The central role of early-career researchers

Early-career researchers (ECRs) – someone who is in the initial stages of their research career, i.e., 7–10 years of their last and highest degree, i.e., doctorate (Wellcome) – have an indispensable role in research and development of a country. They design and lead experiments, fieldwork and writing of articles, and often bring bold, interdisciplinary approaches to research fields such as parasitology (Krauss et al., Reference Krauss, Danús and Sales-Pardo2023). In South America, their work in developing new strategies for zoonotic diseases diagnostics, control, treatment and vaccine development is increasingly recognized as essential for both regional and global health. Additionally, their collaborations with international research teams provide valuable local insights into global parasitology research, an essential factor in studying parasites that cross borders and impact multiple regions. However, ECRs in South America face a distinct set of structural barriers that impede their permanence in science and impact. These challenges are summarized in Table 1, which outlines the most pressing systemic hurdles for ECRs working in the Global South.

Table 1. Systemic challenges faced by South American ECRs

Sources: Docquier and Rapoport, Reference Docquier and Rapoport2012; SciDev.Net, 2021; OECD, 2017; Ciocca and Delgado, Reference Ciocca and Delgado2017; European Commission, 2021; Kwon, Reference Kwon2022; CAPES, 2023; FAPESP, 2024; National Institutes of Health, NIH, 2024.

This South American ECRs Special Issue in Zoonotic Diseases caused by Helminths and Protozoa was developed in response to the impact that zoonotic parasitic diseases have in the Global South and in the unique roles that local ECRs play to tackle them, especially when taking into account cultural and language barriers that are faced when working in such localities. Aware of the unique challenges researchers in this part of the world face in relation to funding, we aimed to support these ECRs by offering a platform to highlight their significant work. An Article Processing Charge (APC) charges waiver process was put in place by the publisher, Cambridge University Press & Assessment, to facilitate their publications in Parasitology, which is a gold open access journal. This Special Issue reunites 11 research papers that focus on some of the most important zoonotic parasitic diseases in the world, including malaria, leishmaniasis, toxoplasmosis and neurocysticercosis, and span from basic science including field epidemiology and diagnostics, to structural biology and vaccine development, showcasing not only scientific diversity but also the leadership emerging from within the region (Table 2).

Table 2. List of the manuscripts included in this special issue

Funding inequities in NTD research

Globally, funding for NTDs research is limited. As part of the roadmap for 2021–2030, WHO estimates a need for USD 1.6 billion annually to meet elimination goals by 2030 (World Health Organization, 2020) and in 2023, during the Reaching the Last Mile Forum at the Conference of the Parties to the Convention (COP28) in Dubai, new endorsements to the Kigali Declaration mobilized USD 777 million towards NTDs elimination goals. Nevertheless, South America, home to more than 50 million people affected by NTDs, receives a disproportionately small share of global health R&D funding. In 2020, low- and middle-income countries (LMICs) received just 0.6% of noncommunicable disease grants, with similarly sparse NTD support (World Health Organization, 2023b). Brazil alone has invested over USD 230 million in NTD research from 2004 to 2020, but political-economic instability has affected significantly funding towards NTDs and overall research in the country (Melo et al., Reference Melo, Angulo-Tuesta, Silva, Santos, Uchimura and Obara2023). A data report available at G-FINDER data portal reveals a 6% decrease in NTDs global funding in 2020 in relation to 2019, a trend that is evidently continuing up to 2023 (DNDi, 2022). Unfortunately, the future does not look promising as the recent US federal budget proposals include a 40% cut to the National Institutes of Health (NIH) and calls for the elimination of the Fogarty International Centre, which plays a key role in building research capacity in LMICs (ASTMH, 2025). These cuts have already led to the suspension of new NIH grants to international partners, and halted programmes such as the USAID Malaria Vaccine Development initiative, potentially reversing hard-won gains in parasitic disease control and vaccine innovation (Dyer, Reference Dyer2025; Science Business, 2025; The Guardian, 2025). Major academic institutions have reported staffing reductions and project losses, highlighting the cascading effects of such funding decisions on global health equity and research advancement (Washington Post, 2025).

Despite the various constraints, South America contributes ∼4–5% of global scientific output (Table 3), led by Brazil (65% of regional production) (UNESCO, 2015; SCImago, 2023). Compared to Asia (∼33%), North America (∼25%) and Europe (∼35%), the region’s output highlights significant scientific contributions coming from the region. Importantly, it is expected that a great proportion of these publications (funding, work and or writing) are led by ECRs and by addressing the structural challenges faced by them these outputs can be improved. This requires not only recognition but also coordinated, long-term investment. In Table 4, the actionable priorities to build a more sustainable, equitable research ecosystem for parasitology in South America are outlined.

Table 3. Global regional research outputs by volume and percentage

Sources: Nature Index, 2025; SCImago, 2023.

Table 4. A call for action: building a sustainable research ecosystem in South America

Sources: Nakamura et al., Reference Nakamura, Soares, Pillar, Diniz-Filho and Duarte2023; Else, Reference Else2025.

Equitable collaboration as a catalyst for innovation

To offset structural limitations, international collaboration is not merely helpful but essential. North–South partnerships provide infrastructure, training and co-authorship opportunities, while South–South collaborations leverage shared disease burdens and cultural proximity (Sakurai, Reference Sakurai2015; McManus et al., Reference McManus, Neves, Finan, Pimentel, Pimentel and Schleicher2024) (Figure 2). Several international research consortia have demonstrated the transformative potential of equitable collaboration in South America. The NIH Fogarty Global Infectious Disease Program has built sustainable research capacity in Bolivia and Peru by training ECRs and strengthening local surveillance systems (Clark et al., Reference Clark, Verastegui, Tinajeros, Calderon, Colanzi and Gilman2020). DNDi-led consortia, working with partners like GlaxoSmithKline and the University of Dundee-UK, have advanced affordable treatments for Chagas disease and leishmaniasis, including paediatric and oral therapies (Drugs for Neglected Diseases Initiative, 2018). Similarly, the CONICET–GCRF network between Argentina and the UK has enhanced helminth drug discovery through joint research and capacity building (DevTracker summary, 2025). These initiatives, which hopefully will continue to exist, underscore how international partnerships grounded in shared leadership and mutual benefit can amplify regional expertise, drive innovation and deliver tangible public health outcomes. To be effective, such partnerships must engage local scientists, communities and policy stakeholders throughout the research life cycle. This ensures relevance, builds capacity and reinforces research sovereignty (Rodrigues, Reference Rodrigues2021).

Figure 2. Symbiosis of collaboration. Illustrates mutual contributions of Global North (technology, funds) and South (samples, fieldwork, endemic expertise).