@Article{Shackleford+Shusharina+Verberg+Warmerdam+Winey+Neuner+Steininger+Arbisser+Golland+Lou+Paganelli+Peroni+Riboldi+Baroni+Zaffino+Spadea+Apte+Saleh+Deasy+Mori+Kandasamy+Sharp2012
  Author  = "J.A. Shackleford and N. Shusharina and J. Verberg and G. Warmerdam and B. Winey and M. Neuner and P. Steininger and A. Arbisser and P. Golland and Y. Lou and C. Paganelli and M. Peroni and M. Riboldi and G. Baroni and P. Zaffino and M.F. Spadea and A. Apte and Z. Saleh and J.O. Deasy and S. Mori and N. Kandasamy and G.C. Sharp",
  Title		= "Plastimatch 1.6 – Current Capabilities and Future Directions",
  Year		= 2012,
  Month	= 10,
  Abstract	= "Open-source software provides an economic benefit by reducing duplicated development effort, and advances science knowledge by fostering a culture of reproducible experimentation. This paper describes recent advances in the plastimatch open software suite, which implements a broad set of useful tools for research and practice in radiotherapy and medical imaging. The focus of this paper is to highlight recent advancements, including 2D-3D registration, GPU-accelerated mutual information, analytic regularization of B-spline registration, automatic 3D feature detection and feature matching, and radiotherapy plan evaluation tools.",
  Journal	= "Int Conf Med Image Comput Comput Assist Interv",
  Publisher	= "Int Conf Med Image Comput Comput Assist Interv. MICCAI 2012",
  Institution	= "Department of Radiation Oncology, Massachusetts General Hospital, Boston, MA, USA.",
  Sponsor	= "NSF ERC Innovation Award EEC 0946463,
NIH/ NCI PO1 CA 21239
National Center for Research Resources P41-RR13218
National Institute of Biomedical Imaging and Bioengineering P41 EB015902 of the National Institutes of Health
National Alliance for Medical Image Computing (NAMIC), funded by the National Institutes of Health through the NIH Roadmap for Medical Research U54 EB005149",
  Keywords	= "Open source software, medical imaging, software engineering, radiotherapy",
}