The Constant Threat of Zoonotic and Vector-Borne Emerging Tropical Diseases: Living on the Edge

Citation: Rodriguez-MoralesAJ,Paniz-MondolfiAE, Faccini-Martı́nez ÁA, Henao-Martı́nez AF, Ruiz-Saenz J, Martinez-Gutierrez M, Alvarado-Arnez LE, Gomez-Marin JE, Bueno-Marı́ R, Carrero Y, Villamil-GomezWE, Bonilla-Aldana DK, Haque U, Ramirez JD, Navarro J-C, Lloveras S, Arteaga-Livias K, Casalone C, Maguiña JL, Escobedo AA, Hidalgo M, Bandeira AC, Mattar S, Cardona-Ospina JA and Suárez JA (2021) The Constant Threat of Zoonotic and Vector-Borne Emerging Tropical Diseases: Living on the Edge. Front. Trop. Dis. 2:676905. doi: 10.3389/fitd.2021.676905 SPECIALTY GRAND CHALLENGE published: 04 May 2021 doi: 10.3389/fitd.2021.676905

Current times call for more comprehensive ecoepidemiological and bioecosocial approaches (20,99). Scarce funding and the lack of research (39,43,61,81) in tropical medicine are entirely unacceptable. Human immunodeficiency virus (HIV)/acquired immune deficiency syndrome (AIDS), tuberculosis (TB), and malaria combined receive approximately 70% of neglected diseases funding. As mentioned here, emerging tropical diseases, such as those mentioned here, are worldwide in scope, and many have significant regional implications. Therefore, a different funding paradigm that improves their situation is needed (100). The world is no longer a place with distant countries and shielded territories. Instead, ever increasing interconnectivity has turned it into a "small" global village, where the health status of underprivileged areas may undermine not only their lives and development but extend to the wealthiest. The Ebola crisis in 2014 highlighted how high-consequence emerging diseases could spill over to Europe and North America (38,40). The ongoing 2020-2021 pandemic of COVID-19, which has reached as far as Antarctica, affecting almost all countries worldwide, is another clear example (8,29,84,(101)(102)(103)(104)(105)(106)(107)(108)(109)(110)(111)(112). As was expected, coinfections between tropical pathogens and COVID-19 are also now increasingly being reported, especially with dengue (30). Dengue affects over 100 countries worldwide and puts about 2.5-3.9 billion people at risk of infection (113,114). Within the next century, nearly a billion people are at risk of exposure to virus transmission by both main Aedes spp., Ae. aegypti, and Ae. albopictus (also Chikungunya and Zika) in the worst-case scenario (115). The recent first detection of Ae. vittatus in the Dominican Republic and the Americas generated concern in the region, requiring enhanced surveillance to understand the range and public health risks of this potential invasive mosquito species, deserving more studies (116). Most of these emerging tropical diseases are vectorborne, zoonotically transmitted, or environmentally spread through direct contact, food or water ingestion, as well as a consequence of environmental alterations (including the effects of climate change) (117)(118)(119)(120)(121)(122)(123)(124)(125), becoming significant sources of mortality and morbidity worldwide (2).
Many tools have been deployed to counteract emerging infectious diseases. Amongst these are active surveillance (some supported by artificial intelligence) (140)(141)(142), leading to the rapid identification of novel pathogens by genome sequencing and phylogenetic tracing studies (36,105,107,(143)(144)(145)(146) based on computing methods to predict possible interspecies barriers spillover between humans and animals (147). Coupling biotechnological approaches with social sciences-the holistic understanding of humans and their interactions in the disease ecosystems-is also a critical element needed when studying emerging infectious diseases (148,149).
