The advent of three-dimensional (3D) printing in the 1980s ushered in a new era of
manufacturing. Original 3D printers were large, expensive and difficult to operate, but recent …

Abstract Additive manufacturing (3D-printing) has revolutionized many areas of the
manufacturing. Three-dimensional printing offers enormous potential to biomedical devices …

Abstract Three-dimensional (3D) printing has applications in many fields and has gained
substantial traction in medicine as a modality to transform two-dimensional scans into three …

Three-dimensional (3D) printing technology is increasingly being utilized in various surgical
specialities. In paediatric orthopaedics it has been applied in the pre-operative and intra …

Capitalizing on features including high resolution, smooth surface finish, large build volume,
and simultaneous multi-color/multi-material printing, material jetting additive manufacturing …

Fused Deposition Modeling (FDM) enables many advantages compared to traditional
manufacturing techniques, but the lower mechanical performance due to the higher porosity …

Purpose Additive manufacturing (AM) is an innovation in today's medical field. It helps create
a patient-specific 3D model of bones, nerves, organs and blood vessel. Now, doctors and …

Introduction Endoscopic skull base surgery allows minimal invasive therapy through the
nostrils to treat infectious or tumorous diseases. Surgical and anatomical education in this …

We aimed to explore the application of three-dimensional (3D) printing technology with
problem-based learning (PBL) teaching model in clinical nursing education of congenital …

3D printing technology has driven major medical, dental, engineering, and education
innovations. In oral and maxillofacial surgery (OMFS), 3D printing technology has been …