Výzkum užitečný pro společnost.
Project Details
Využití zobrazovacích technik a počítačového plánování v traumatologii
Project Period: 1. 7. 2014 - 30. 6. 2017
Project Type: grant
Code: TA04011606
Agency: Technology Agency of the Czech Republic
Program: Program aplikovaného výzkumu a experimentálního vývoje ALFA
Computer preoperative planning; trauma; skeletal traumatology; treatment of fractures; bone fragments reposition; implant selection; custom implant; image data processing and visualization; 3D model; parametric model of long bones; GPU acceleration
Main goal of this project is to support the operating procedures for the trauma treatment of fractures and bone defects with the use of modern methods of computer data processing and computer preoperative planning. The project involves collaboration between experts from different disciplines: traumatology, information technology and biomechanics (i.e. development of medical devices). The project focuses on the preoperative phase and the development of a software system that will assist surgeons in identifying fractures, computer reconstruction of bone fragments in the correct position and selecting the appropriate implant. Using modern image processing techniques and data visualization software will facilitate the assessment of fracture and creation of a surgery plan. The result will be a more appropriate choice of implant and its fixation to prevent repeated corrections, unnecessary surgical treatments and also reduce the burden on staff at multiple X-ray imaging of the patient.
Polok Lukáš, Ing. (UPGM FIT VUT) , team leader
Smrž Pavel, doc. RNDr., Ph.D. (UPGM FIT VUT) , team leader
Kaushik Sumit (UPGM FIT VUT)
Mlích Jozef, Ing. (UPGM FIT VUT)
Široký Adam, Ing. (UPGM FIT VUT)
2016
- KLÍMA Ondřej. 3D model kosti z RTG snímků - tvorba a využití tvarových modelů. Rožnov pod Radhoštěm, 2016. Detail
- POLOK Lukáš, ILA Viorela S. and SMRŽ Pavel. 3D Reconstruction Quality Analysis and Its Acceleration on GPU Clusters. In: Proceedings of European Signal Processing Conference 2016. Budapest: Institute of Electrical and Electronics Engineers, 2016, pp. 1108-1112. ISBN 978-0-9928626-6-4. Detail
- POLOK Lukáš and SMRŽ Pavel. Increasing Double Precision Throughput on NVIDIA Maxwell GPUs. In: Proceedings of the 24th High Performance Computing Symposium. Pasadena / Los Angeles: Association for Computing Machinery, 2016, pp. 146-153. ISBN 978-1-5108-2318-1. Detail
- KLÍMA Ondřej, KLEPÁRNÍK Petr, ŠPANĚL Michal and ZEMČÍK Pavel. Intensity-based femoral atlas 2D/3D registration using Levenberg-Marquardt optimisation. In: Biomedical Applications in Molecular, Structural, and Functional Imaging. San Diego: SPIE - the international society for optics and photonics, 2016, pp. 1-6. ISBN 978-1-5106-0023-2. Detail
- KLÍMA Ondřej, BAŘINA David, KLEPÁRNÍK Petr, ZEMČÍK Pavel, CHROMÝ Adam and ŠPANĚL Michal. Lossy Compression of 3-D Statistical Shape and Intensity Models of Femoral Bones Using JPEG 2000. In: 14th IFAC Conference on Programmable Devices and Embedded Systems PDES 2016 Brno, Czech Republic, 5-7 October 2016. Brno / Lednice: Elsevier Science, 2016, pp. 115-120. ISSN 2405-8963. Detail
- KLÍMA Ondřej, KLEPÁRNÍK Petr, ŠPANĚL Michal and ZEMČÍK Pavel. Towards an accurate 3D reconstruction of fractured long bones from plain 2D radiographs. International Journal of Computer Assisted Radiology and Surgery, 2016. ISSN 1861-6410. Detail
2015
- KLÍMA Ondřej, KLEPÁRNÍK Petr, ŠPANĚL Michal and ZEMČÍK Pavel. GP-GPU Accelerated Intensity-based 2D/3D Registration Pipeline. Shape 2015 Symposium on Statistical Shape Models & Applications Proceedings. Délemont: Swiss Institute for Computer Aided Surgery, 2015. Detail