Feasibility of Polycaprolactone Scaffolds Fabricated by Three-Dimensional Printing for Tissue Engineering of Tunica Albuginea

Ho-Song YU; Jinju PARK; Hyun-Suk LEE; Su-A PARK; Dong-Weon LEE; Kwangsung PARK.
The World Journal of Men's Health ; : 66-72, 2018.
Artículo en Inglés | WPRIM | ID: wpr-742344

Documentos relacionados

  1. Mechanical properties of 3-D printed polyvinyl alcohol matrix for detection of respiratory pathogens.
  2. Mechanical behavior of 3D-printed PEEK and its application for personalized orbital implants with various infill patterns and densities.
  3. The effect of aging on the mechanical properties of 3-dimensional printed biocompatible resin materials used in dental applications: An in vitro study.
  4. Three-dimensionally printed denture base resins modified by nanoglass particles and carbon nanotubes.
  5. Enhancing stiffness and damping characteristics in nacreous composites through functionally graded tablet design.
  6. Tissue bioprinting for biology and medicine.
  7. Comparison of mechanical properties of 3-dimensional printed and thermoformed orthodontic aligners.
  8. Structure-function assessment of 3D-printed porous scaffolds by a low-cost/open source fused filament fabrication printer.
  9. A Structural Analysis of 3D Printed Pediatric Space Maintainers.
  10. A 3D-printed analytical device seamlessly integrating sample treatment for electrochemical detection of IAA in Marchantia polymorpha.