Abstract
Additive manufacturing (AM) and 3D bioprinting are nascent technologies with significant implications for the biomedical field.
This research investigates and compares the key drivers, barriers, and technology trends influencing the adoption of AM and 3D
bioprinting in biomedical applications. The study aims to understand their impact on healthcare delivery, tissue engineering, and
medical device fabrication. Central to this investigation are questions regarding the primary factors driving the adoption of these
technologies in healthcare and how they meet current medical needs. Additionally, it explores the challenges impeding their
widespread implementation in both research and clinical practice, exploring strategies to overcome these challenges. Furthermore,
the research discusses how technological advancements in AM and 3D bioprinting bolster personalized medicine, operational
excellence in the biomedical field, and the customization of medical devices. The study comprehensively evaluates the diverse
applications, challenges, and future potential of additive manufacturing (AM) and 3D bioprinting within the biomedical field. It
contributes to how these technologies may impact healthcare delivery, biomedical research, and the advancement of therapeutic
innovations.