Biomedical Engineering

Advanced information technologies allow improving the health care system at the all stages: from the providing of the biological researches to the direct provision of health services.

Given the common effort of biologists, physicians and IT professionals the new computer models of biological structures were introduced (modeling in biomedical engineering) that allowed expansion of medical researches, new techniques, clinical systems and devices for the direct treatment and control of the surgical operations and conditions of the patient.

Polyteco provides professional medical software services and product development in various specializations, particularly in the field of biomedical and clinical science as a part of life sciences.


Using the powerful computing resources, advanced technologies and the sample number numerous algorithms, storage, analysis, and rapid transmission of large amounts of information we significantly improve the quality of research and medical care, and reduce the cost.

Polyteco experts develop and implement software tools (including web-applications) for stationary and mobile platforms, and further maintain them.

Under the development of software products, our specialists take into account all regulatory requirements and features inherent to the biomedical field.


The original flexible and integrated software tools allow:

• providing automated process management;
• ensuring information storage and archiving;
• ensuring the integration of information systems (EMR, HIS, PACS, etc.) and laboratory- diagnostic equipment;
• conducting continuous data monitoring and processing;
• mathematical modeling of systems and processes (deterministic, stochastic, nonlinear dynamic models, such as cellular automatic models);
• biomedical data processing methods (statistical methods, short-term and long-term forecasting, the identification of empirical regularities, pattern recognition, etc.);
• mathematical (statistical) support for clinical trials and clinical studies of medicines, drugs and multicenter drug studies, etc.;

• modeling and mathematical description using methods of nonlinear dynamics/synergetics (computational biology, genomics, epigenomics, proteomics, etc.);
• processing and synthesis of 3D and 4D images (data of CT, MRI, ultrasound).


Description in larger blocks:

• statistical methods;

• biomedical signals processing;

• communication, information and control systems in medicine;

• digital image processing and computer graphics.


Our medical R&D solutions will increase the efficiency and the quality of the business.