Abstract
Blood transfusion is a routine yet resource-intensive medical procedure. Increasing global demand, limited donor availability, and logistical and ethical constraints have driven the search for adequate blood substitutes. Hemoglobin-based oxygen carriers (HBOCs) represent a promising class of therapeutics designed to mimic the oxygen transport function of red blood cells while overcoming the challenges of storage, compatibility, and infection risk. Despite decades of research, no HBOC has yet met all criteria for widespread clinical use. This review summarizes recent advances in the design and development of hemoglobin derivatives, with a focus on their biochemical properties, safety profiles, and oxygen delivery capabilities. We also discuss current limitations and translational barriers. The successful implementation of HBOCs could significantly improve transfusion strategies, especially in emergency medicine, military applications, and resource-limited settings. Continued innovation is essential to bring safe and effective oxygen therapeutics into routine clinical practice.