Introduction. Fatty liver disease is the largest contributor to the burden of chronic liver disease worldwide. Current approaches do not allow sufficient differentiation between alcoholic and non-alcoholic etiology of the process.Aim. Create diagnostic panels including electrical and viscoelastic parameters of erythrocytes to differentiate fatty liver disease of alcoholic and non-alcoholic genesis.Materials and methods. The study included 38 men (47.5 ± 2.9 years) with NAFLD; 31 men with alcoholic fatty liver disease (AFLD) (45.1 ± 3.1 years) according to ultrasound of the abdominal organs, the degree of fibrosis did not exceed F1 (FibroScan® 502). Electrical and viscoelastic parameters of erythrocytes were studied by dielectrophoresis using an electro-optical cell detection system. To determine the parameters of erythrocytes – biomarkers for distinguishing between AFLD and NAFLD, a system of machine learning methods – Random Forest was used.Results. Electrical, viscoelastic parameters of erythrocytes, which are biomarkers for distinguishing between AFLD and NAFLD, were established: cell membrane capacity (p = 1.21E-11), the degree of change in the deformation amplitude at a frequency of 5 x 105 Hz (p = 2.38E-08), cell polarizability at a frequency of 106 Hz (p = 9.38E-08), the speed of erythrocyte movement to the electrodes (p = 4.32E-06), the magnitude of the dipole moment (p = 1.66E-05), relative polarizability (p = 2.35E-05), the index of erythrocyte destruction at a frequency of 5 x 105 Hz (p = 0.016), the position of the crossover frequency (p = 2.13E- 06). The diagnostic model, including five parameters – the position of the crossover frequency, cell polarizability at a frequency of 106 Hz, cell electrical conductivity, membrane capacity, the degree of change in the deformation amplitude at a frequency of 5 x 105 Hz, provided the highest diagnostic accuracy with an AUC of 0.975, a sensitivity of 96.3%, and a specificity of 91.8% in differentiating between AFLD and NAFLD.Conclusion. Thus, systematic exposure to alcohol modifies the structure of erythrocyte membranes, leading to a decrease in the surface charge, the barrier function of membranes, reducing the resistance of cells, their ability to deform, which determines the key role of the identified electrical, viscoelastic parameters of erythrocytes in differentiating between AFLD and NAFLD.