One of the most significant challenges when studying tropical infectious diseases relies on their complexity and heterogeneity, which usually requires a deep understanding not only of the disease itself but its overall context. In order to better approach these diseases one must keep a broader vision of designing proposed interventions, including multilevel ecoepidemiological studies ranging from molecular and omics to satellite epidemiology (use of data and images derived from geospatial technologies, e.g., satellites, for the study of the occurrence and distribution of health-related events in specified populations, and the application of this knowledge to control the health problems) of pathogens, vectors, hosts, abiotic variables, and other socioenvironmental factors (125,150,151). While more research is required to fill in the numerous gaps in knowledge for many of these diseases, particular attention should be placed in designing strategies to develop methods to forecast these diseases not only in vulnerable and underserved populations from low-income countries but also in those poverty pockets located in highincome countries. A whole chapter to be considered in emerging tropical diseases is vaccines development. Innovative global partnership between public, private, philanthropic, and civil society organisations, such as the Coalition for Epidemic Preparedness Innovations (CEPI), launched in 2017, are important to develop vaccines to stop future epidemics. To accelerate the development of vaccines against emerging infectious diseases and enable equitable access to these vaccines for people during outbreaks is crucial. Nevertheless, more funding to understand biology, pathogenesis, epidemiology, prevention, and treatment of emerging tropical diseases are urgently needed and expected (152)(153)(154).
Tropical Medicine is no more a clinical specialty of "exotic diseases," as it was conceived at its beginnings, and is no more about "diseases for those entering the jungle." One dramatic change is the urban installation of diseases that before were observed only after sylvatic or primary forest exposure. The increase of urban outbreaks of Chagas disease in South America is now a horrific reality in Brazil (155)(156)(157), Venezuela (158), and Colombia (159,160), and it is also a new reality for visceral leishmaniasis (161)(162)(163)(164). The integrated work of public health experts, veterinarians, entomologists, and parasitologists is an urgent need to face these new challenges and transformations of tropical diseases. Tropical diseases also include non-infectious diseases, such as animal bites and stings (e.g. myiasis and tungiasis) (165,166). Snake bites, scorpion stings, and spider bites, account for a significant amount of the morbidity and mortality in tropical countries in these changing scenarios, including ecotourism, rural migration, and other related factors (167)(168)(169)(170).
There is no doubt that "many things are wrong in the world today", as the legendary American rock n'roll band Aerosmith has been singing since the 90s. We are "living on the edge", the edge of neglect and of a surge of many emerging infectious diseases with no hope for resolution in the foreseeable future. Furthermore, "it sure ain't no surprise" that poverty, inequality, climate change, deforestation, migration, urbanization, wildlife trade, among many other factors, have all contributed to the emergence of novel tropical diseases and the resurgence of other endemic diseases (171). There is no spare place for the arrival of emerging pathogens, and over time pathogens tend to adapt to new environments leading to unforeseen consequences. The next epidemic, the next pandemic, is just around the corner (68). In response to this latent threat, we need to gather real-time information and build collaborative networks aimed to enhance surveillance activities in order to develop highpriority medical countermeasures to prevent and control emerging tropical diseases. Research in Zoonotic and Vector-Borne Emerging Tropical Diseases remains the most critical aspect and the foundation to determine the drivers of emerging and re-emerging infectious diseases.
With that vision, our new Section Emerging Tropical Diseases in the journal Frontiers in Tropical Diseases offers to contribute to the scientific advancement and fill in the many knowledge gaps based on a multi and transdisciplinary approach. Our team of Associate Editors is comprised of a diverse group of experts from different countries, diverse backgrounds, and varied interrelated expertises in a wide range of conditions within the tropical diseases spectrum of diseases, following the One Health approach vision (8,172).
Grand challenges exist in the fight against the threat of emerging tropical diseases. In the laboratory, our daily work, in the hospitals, in the field, in the community, and in many other places, our shared goal is to understand the drivers of emergence and address their root-causes. We are working collaboratively in social networks to reduce the impact of emerging tropical diseases. Let's work on this together! We value your work and welcome your submissions to this new section of Frontiers in Tropical Diseases.