3D-Doctor

3D-DOCTOR is an advanced 3D modeling, image processing and measurement software for MRI, CT, PET, microscopy, scientific, and industrial imaging applications. 3D-DOCTOR supports both grayscale and color images stored in DICOM, TIFF, Interfile, GIF, JPEG, PNG, BMP, PGM, MRC, RAW or other image file formats. 3D-DOCTOR creates 3D surface models and volume rendering from 2D cross-section images in real time on your PC. You can export the polygonal mesh models to STL (ASCII and Binary), DXF, IGES, 3DS, OBJ, VRML, PLY, XYZ and other formats for surgical planning, simulation, quantitative analysis, finite element analysis (FEA) and rapid prototyping applications. You can calculate 3D volume and make other 3D measurements for quantitative analysis. 3D-DOCTOR’s vector-based tools support easy image data handling, measurement, and analysis.3D CT/MRI images can be re-sliced easily along an arbitrary axis. Multi-modality images can be registered to create image fusions. Misaligned slices can be automatically or semi-automatically aligned using 3D-DOCTOR’s image alignment functions. Other image processing functions include template-based film cropping, image reslicing to correct slices of uneven thickness, volume resizing, and image rotation. The 3DBasic scripting tool makes it easy to create Basic-like sophisticated 3D imaging programs. Get 3D-DOCTOR today and visualize your images in 3D. 3D-DOCTOR is approved by FDA (US Food and Drug Administration 510K clearance) for medical imaging and 3D visualization applications. It has been named the Top 3D Imaging Software by Scientific Computing & Instrumentation Magazine in the Year 2002 and Year 2000 Annual Technology Leaders Issue. 3D-DOCTOR is currently being used by leading hospitals, medical schools and research organizations around the world.


References in zbMATH (referenced in 4 articles )

Showing results 1 to 4 of 4.
Sorted by year (citations)

  1. Mittal, Rajat; Seo, Jung Hee; Vedula, Vijay; Choi, Young J.; Liu, Hang; Huang, H. Howie; Jain, Saurabh; Younes, Laurent; Abraham, Theodore; George, Richard T.: Computational modeling of cardiac hemodynamics: current status and future outlook (2016)
  2. Ferraz, Eduardo Gomes; Andrade, Lucio Costa Safira; dos Santos, Aline Rode; Torregrossa, Vinicius Rabelo; do Rosario Santos Freire, Maria; Sarmento, Viviane Almeida: Effect of different surface processing protocols in three-dimensional images for rapid prototyping (2011) ioport
  3. Agrawal, Anupam; Kohout, Josef; Clapworthy, Gordon J.; McFarlane, Nigel J. B.; Dong, Feng; Viceconti, Marco; Taddei, Fulvia; Testi, Debora: Enabling the interactive display of large medical volume datasets by multiresolution bricking (2010) ioport
  4. Al Nazer, R.; Klodowski, A.; Rantalainen, T.; Heinonen, A.; Sievänen, H.; Mikkola, A.: Analysis of dynamic strains in tibia during human locomotion based on flexible multibody approach integrated with magnetic resonance imaging technique (2008)