Exhibitors Database 2020
Although the 21st EFORT Annual Congress Vienna 2020 has been postponed until 2021, we are pleased to leave here the links and information of our existing corporate partners and exhibitors.
EFORT invites you to browse through the Exhibitors Database of the 21st EFORT Annual Congress 2020 which represents those exhibitors that have already committed to and confirmed their presence at the 2020 EFORT Congress.
EFORT Congress Vienna 2020 Exhibition Floor Plan
Version as of 12 March 2020 | PDF Document | 1 page | 310kb
EFORT Industry Database
As computer simulation has been widely used for analysis such as strength of structure or flow of fluid, it is indispensable in engineering. Simulation is also spreading in medical reserach, for example blood flow in the vessel or joint force during walking.
With regard to bone, bone density has been used for evaluation of bone strength, especially osteoporosis risk. However it has been pointed out the limitation that bone density can not remove the influence of bone spur or calcified vessel which don’t contribute to strength and can not consider bone structure. Therefore evaluation of bone strength by finite element analysis has attracted attention over the years. This method evaluates the bone strength by constructing patient-specific bone model from CT data, assigning bone density and material properties from CT value, and performing finite element analysis. Today, it is used for various analyses such as implant installation or osteotomy in reseach field.
The benefit of computer analysis is that measurements, which can not be performed in vivo or experimentally using cadavers, are possible. Widely-used software has general versatility and high functionality, nevertheless, they make it difficult for a non-engineer to learn the operation and the technique for an analysis. MECHANICAL FINDER is the finite element analysis software developed for medical doctors to analyze with no difficulty in clinical practice and study.
MECHANICAL FINDER is the software to evaluate bone strength by considering the entire bone as a three-dimensional structure and applying finite element analysis.