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• Joint research with institutions around the world
• Training sessions for healthcare professionals
• Addressing the world’s evolving medical needs
• Preventing the spread of infectious diseases

Austin ICU SMI Project (Australia)

The aim of this project is to offer a qualitative and quantitative evaluation of the tissue/end-organ flow of hypotensive or shocked patients. If the ability of SMI to provide such an evaluation is confirmed, it may attribute to radical changes in the management of critically ill patients.

Joint research on the application of deep learning reconstruction in MRI:
Bordeaux University and Kumamoto University (France, Japan)

This research is being conducted to help further reduce noise, achieve ultra-high resolution,
and minimize reconstruction time for MRI imaging.

Joint research on regenerative medicine with Center for iPS Cell Research and Application:
Kyoto University (Japan)

We aim to contribute to the development of regenerative medicine through achieving improvement of the quality of autologous iPS cells.

During this research project, it became clear that the mere volume of gouty tophi does not capture the actual disease burden of the patient as the concentration of uric acid within a tophus may vary. Especially during treatment, where uric acid tophy form and vanish, the concentration of MSU and the calculation of its total mass provides valuable additional information exceeding that of volume measurements. Now, by acquiring follow-up CT examinations and comparing the MSU mass content with previous ones, the treatment efficacy is well controlled, which is in the benefit of the patient.

Today this new clinical application is part of the routine working scheme for gout imaging.

TOPICS: Contributing to the development of regenerative medicine through joint research aimed at realizing high-quality autologous iPS cells

Regenerative medicine is a field that involves such techniques as transplanting cells and tissues cultured outside the body to restore organ and tissue function lost through illness or injury. The field is expected to yield remedies for diseases that, until now, have had no effective treatments. iPS cells^* are the key to success for regenerative medicine.
In 2019, together with Canon Inc., Canon Medical Systems started joint research with the Center for iPS Cell Research and Application of Kyoto University with the aim of contributing to the field of regenerative medicine through the realization of higher-quality induced pluripotent stem (iPS) cells for autograft purposes, or "my iPS cells."
Because my iPS cells are cultured using iPS cells made from the patient's own cells, there are fewer risks of immune rejection after the cells are transplanted. It is expected that if production of my iPS cells in a short period of time and at a low cost was possible, regenerative medicine would be available for many people. In order to achieve this, it is integral to create new technology wherein a stable supply of iPS cells with guaranteed quality can be produced in a short period of time and at a low cost. This joint research between Canon and CiRA will utilize the core technologies of the Canon Group--optical technology, measurement technology and diagnostic imaging technology--to develop a low-cost examination method as well as investigate markers to determine cell differentiation.
Furthermore, through the use of the quality control technology and production technology the Canon Group has developed, the research aims to identify and control the factors that affect the quality of iPS cells to achieve iPS cell production at a low cost and with a shorter lead time while maintaining high quality and safety.