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Information × Registration Number 0225U003503, (0124U003911) , R & D reports Title Methodology of the simulation modeling of stress-strain behavior and destruction of composite structures of the human biomechanical systems popup.stage_title Методологія імітаційного моделювання напружено-деформованого стану та руйнування композитних структур біомеханічних систем людини Head Kondratiev Andrii V., Доктор технічних наук Registration Date 04-07-2025 Organization Kondratiev Andrii V. popup.description1 to develop the effective computer-integrated technology for establishing the individual patterns of behavior of biological tissues and restoration structures of the human biomechanical systems in the normal condition and in case of pathological changes, based on the simulation modeling. It will allow to predict the effect of treatment on these systems and to issue practical recommendations for planning of the appropriate rehabilitation procedures popup.description2 Object of the study – biological tissues and reconstructive structures of human biomechanical systems. Aim of the study – to develop an effective computer-integrated technology for identifying individual patterns of behavior in biological tissues and reconstructive structures of human biomechanical systems under normal and pathological conditions, based on simulation modeling. This will enable the prediction of treatment outcomes and the formulation of practical recommendations for planning appropriate rehabilitation procedures. Research methods and equipment – finite element method, personalized biomechanical modeling, computed tomography, computational and physical experiments. A novel preventive and prognostic approach to personalized medicine at the level of human biological tissues is proposed, based on mechanical-mathematical and computational-analytical biomechanical models. New effective methods for constructing digital models of various human biomechanical systems have been developed, and the dominant biomechanical factors have been identified, allowing for the avoidance of mechanical overload of biological tissues and the reduction of complications during treatment and rehabilitation. An important advantage of the proposed approach to solving the problem of rapid patient recovery is the ability to account for individual mechanical properties of biological tissues. The results can be used in medical institutions for preoperative planning, as well as in the development of new designs for reconstructive elements. Fields of application – medical bioengineering, biomechanics, reconstructive surgery, traumatology, orthopedics, maxillofacial surgery, orthodontic and prosthetic dentistry. This work is of significant importance for the advancement of personalized medicine and the improvement of healthcare quality under limited-resource conditions during wartime. Biomechanics, modeling, composite, biological tissue, reconstruction, implants, finite element analysis Product Description popup.authors popup.nrat_date 2025-07-04 Close