Skip to main content


Page 5 of 5

  1. Medical 3D printing is expanding exponentially, with tremendous potential yet to be realized in nearly all facets of medicine. Unfortunately, multiple informal subdomain-specific isolated terminological ‘silos...

    Authors: Leonid Chepelev, Andreas Giannopoulos, Anji Tang, Dimitrios Mitsouras and Frank J. Rybicki
    Citation: 3D Printing in Medicine 2017 3:4
  2. Major facial defects due to cancer or deformities can be reconstructed through microvascular osteocutaneous flaps. Hereby CAD/CAM workflows offer a possibility to optimize reconstruct and reduce surgical time....

    Authors: Elisabeth Goetze, Matthias Gielisch, Maximilian Moergel and Bilal Al-Nawas
    Citation: 3D Printing in Medicine 2017 3:3
  3. Three-dimensional (3D) printing has become a useful method of fabrication for many clinical applications. It is also a technique that is becoming increasingly accessible, as the price of the necessary tools an...

    Authors: Benjamin L. Cox, Nathan Schumacher, John Konieczny, Issac Reifschneider, Thomas R. Mackie, Marisa S. Otegui and Kevin W. Eliceiri
    Citation: 3D Printing in Medicine 2017 3:2
  4. The increased and accelerating utilization of 3D printing in medicine opens up questions regarding safety and efficacy in the use of medical models. The authors recognize an important shift towards point-of-ca...

    Authors: Andy Christensen and Frank J. Rybicki
    Citation: 3D Printing in Medicine 2017 3:1
  5. Medical 3D printing holds the potential of transforming personalized medicine by enabling the fabrication of patient-specific implants, reimagining prostheses, developing surgical guides to expedite and transf...

    Authors: Leonid Chepelev, Taryn Hodgdon, Ashish Gupta, Aili Wang, Carlos Torres, Satheesh Krishna, Ekin Akyuz, Dimitrios Mitsouras and Adnan Sheikh
    Citation: 3D Printing in Medicine 2016 2:5
  6. Congenital heart diseases causing significant hemodynamic and functional consequences require surgical repair. Understanding of the precise surgical anatomy is often challenging and can be inadequate or wrong....

    Authors: Shi-Joon Yoo, Omar Thabit, Eul Kyung Kim, Haruki Ide, Deane Yim, Anreea Dragulescu, Mike Seed, Lars Grosse-Wortmann and Glen van Arsdell
    Citation: 3D Printing in Medicine 2016 2:3
  7. CT scanning with 3D reconstructed images are currently used to study articular fractures in orthopedic and trauma surgery. A 3D-Printer creates solid objects, starting from a 3D Computer representation.

    Authors: Nicola Bizzotto, Ivan Tami, Attilio Santucci, Roberto Adani, Paolo Poggi, Denis Romani, Guilherme Carpeggiani, Filippo Ferraro, Sandro Festa and Bruno Magnan
    Citation: 3D Printing in Medicine 2016 2:2
  8. Additive manufacturing/3D printing of medical devices is becoming more commonplace, a 3D printed drug is now commercially available, and bioprinting is poised to transition from laboratory to market. Despite t...

    Authors: Matthew Di Prima, James Coburn, David Hwang, Jennifer Kelly, Akm Khairuzzaman and Laura Ricles
    Citation: 3D Printing in Medicine 2016 2:1
  9. Hand-held three dimensional models of the human anatomy and pathology, tailored-made protheses, and custom-designed implants can be derived from imaging modalities, most commonly Computed Tomography (CT). Howe...

    Authors: Andreas A. Giannopoulos, Leonid Chepelev, Adnan Sheikh, Aili Wang, Wilfred Dang, Ekin Akyuz, Chris Hong, Nicole Wake, Todd Pietila, Philip B. Dydynski, Dimitrios Mitsouras and Frank J. Rybicki
    Citation: 3D Printing in Medicine 2015 1:3
  10. The effects of reduced radiation dose CT for the generation of maxillofacial bone STL models for 3D printing is currently unknown. Images of two full-face transplantation patients scanned with non-contrast 320...

    Authors: Tianrun Cai, Frank J. Rybicki, Andreas A. Giannopoulos, Kurt Schultz, Kanako K. Kumamaru, Peter Liacouras, Shadpour Demehri, Kirstin M. Shu Small and Dimitris Mitsouras
    Citation: 3D Printing in Medicine 2015 1:2
BMC is part of Springer Nature

Annual Journal Metrics

  • 2022 Citation Impact
    3.7 - 2-year Impact Factor

    2023 Speed
    7 days submission to first editorial decision for all manuscripts (Median)
    62 days submission to accept (Median)

    2023 Usage 
    175 Altmetric mentions