SU526092A1 - Method for measuring blood flow velocity - Google Patents

Description

one

This invention relates to medicine.

There is a known method for measuring the blood flow rate, which involves passing a radiopaque mark into the vessel, followed by x-ray and measuring the distance traveled by the radiopaque mark in a time equal to the duration of the cardiac cycle, using two x-ray image frames. The final result is determined by calculation.

In order to increase accuracy and simplify measurements, it is proposed to introduce an additional radiopaque mark after insertion of the first mark at a time, for example, equal to the duration of the cardiac cycle, followed by measuring the distance between two radiopaque metrics of KatviH on one frame.

The method for measuring the blood flow rate is carried out as follows.

The patient is located on a special x-ray table. Under fluoroscopic control, the leg p is inserted into the vessel being investigated (or adjacent). The free end of the catheter is connected to a high pressure pulse injector filled with a radiopaque substance. An injector, for example, of the type ConitOic of Siemens, known in the USSR, is equipped with a software device allowing for the repeated administration of a radiopaque substance with a different injection rate in each injection. The radiopaque substance is inserted from the P wave of the electrocardiogram taken from the patient.

Claims (1)

The first portion of the radiopaque substance with the rate of administration of O is introduced into the vessel from the R wave of the electrocardiogram. The boundary of the blood-radiopaque media medium forms the first radiopaque mark in the vessel with the concentration of the contrast agent S., which moves through the vessel with the blood flow. At the moment of time corresponding to the next tooth and the second portion of the radiopaque substance is administered at the rate of injection with J a, the concentration of the radiopaque substance increases (or decreases depending on the ratio between the magnitude) to the value of our system Qg f at the boundary of media with the concentration of radiopaque substances C. and A second radiopaque label is given with cos. The time interval between two labels is T (,, which is necessary to determine the volumetric flow rate by the formula: a is the correction factor; T is the duration of the cardiac cycle, for example, by electrocardiogram. The flow of radiopaque marks through the vessel is recorded by continuous shooting , filming or videotape recording. The distance traveled by the radiopaque mark of the flux during the cardiac cycle, 5 (, d, is determined by the frame on which two radiopaque flow marks, and equal to the distance between these two marks. The time interval is determined by the electrocardiogram recorded by the physiological parameters recording device, which makes it possible to determine this interval with a leakage of no more than 0.02 sec. - a large error in determining the time interval - and the procedure for measuring distance 5 is simplified. For all types of X-ray diffraction. Since the X-ray contrast marks move with a large instantaneous velocity V (i) during the systolic phase of cardiac activity, on the frame corresponding to the systolic phase of the heart activity, the front of the X-ray contrast marks becomes blurred. So, for example, with a radiation pulse of 0.01 sec (the Tridoros generator of the Siemens anti-episode) and with a linear systolic velocity in the aorta of about 10 cm / sec, the abrupt x-ray of the radiopaque substance is diffused to 1 cm in width during radiography; phase 5 (, q, approximately 10 cm, can lead to a 10% error in determining the volumetric blood flow velocity. In the frame corresponding to the diastolic phase of cardiac activity, when the magnitude of the instantaneous blood flow velocity, V (t) is close to zero As you can see from the described method, a vessel with a length Sj is required, without branches. When measuring the volumetric flow rate in a short vessel and below or above the flow of an adjacent long vessel without branches, a measurement in a short vessel can be reduced to the measurement of instantaneous velocities in these two vessels and the volumetric flow rate in a long vessel: where V ,, and Q are, respectively, instantaneous linear and volumetric flow rates in a short vessel; And 1 FOR, respectively, instantaneous linear and volumetric blood flow velocity in a long vessel; d And D are the diameters of the short and long vessels, respectively. Here, the instantaneous velocities of the blood flow are determined according to the old method by determining the distance traveled by the radiopaque marks on the two adjacent frames of the x-ray image. and the volumetric blood flow velocity Q is determined by the proposed method. The invention The method of measuring the volumetric flow velocity by introducing a radiopaque mark into the vessel, radiographic control of its progress and determining the distance traveled by the mark during a time equal to the duration of the cardiac cycle, increase the accuracy and simplify the measurement, an additional X-ray contrast mark is inserted into the vessel after the introduction of the first mark, and the measurement of the distance between the two radiopaque and marks are produced on one frame.