02307nas a2200229   4500000000100000000000100001008004100002260001500043653003200058653002300090653002400113653002500137653003900162653002100201100002100222700002400243245013100267856010900398490000600507520155000513022001402063       2025                            d  c2025-10-0110aLatin America and caribbean10aanimal experiments10aBiomedical Research10aclinical translation10adeveloping and developed countries10aorgans on a chip1 aMaria D. Cabrera1 aAndrea C. del Valle00aOrgans-on-a-chip for global equity: a perspective from Guatemala on advancing biomedical research in resource-limited settings  uhttps://www.frontiersin.org/journals/lab-on-a-chip-technologies/articles/10.3389/frlct.2025.1669220/full0 v43 aAnimal models have long supported biomedical research, particularly in the development of drugs and preclinical testing. Yet, persistent discrepancies between animal data and human clinical outcomes have prompted a critical reassessment of their translational value. Challenges, including biological variability, inadequate methodological reporting, and limited regulatory oversight, particularly in low- and middle-income countries, undermine the reliability of animal research in guiding clinical practice. Organ-on-a-chip (OoC) technology offers a compelling alternative, especially relevant for resource-limited contexts. These microengineered systems enable more accurate modeling of human physiology and better predictions of drug safety and effectiveness, yielding direct benefits for underserved populations. By incorporating patient-derived cells, OoC platforms allow the study of region-specific diseases while fostering international research collaboration. Moreover, such approaches reduce reliance on costly animal research infrastructure, addressing critical barriers in countries like Guatemala, where the legal framework and funding remain limited. We argue that broader adoption of OoC technology is essential to improving research equity, quality, and accessibility worldwide. This perspective reflects the realities and aspirations of the Guatemalan scientific community, where advancing alternatives to animal models is not only a scientific priority but also a pathway to greater participation in global biomedical research.  a2813-3862