RU2135075C1 - Method for evaluating rheographic curves - Google Patents

Abstract

FIELD: medicine. SUBSTANCE: method involves determining maximum amplitude of ascending segment of spatial rheogram, determining its differences with differential rheogram peaks amplitude projections to be related to ascending and descending segments lengths of the differential rheogram. Differences of maximum amplitude projection and differential rheogram peaks amplitude projections are calculated with ratio of maximum and peak amplitude projections taken into consideration. The ratio value being equal to or less than 1, the , ratio of maximum and peak amplitude projections is to be introduced into the resulting difference of amplitude projections. EFFECT: simplified method; enhanced accuracy of quantitative evaluation.

Description

 The invention relates to medicine, namely to functional diagnostics.

 A known method for the quantitative assessment of rheographic curves (see Early instrumental diagnosis of hypertension and atherosclerosis under the editorship of G.I. Sidorenko, Minsk, Belarus, 1973, p. 142-143), including synchronous recording of differential and volume rheograms, determination of the amplitude projections of positive and the negative peaks of the differential curve in the volume rheogram, calculating their ratio to the amplitude projections of two points separated from the peaks of the differential rheogram by a certain time interval, and will continue the proper period of exile.

 The insufficiently high accuracy of this method is due to the calculation of blood flow velocity without taking into account the duration of blood inflow and outflow on a volume rheogram characterizing the features of regional blood flow.

 The disadvantages of this method include the insufficiently high information content and the accuracy of the assessment of randomly selected two points on the differential rheogram, little substantiated to assess the dynamics of regional blood flow.

 A known method for evaluating the parameters of pulse curves, including synchronous recording of volumetric and differential pulse curves, determining the amplitude projections of the peaks, calculating the ratio of the amplitude projections of the peaks to the duration of the time intervals, determining the maximum amplitude of the ascending part of the curve, determining its difference with the amplitude peaks of the differential curve and their relationship to the duration of the ascending and descending sections of the volumetric curve (see Pulse diagnostics of Tibetan medicine, Novosib RSK, Science, pp. 93-98).

 The disadvantages of this known method include the insufficiently high accuracy of the estimation of the pulse curve.

 The widespread use of the evaluation method is hindered by its insufficiently high sensitivity when assessing the dynamics of changes in regional blood circulation in the same patient.

 The technical result of the invention is to improve the accuracy of the method and the expansion of indications for use.

 To do this, the difference in the maximum amplitude of the ascending part of the volume rheogram with the amplitude projections of the peaks of the differential rheogram is determined taking into account the ratio of the maximum and peak amplitude projections and when the value is equal to or less than unity, the value of this indicator is additionally introduced into the result of the difference in the amplitude projections.

 The method is as follows.

 The patient is placed on the couch and after 10 minutes of being in a horizontal position under the conditions of the main exchange, differential and volume rheograms are synchronously recorded. The amplitude projections of the peaks of the differential rheogram are determined. Consistently calculate: the ratio of the amplitude projections of the peaks to the duration of the time intervals of the rheograms, the maximum amplitude of the ascending part of the volume rheogram and its difference with the amplitude projections of the peaks of the differential rheogram, the ratio of the maximum and peak amplitude projections, the ratio of the difference to the duration of the ascending and descending sections of the volume rheogram. When the value of the ratio of the maximum and peak amplitude projections equal to or less than unity, the value of this indicator is additionally introduced into the result of the difference between the maximum and peak amplitude projections.

 If the value of the ratio indicator is less than unity, the input is carried out by: subtraction, summation, multiplication of division, raising to a power. Entering through subtraction, multiplication, division, exponentiation leads to a less significant, as compared to summation, increase in the accuracy of the result. If the value of the ratio indicator is equal to zero, the input is carried out by subtraction or summation. Due to the unambiguous interpretation, which contributes to an increase in the accuracy of the method, in this case, it is preferable to enter by summation.

 Example 1. Patient K., 53 years old. After 10 minutes the patient is in a horizontal position under the conditions of the main exchange, differential and volume limb rheovasograms are simultaneously recorded.

