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PureMedSim Technology is a rapidly growing company, focused exclusively on development of highly technological medical simulators and systems.

Essentially new methods, models and technologies that have no analogues in the world are used for this purpose.

It had long been believed that the task of making a fully functioning digital model of a human organism was too tough to ever be accomplished. Students, educators and researchers had to deal with numerous mathematical models unable to describe and simulate physiological processes in their complex interaction.   

More than a decade ago we decided to venture a little way past the limits of the possible into a challenging project of creating a digital model of a cell. Four years of hard work and enormous effort from scientists and programmers were crowned with success and on we went – building organs, systems of organs and – an organism as a whole.

And now we have a principally new system, a system of the industry’s future, enabling us to bring medical simulation to a much higher level and change the approach to medical education and practice as such.

Our simulation technology is unique and as close as possible to real processes taking place in the human organism. It is built in accordance with the ’from bottom to top‘principle: cells – organs – systems – organism. In its basis lies construction of organs and maintenance of their systems, such as hemodynamic, metabolism, breathing, feeding, excretion, etc. Organs are built from working cells and stroma (skeleton). Working cells are filled with cytoplasm, where biochemical transformations occur with substances coming from the blood, as food matters enter the blood flow from the gastrointestinal tract, etc. All processes are described by well-known laws, easy for perception and interpretation.

Our technology serves as a background for various high technical education systems in theoretical and practical medicine, high quality training systems and many other systems. Medical simulators based on this technology differ significantly from other simulators and can be used in education, clinical practice and research. With the help of these simulators, doctors will be able to accurately predict the treatment outcome for a concrete patient and introduce some changes by choosing appropriate treatment. This opens virtually unlimited prospects for application of similar systems.