Freddy Ednildon Bautista-VanegasJose Luis Diaz-GuerreroIngrid Neysa Cabezas-SolizBlas Apaza-HuancaE FernándezJhossmar Cristians Auza-SantiváñezThemis Karim Ocampo GamboaRodolfo R. RosalesLuis Mariano Tecuatl GómezPablo Carías2026-03-222026-03-22202510.56294/evk2025149https://doi.org/10.56294/evk2025149https://andeanlibrary.org/handle/123456789/46782Citaciones: 1Bioprocess engineering is undergoing an unprecedented transformation, driven by the growing demand for complex and bioactive biological products across diverse industries, from pharmaceuticals to food and energy. Recent advances have redefined the efficiency, scalability, and sustainability of biomanufacturing. Key elements of this evolution include the widespread adoption of single-use systems, the integration of automation and artificial intelligence (AI) for precise control and predictive optimization, and the fundamental shift toward continuous bioprocessing. These innovations not only reduce costs and production times but also improve product quality and consistency, enabling the manufacturing of personalized therapies and high-value compounds. Scaling strategies have diversified to include both scale-up and parallel expansion (scale-out), tailored to specific product needs. Together, these developments are laying the foundation for more agile, cost-effective, and environmentally responsible biomanufacturing, preparing the industry to address global challenges in health and sustainability.enBiomanufacturingBioprocessBioprocess engineeringBiochemical engineeringSustainabilityRisk analysis (engineering)AutomationScale (ratio)ScalabilityComputer sciencearticle