Main Sector of relevance\IRC classification 11. Sciences (Chemistry, Physics etc)
11.13 System of computer planning of hip joint surgeries
Developers’ contact information
State Scientific Institution “The United Institute of Informatics Problems of the National Academy of Sciences of Belarus”
6 Surganova Str., 220012 Minsk
Summary
Software system of joint modeling enables defining optimal hip joint surgery procedure on pre-surgical stage taking into account features of damaged bony tissue.
Description
Methods, algorithms, and program for preprocess operation and three-dimensional reconstruction of tomography images of joints, segmentation, and classification of planning surgeries objects, anatomical landmark, and cutting surfaces setting
Technology type
Technical advantages and economic benefits
– planning is based on computer tomography images analysis
which enables measurement of bones geometrical parameters in three
dimensions;
– mode of maximal intensity image construction is maintained in the planning
mode which enables use of planning methods for manual planning on the basis of
X-ray images;
– segmentation procedure enables separation of various bones from one
another by manual setting of several markers;
– planning time is reduced from 1-2 hours to 10-20 minutes;
– planning accuracy significantly increased in comparison with planning on
the basis of two-dimensional X-ray images.
Technology differentiation and uniqueness
– segmentation procedure which enables separation of various
bones from one another by manual setting of several markers;
– mode of maximal intensity image construction is maintained in the planning
mode which enables use of planning methods on the basis of X-ray images worked
by surgeons for manual planning during the previous years;
– estimate of parameters in three dimensions on the basis of computer
tomography analysis in the planning process which enables significant reduction
in the amount of planning mistakes;
– planning method of rotational hip osteotomy based on estimation of degree
of spherical top whirlbone.
Context in which technology was identified
– 7th International Conference on Pattern Recognition and Image
Analysis (PRIA 2004), October 18-23, 2004, St. Petersburg, Russian
Federation;
– 8th International Conference on Pattern Recognition and Information
Processing (PRIP-2005), May 18-20, 2005, Minsk, Belarus;
– International Conference on Advanced Information and Telemedicine
Technologies for Health (AITTH-2005), November 8-10, 2005, Minsk, Belarus;
– 18th International EURASIP Conference BIOSIGNAL-2006, June 28-30, 2006,
Brno, the Czech Republic;
– 3th International Conference on Discrete Geometry for Computer Imagery
(DGCI-2006), October 25-27, 2006, Seged, Hungary;
– 9th International Conference on Pattern Recognition and Information
Processing (PRIP-2007), May 22-24, 2007, Minsk, Belarus;
– 21st International Congress on Computer Assisted Radiology and Surgery
(CARS-2007), June 27-30, 2007, Berlin, Germany;
– 8th International Conference on Pattern Recognition and Image Analysis
(PRIA-2007), October 8-13, 2007, Yoshkar-Ola, Russian Federation;
– International Scientific Conference “Information Processing
Intellectualization” (IOI-2008), June 9-14, 2008, Alushta, Crimea,
Ukraine;
– International exposition TIBO-2008.
Technological keywords
Segmentation, visualization, image, computer tomography, surgeries, orthopedics, planning, software system.
Development Stage
Intellectual property rights
Range of applications
Practical medicine.
Classifier Used at the EU Innovation Relay Centres
Preferable Regions
Practical experience
The system is used in:
– National Scientific-Practical Center for Traumatology and Orthopedics;
– Belarusian Medicine Academy of Postdiploma Education;
– Belarusian State Medical university, Chair of Traumatology and
Orthopedics;
– 6th Clinical Hospital, Minsk.
Environmental impact
None
Type of collaboration sought
Terms and restrictions
— None
Available technical assistance