SU1518756A1 - Method of determining specific resistance of cytoplasm of erythrocytes - Google Patents

Abstract

The invention relates to the field of biology and medicine and can be used to study the physicochemical properties of the cytoplasm of erythrocytes. The aim of the invention is to simplify the method for measuring the resistivity of the cytoplasm of erythrocytes. The suspension of erythrocytes is treated with surfactants - heparin, which increase the conductivity of the erythrocyte membrane to values close to the conductivity of the cytoplasm. The volume of erythrocytes is measured by the conductometric method before and after processing, and the specific resistance of the cytoplasm is determined by the formula ρ _C = ρ ₀ (1 ++ F / (M-1)), where ρ ₀ is the specific resistance of the solution for preparing the erythrocyte suspension

F - form factor

M = ΔR ₀ / ΔR _I - RELATION OF AVERAGE VALUES OF ELECTRICAL VOLUMES ΔR ₀ , _I IN THE PRESENCE OF HEPARIN AND WITHOUT IT.

Description

This invention relates to biology and medicine, in particular the measurement of the conductivity of biological materials.

The purpose of the invention is to simplify the measurements.

This goal is achieved by the fact that the cells treat the surface-active substance (heparin) in concentrations, increase (cix the membrane conductivity of the studied cells to values ρ close to the conductivity value of the cell cytoplasm, the measurement of cell volume is repeated once more, and the average value of the specific resistance of the cytoplasm cells is determined by the formula

RS-RO (1

t-1

)

(one)

where pp is the resistivity of the solution for preparing a cell suspension; f is the cell shape factor, m ARo / aRi is the ratio of average or modal values of changes in the resistance of the conductometric sensor (so called responses) when cells enter the channel of the sensor, proportional to cell volumes, in the absence and in the presence of surface active substances. In case parameter m is defined as

 ii: Vc R. f, Vo

cl

00

 cl

Od

m

This can take into account changes in V volumes and cell shape in the presence of surfactants, which must be determined independently, for example by a microscopic method.

The contribution of the conductivity of the cell membrane to the response of a conductometric sensor in the case of its presentation as a cell of a heterogeneous medium can be taken into account by replacing the effective resistance of the RC cell cell by O. + p, „-, At

I f a

This sensor response will be as follows:

 f.

fPo

V

-TG (2)

PC tpn .-- 20

where (R is the change in the resistance of the sensor P when the cell enters the sensor channel (electrical volume of the cell), I / and V are the volumes of the cell and channel of the sensor, Pt, p and pp are the specific resistances of the cytoplasm of the cell, its membrane and buffer solution , f is the cell shape factor, and is the effective radius of the cell (for a sphere, simply its radius), 1 is the thickness of the cell membrane

) .:

A change in the response of a conductometric sensor in the event that the cell volume and shape remain unchanged will be due to a change in the conductivity of the cell membrane, since the resistivity of the cytoplasm of the cell is less than the resistance of the membrane

one

Control of cell volume and shape in the presence of surfactants can be performed using the eye method.

microscopy or microphotography.

Example. Heparin is added to a suspension of human erythrocytes at a concentration of 0.3 mg / ml, the resistance of the suspension is measured using a conductometer, and it is reduced after the addition of heparin by half. The calculation is made according to the formula (2) and it is established that the conductivity of the erythrocyte membrane increases in the presence of heparin by more than

Q

five

0

five

0

0

five

Q with

70 times. In the calculations, the form factor of erythrocytes is assumed to be f 1.3, and the resistivity of the solution is p 80 Ω-cm and suggest that FG is ro.

An estimate of the erythrocyte cytoplasmic resistivity can be obtained according to formula (1), while it is 0 210 ohm-cm. For the erythrocyte cytoplasm resistivity, a value of 0 220 ohm-cm is known, which is consistent with our data.

The positive effect of the proposed method for measuring the conductivity of the cytoplasm of cells is confirmed by the fact that it allows measurements on commercially available Coulter-type equipment, for example, on the Laborscale analyzer of the Hungarian company Medicor.

Claims (1)

Invention Formula The method for determining the resistivity of the cytoplasm of erythrocytes, including the preparation of suspensions, measuring cell volumes by conductometry, using the method that differs from, to simplify measurements, increases the conductivity of erythrocyte membranes by heparin to values close to that of cytoplasm The resistivity of the solution for preparing the suspension is determined, the cell shape factor is determined, the ratio of the average values of the electrical cell volumes before and after treatment is determined, and the mean ix resistivity of the cytoplasm are determined by the formula  (one where Qf - average cytoplasmic resistivity; Pb is the resistivity of the solution for preparing the suspension f - cell shape factor; / 4Rj - average ratio values of electric volumes DKO. i- in the presence of heparin and its presence.