Disior Analytics
Data-Driven Diagnostics and Treatment Planning
At Disior, we create software for diagnostics and treatment optimization. Based on our innovative, proprietary algorithms and fully automated mathematical modelling, the software is designed for doctors' everyday clinical use.
Objective, Systematic and Repeatable Data
For diagnostics and treatment planning, you need to know exactly what is in the medical image. To get the full information out of your CT- and MRI- images, don't let manual analysis tools, image quality or anatomical variations slow you down.
Disior software gives you automatic measurement of diagnostics-related critical parameters, like shapes, sizes, angles, volumes and distances. It can also implement the body movement into the equation. This allows you to better see and analyze what is in the image, and to predict what will happen to the critical structures over time. Through this, you can optimize the treatment for the best possible outcome.
Get objective, systematic and repeatable measures for data-driven diagnostics and treatment planning with Disior.
Disior software gives you automatic measurement of diagnostics-related critical parameters, like shapes, sizes, angles, volumes and distances. It can also implement the body movement into the equation. This allows you to better see and analyze what is in the image, and to predict what will happen to the critical structures over time. Through this, you can optimize the treatment for the best possible outcome.
Get objective, systematic and repeatable measures for data-driven diagnostics and treatment planning with Disior.
Our Work with Clinicians
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We are happy to show you in detail what we do today, and discuss what we could do together tomorrow:
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Fast, Accurate and Repeatable:
The Difference from Existing Technologies
Disior Software automatically creates mathematical 3D models of tissues visible in CT- and MRI- images. The model measures pre-set reference points, eliminating variation from manual measurement.
With mathematical modelling, it's the algorithms that extract the correct shape or structure from the medical image. This way, the software is not dependant on finding familiar structures or comparing something to reference data.
The method also enables the measuring to be systematic. It is done the same way, always - also when moving from one patient case to another. This makes the results comparable, objective and reproducible.
The software doesn’t mind variations in the anatomy, and it can also work with fractured and unclear areas. The algorithms will know where to go, even when the medical image data is not perfect.
With Disior, you get the data you need – and the way you get it is faster, easier and more accurate.
With mathematical modelling, it's the algorithms that extract the correct shape or structure from the medical image. This way, the software is not dependant on finding familiar structures or comparing something to reference data.
The method also enables the measuring to be systematic. It is done the same way, always - also when moving from one patient case to another. This makes the results comparable, objective and reproducible.
The software doesn’t mind variations in the anatomy, and it can also work with fractured and unclear areas. The algorithms will know where to go, even when the medical image data is not perfect.
With Disior, you get the data you need – and the way you get it is faster, easier and more accurate.