Calculation of the intracellular elastic modulus based on an atomic force microscope micro-cutting system

Изучение механических свойств мембран эритроцитов -острая проблема в практической реаниматоло-гии и реабилитологии, так как способность эритроцитов деформироваться определяет возможность их про-хождения через капиллярную сеть и реологию крови в целом.Цель работы: исследование процесса нелинейной деформации мембран нормальных эритроцитов. Материалы и методы. Методом атомно-силовой спектроскопии исследовали локальную жесткость мембран эритроцитов: дискоцитов -на торе и на впадине, планоцитов -на поверхности клетки.Результаты. Процесс нелинейной деформации описывали функциями h(z), h/ z (h) и μ(h). Этот набор функций полно описывает процесс идентации (погружения) зонда в мембраны. Показали, что пошаговые зави-симости коэффициента жесткости участков мембран существенно различаются и зависят от ее состояния.Заключение. Предложенный подход может быть использован при проведении фундаментальных и кли-нических исследований свойств клеток крови в норме и при различных заболеваниях. Особенно эффектив-ным метод регистрации нелинейных деформаций может быть в практике реаниматологии и реабилитологии. Ключевые слова: мембраны эритроцитов; нелинейная деформация; атомно-силовая спектроскопия; кине-тика погружения зондаInvestigation of mechanical properties of erythrocyte membranes is a pressing issue in practical reanimatology and rehabilitation, because erythrocyte's ability to deform determines the possibility of their passage through capillary network and blood rheology in general.The purpose of the work: to study the process of nonlinear deformation of membranes of normal erythrocytes by the method of atomic force spectroscopy.Materials and Methods. The local stiffness of erythrocyte membranes was studied: that of diskocytes -on the torus and on the depression, that of planocytes -on the cell surface. Аtomic force spectroscopy was used for cell membrane study.Results. The nonlinear deformation process was described by functions h(z), h/ z (h), and μ(h). This set of functions describes in full the process of probe incorporation (submergence) into membranes. It has been shown that stepwise dependencies of the stiffness coefficient of membrane segments differ significantly and depend on its condition.Conclusion. The suggested approach may be used in fundamental and clinical studies of blood cells' properties in the norm and different diseases. The method of recording nonlinear deformations may be especially efficient in the reanimatology and rehabilitation practice.

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Calculation of the intracellular elastic modulus based on an atomic force microscope micro-cutting system

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References 15 publications

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Biomathematical model for simulating abnormal orifice patterns in colonic crypts

Nonlinear Local Deformations of Erythrocyte Membranes: Normal Erythrocytes (Part 1)

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