RU2017144C1 - Method of testing moving blood - Google Patents

Abstract

FIELD: surgical operations. SUBSTANCE: blood is passed through strong magnetic field and two detectors, disposed at some distance one relatively the other. Gemacrite number is determined from the relation of amplitudes, indicated by the first and the second detectors accounting with calibration curve. EFFECT: improved efficiency. 2 dwg

Description

 The invention relates to measuring equipment, namely to medical instrumentation, and can be used in surgical operations where it is necessary to provide constant monitoring of the hematocrit blood count.

 A known method for determining the hematocrit number of blood by recording the NMR signal of protons. In this method, a blood sample placed in an NMR sensor located in a strong magnetic field is exposed to a pulse that rotates the nuclear magnetization by π, then it is exposed to a pulse that rotates the nuclear magnetization by π / 2, then a pulse that rotates the magnetization by π, after which NMR signal. The hematocrit value is determined from the amplitude of this signal A.

 However, this method does not allow to examine the blood flowing along the highway, since the movement of blood in the NMR sensor greatly affects the amplitude of signal A.

 A known method of researching a moving fluid flow by NMR. In this method, the fluid flow is sequentially passed through a strong magnetic field and two NMR sensors, the amplitudes of the NMR signals are recorded in both sensors, and the relaxation time of the liquid is judged with respect to these amplitudes. The method does not allow to determine the hematocrit number.

 The aim of the invention is the ability to measure hematocrit circulating blood number.

 Blood is polarized by a strong magnetic field and the signal amplitudes are measured by two successive sensors. In this case, the polarization of blood and registration of NMR signals is carried out in the field of one magnet. Additionally, the time of blood flow between the sensors is measured and the hematocrit value is found from the calibration curve.

 Figure 1 shows the installation diagram for implementing the method; figure 2 - calibration dependence for a given flow rate.

A strong magnetic field with induction B ₁ and a weak magnetic field with induction B ₂ are created by magnet 1, into the interpolar space of which the main pipeline 2 is inserted, which is part of the extracorporeal circuit. Coils 3 and 4 are fixed on the walls of the channel into which the pipeline is inserted. The coil 3 is recorded signal amplitude A _1, the coil 4 - signal amplitude A _2. The extracorporeal contour is a veno-venous shunt superimposed on the vessels of the dog's thigh.

, где V - объем трубопровода между двумя датчиками. Зная отношение амплитуд

по градуировочному графику фиг.2 для данного расхода определяется гематокритовое число крови. Погрешность измерения в пределах 5%.Blood circulating in the extracorporeal circuit is passed through a pipe embedded in the device’s magnetic system. Blood flow Q = 6 ml / s. When passing through the first NMR sensor, the amplitude A ₁ is recorded, when passing through the 2nd sensor, the amplitude A ₂ is recorded through the time interval τ =

where V is the volume of the pipeline between the two sensors. Knowing the ratio of amplitudes

according to the calibration graph of figure 2 for a given flow rate determined by the hematocrit number of blood. Measurement error within 5%.

 Thus, the method allows you to measure the hematocrit number of moving blood.

Claims (1)

 METHOD FOR STUDYING MOVING BLOOD BY THE NMR METHOD by polarizing it with a strong magnetic field and measuring the signal amplitudes with two sequentially arranged sensors, characterized in that the blood is polarized and the NMR signals are recorded in the field of one magnet, the blood flow time between the sensors is measured, and the number of hematrics is found from the calibration curve .

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