Minsk, Belarus
5.8.5
5.8.6
5.8.7
5.2.2
1.1.10
1.2.1
1.2.2
1.2.3
1.5.5
2.2.11
2.2.12
2.3.1
2.3.4
2.3.8
57
577.359
004
796
796/799
28.23
28.17
28.01
77.05
77.29
77.31
80.37
20.53
20.01
50.33
50.41
30.51
02.04.01
02.06.01
31.08.39
49.02.01
49.06.01
12.02.06
75
6539
73
606
2352
4614
4618
4612
2301
3015
5106
518
5182
5185
762
7623
COM059000
COM012000
COM014000
COM072000
COM017000
COM062000
COM018000
COM021030
COM071000
COM023000
COM025000
COM074000
COM032000
COM077000
BUS021000
GAM001000
GAM016000
GAM004050
EDU039000
EDU036000
EDU037000
EDU027000
MED084000
MED078000
MED076000
HEA046000
HEA006000
HEA034000
HEA002000
HEA017000
HEA007000
HEA010000
HEA038000
MAT011000
MAT029030
MAT025000
SPO003000
SPO068000
SPO077000
SPO061020
SPO061030
SPO011000
SPO063000
SPO073000
SPO015000
SPO016000
SPO075000
SPO024000
SPO040000
SPO066000
SPO047000
SPO051000
PSY012000
PSY042000
The purpose of the study was to develop a methodology for evaluating the oxygen transport function of erythrocytes of athletes using conventional equipment based on a routine class microscope. The optical profile of the cell was constructed, the adaptive changes of erythron to high-altitude hypoxia were evaluated with the calculation of the characteristics of the torus and pallor, and satisfactory data on the diagnosis of overloading were obtained. It was found that the height of the torus and the length of the pall are crucial for monitoring the condition of an athlete during the season.
erythrocytes, microscopy, digital image
1. Zhukotsky A.V. Computer television morphodensitometry of normal and pathological structures of cells and tissues. Doctoral thesis. M., 1992. - 496 p (in Russian).
2. Kogan E.M., Zhukotsky A.V., Govorun V.M., Momynaliev K.T., Potapov I.A. et al. The use of computer morphodensitometry in modern molecular diagnostic practice. Voprosy medicinskoj himii [Questions of Medical Chemistry], 1998, Vol. 44, No 6, pp. 527-536 (in Russian).