Abstract
Currently the diseases of heart and vessels are the primary cause of disability and mortality. Recent understanding of myocardial angioarchitectonics does not reveal fully the relation of coronary anatomy with their function related to their aim for sufficient blood supply in coronary system at tissue level. Filtration liquid currents in non-homogenic porous mediums are widely spread in nature and technology and highly attractable for researches. Also, there is broadly discussed filtration in multilayered non-homogenic grounds. Myocard and its vessels can be represented as the model of porous medium, towards which the hydrodynamic laws can be applied, that are in use for liquid perfusion assessement in porous mediums perfusion. This has never been applied to circulation of a human organs and tissues. The direction is presented for collaboration of physicians and physicshydrodynamicians to obtain results for better assessment of vascular organization net and hydrodynamical circumstances of the heart circulation, which might further lead to universalized criteria for reference ranges definition and myocardium perfusion levels of disorder; to objectify pathogenetic approaches to cardiovascular patients treatment.
Highlights
Recent understanding of myocardial angioarchitectonics does not reveal fully the relation of coronary anatomy with their function related to their aim for sufficient blood supply in coronary system at tissue level
Filtration liquid currents in non-homogenic porous mediums are widely spread in nature and technology and highly attractable for researches
Myocard and its vessels can be represented as the model of porous medium, towards which the hydrodynamic laws can be applied, that are in use for liquid perfusion assessement in porous mediums perfusion
Summary
The direction is presented for collaboration of physicians and physicshydrodynamicians to obtain results for better assessment of vascular organization net and hydrodynamical circumstances of the heart circulation, which might further lead to universalized criteria for reference ranges definition and myocardium perfusion levels of disorder; to objectify pathogenetic approaches to cardiovascular patients treatment. Что для объективной оценки гемодинамики по сосудис той системе сердца и описания законов перфузии необходимо использовать гидродинамические основы физико-математической модели кровоснабжения миокарда.
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