The value of the maximum amplitude projection is 9 mm, the magnitude of the amplitude projection of the positive peak of the differential rheogram is 7 mm, and the negative peak is 10 mm. Duration of anacrot (ascending section) 0.12 s. The duration of the catacrot is 0.33 s. According to the claims, the ratio of the difference between the maximum and peak amplitude projections to the duration of the ascending and descending sections of the volume rheogram is calculated, which corresponds to the rate of blood inflow and outflow in the study area. Inflow rate = (9-7) / 0.12 = 2 / 0.12 = 16.66 conv. Outflow rate = (9-10) / 0.33 = -3.0 conv. units Since the ratio of the maximum and negative peak projection is less than unity (9/10), the result of the difference between the maximum and negative peak amplitude projection needs to be corrected by entering the ratio indicator (9/10 = 0.9):
summation; outflow rate = (9-10 + 0.9) / 0.33 = -0.3 srvc subtraction; outflow rate = (9-10 = 0.9) / 0.33 = -5.75 srvc division; outflow rate = (9-10) / 0.9 / 0.33 = -3.37 conv. units multiplication; outflow rate = (9-10) • 0.9 / 0.33 = -2.72 conv. ed exponentiation; outflow rate = / (9-10) / ^0.9 / 0.33 = -3.0 srvc During correction by division, the resulting negative value differs little from that obtained without correction. Input by subtraction increases the negative result, complicates the unambiguity of the interpretation, and accordingly reduces the accuracy of the conclusion. Entering by exponentiation and multiplication does not significantly reduce the total negative result. Input by summing by an order of magnitude reduces the negative value of the result and, accordingly, an order of magnitude increases the accuracy of calculation and the unambiguity of interpretation.

 Example 2. Example 1. Ms. B., 57 years old. After 10 minutes the patient is in a horizontal position under the conditions of the main exchange, differential and volume limb rheovasograms are simultaneously recorded.

The value of the maximum amplitude projection is 9 mm, the magnitude of the amplitude projection of the positive peak of the differential rheogram is 9 mm, the negative peak is 8 mm, the duration of the anacrot (ascending section) is 0.2 s. The duration of the catacrot is 0.23 s. According to the claims, the ratio of the difference between the maximum and peak amplitude projections to the duration of the ascending and descending sections of the volume rheogram is calculated, which corresponds to the rate of blood inflow and outflow in the study area. Inflow rate = (9-9) / 0.2 = 0 srvc Outflow rate = (9-8) / 0.23 = 4.35 conv. units Since the ratio of the maximum and positive peak amplitude projection is equal to unity (9/9 = 1), the result of the difference between the maximum and positive peak amplitude projection needs to be corrected by entering the ratio indicator 1:
summation; inflow rate = (9-9 + 1) / 0.2 = 5.0 srvc subtraction; inflow rate = (9-9-1) / 0.2 = -5.0 srvc division; inflow rate = (9-9) / 1 / 0.2 = 0 srvc multiplication; inflow rate = (9-9) • 1 / 0.2 = 0 srvc exponentiation; inflow rate = (9-9 ¹ / 0.2 = 0 srvc. When correcting by dividing, multiplying, raising to a power, the resulting zero value differs little from that obtained without correction. Entering by subtraction gives a negative result, which makes interpretation unambiguous and, accordingly, it reduces the accuracy of the conclusion. Entering by summing gives a positive value of the result, increases the accuracy of calculation and gives unambiguous interpretation.

 From an analysis of the data presented, we can conclude that the proposed estimation method is more accurate 2.5-3 times in comparison with the known one, carried out without correction of the result of the difference between the maximum and peak (positive or negative) amplitude projection, especially in conditions of carrying out the functional load of the sample with reactive hyperemia, which allows to identify and evaluate the functional state of regional blood circulation.

Claims (1)

 A method for evaluating rheographic curves, including synchronous recording of volumetric and differential rheograms, determining the amplitude projections of the peaks, calculating the ratio of the amplitude projections of the peaks to the duration of the time intervals of the rheograms, determining the maximum amplitude of the ascending part of the volumetric rheogram and its difference with the amplitude projections of the peaks of the differential rheogram, the ratio of the difference to the duration ascending and descending sections of the volume rheogram, characterized in that the determination of the difference maximum amplitudes ascending part rheogram volume with amplitude peaks of differential projections rheogram performed based index ratio of the maximum peak amplitude and projections and when the index value equal to or less than unity, as the result of the difference in amplitude of the projections is further added value of this index.