impacted by a disordered urbanization process, a 1-year study was performed involving water sample collection from streams in the hydrographic basin surrounding the city of Manaus, Amazonas, Brazil. Thirteen surface water sample collection sites, including different areas of human settlement characterized as urban, rural, and primary forest, located in the Tarumã-Açu, São Raimundo, Educandos, and Puraquequara microbasins, were defined with a global positioning system. At least one virus was detected in 59.6% (31/52) of the water samples analyzed, and rotavirus was the most frequent (44.2%), followed by human adenovirus (30.8%), human astrovirus (15.4%), and norovirus (5.8%). The viral contamination observed mainly in the urban streams reflected the presence of a local high-density population and indicated the gastroenteritis burden from pathogenic viruses in the water, principally due to recreational activities such as bathing. The presence of viral genomes in areas where fecal contamination was not demonstrated by bacterial indicators suggests prolonged virus persistence in aquatic environments and emphasizes the enteric virus group as the most reliable for environmental monitoring.Although water is recognized as the most precious natural resource on our planet, human activities disregard this fact by continually polluting freshwater bodies. Increasing worldwide awareness of the poor quality of potable water has occurred mainly due to the significant increase in human morbidity and mortality. More than 2.2 million people die every year from diseases associated with poor quality water and sanitary conditions, mostly in developing countries. The presence of pathogenic enteric microorganisms in aquatic environments reveals how human health can be affected by contamination from sewage discharge into surface waters.
We present filaria-nested polymerase chain reaction (PCR)
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