RU2657969C1 - Method for predicting increased arterial pressure at synchronization and desynchronization of patient biorhythms - Google Patents

Abstract

FIELD: medicine.

SUBSTANCE: invention relates to medicine, namely normal and pathological human physiology, and can be used to determine the onset of an increase in blood pressure during synchronization and desynchronization of blood pressure fluctuation biorhythm (BPFB). Determine the chronotype and subspecies of the chronotype by assigning a scoring score for the Chronotypes Test. Depending on the score obtained, the chronotype is defined as "lark+", "lark-", "owl-" or "owl+". Determine the synchronization or desynchronization of the patient's biorhythms. For the "lark+" chronotype, the beginning of the BP increase in 4–6 hours with synchronized biorhythms and in 18–20 hours with desynchronization is predicted. For the chronotype "lark-" predict the beginning of an increase in blood pressure in 7–9 hours with synchronized biorhythms and at 20–22 hours with desynchronization. For the chronotype "owl+" predict the beginning of an increase in blood pressure in 0–2 hours with synchronized biorhythms and in 10–12 hours with desynchronization. For the chronotype "owl-" predict the beginning of an increase in blood pressure in 20–22 hours with synchronized biorhythms and in 4-6 hours with desynchronization.

EFFECT: method allows you to quickly determine the synchronization or desynchronization of biorhythms in patients with AH, which makes it possible to predict the beginning of an elevation of AP in due time to identify the risk of complications due to the determination of the chronotype and subspecies of the chronotyp, and synchronization or desynchronization of the patient's biorhythms.

1 cl, 2 tbl, 8 ex

Description

The invention relates to medicine, namely to normal and pathological human physiology, and can be used to determine the beginning of an increase in blood pressure (BP) during synchronization and desynchronization of the biorhythm of blood pressure fluctuations (BKAD), and is also used to determine the best time when taking preventive measures after a pathological increase in blood pressure.

Known methods for determining the circadian rhythm of fluctuations in human blood pressure - daily monitoring of blood pressure (BPM). Daily monitoring of blood pressure is a diagnostic technique based on long hours, daily, sometimes longer monitoring in a discrete mode of blood pressure and heart rate (HR), allowing you to judge the average and average blood pressure values for any period of time, its daily profile, episodes of a critical increase or decrease in hemodynamic parameters (Kobalava Zh.D., Kotovskaya Yu.A., Hirmanov V.N. Blood pressure in research and clinical practice ike. - 1st ed. - M., Reapharm, 2004 .-- 384 p.).

The known method has the following disadvantages:

- the differences that can be observed in the values of the average daily blood pressure parameters obtained during BPM and the values recorded during routine BP measurements create problems in the interpretation of the BPM data obtained and make it difficult to diagnose arterial hypertension (AH) and the use of generally accepted gradations of severity of hypertension based on the results ordinary measurements.

- in a number of patients it is impossible to achieve satisfactory results of ABPM due to anatomical features (obesity, excessive development of the brachial muscles, deep artery bed), due to cardiac arrhythmias (atrial fibrillation, frequent asystole), inadequate qualifications of medical workers, and violation of the measurement mode AD by patients due to difficult conditions.

- SMAD may not always be available due to the high price of equipment and examination methods.

The objective of the invention is to provide a simpler, less expensive and generally accessible method for predicting the onset of an increase and determining the rhythm of blood pressure fluctuations when it is impossible to conduct BPM in an outpatient setting.

The task is carried out by determining the chronotypes and the state of synchronization and desynchronization of patients (Stepanova S.I. Biorhythmological aspects of the problem of adaptation. - M .: Nauka, 1986. - P. 201-208; Novitsky I.A., Motov I.V. , Manchuk VT Method for the diagnosis of desynchronosis in hypertension Patent of the Russian Federation No. 2452365, 06/10/2012, Bull. No. 16). For this, 2 chronotypes and 2 subspecies of each chronotype are distinguished, depending on the severity (Table 1). The chronotype “early bird +” is 10-15 points, the chronotype “early bird” is 16-24 points, the chronotype “owl” is 25-34 points, the chronotype is “owl +” 35-40 points. Attitude to a particular chronotype is determined not only by the periods of a person’s sleep and wakefulness at one time or another, but also by general psychosomatic activity. From this it follows that fluctuations in blood pressure, depending on the chronotype, will be observed at different times. So, in individuals with the lark chronotype, blood pressure rises in the morning and decreases in the evening, in individuals with the owl chronotype the opposite picture is observed, which is synchronized with the rhythm of their brain and physical activity.

For various reasons, such as psycho-emotional stress, closed traumatic brain injury (CCT), smoking, etc., there is a desynchronization of the processes of regulation of brain activity and mechanisms for increasing blood pressure, which contributes to an increase in blood pressure at the time of low activity and a narrowing of the microvasculature . So, in individuals with the lark chronotype, hypertensive crises are characteristic in the evening and at night, while in individuals with the owl chronotype, in the morning and afternoon.

To solve the above problem, 40 patients were examined, 20 of them, according to a survey to determine the synchronism of blood pressure fluctuations and psychosomatic activity, desynchronization was detected, and 20 people showed a synchronous rhythm of blood pressure and psychosomatic activity fluctuations. Chronotypes of the examined patients were determined using a test. According to the results of this test, the time to start the increase in blood pressure was determined. To confirm this technique, the subjects simultaneously with the determination of chronotypes and synchronism of blood pressure fluctuations were assigned a three-time BPM.

The method is as follows. Using the test to determine chronotypes, a method for diagnosing desynchronosis and anamnestic data, the chronotype and subspecies of the chronotype of the patient under normal and desynchronosis are determined, which allows you to determine the start time of the physiological and pathological increase in blood pressure, with an error of ± 60 minutes (Table 2). The “early bird +” chronotype is characterized by the onset of an increase in blood pressure at 4–6 hours normal and at 18–20 hours with desynchronization. The “Lark-” chronotype is characterized by the onset of an increase in blood pressure at 7–9 hours normal and at 20–22 hours during desynchronization. The “owl +” chronotype is characterized by the onset of an increase in blood pressure at 0-2 hours normal and at 10-12 hours with desynchronization. The “ow-” chronotype is characterized by the onset of an increase in blood pressure at 20-22 hours normal and at 4-6 hours with desynchronization.

Examples.

1. Patient 1, 49 years old, chronotype “early bird +” (12 points), synchronized. The predicted time to increase blood pressure by chronotyping is from 4.00 to 6.00. Smad 1: the beginning of the increase in blood pressure at 4.45. ABPM 2: the beginning of the increase in blood pressure at 5.15. Smad 3: the beginning of the increase in blood pressure at 5.00.

2. Patient 2, 43 years old, chronotype “Lark-” (18 points), synchronized. The predicted time to increase blood pressure by chronotyping is from 7.00 to 9.00. Smad 1: the beginning of the increase in blood pressure at 7.30. SMAD 2: the beginning of the increase in blood pressure at 7.45. Smad 3: the beginning of the increase in blood pressure at 8.15.

3. Patient 3, 27 years old, chronotype “owl +” (38 points), synchronized. The predicted time to increase blood pressure by chronotyping is from 0.00 to 2.00. ABPM 1: beginning of an increase in blood pressure at 0.30. Smad 2: the beginning of the increase in blood pressure at 1.45. Smad 3: the beginning of the increase in blood pressure at 1.30.

4. Patient 4, 34 years old, chronotype “ow-” (30 points), synchronized. The predicted time to increase blood pressure by chronotyping is from 20.00 to 22.00. Smad 1: the beginning of the increase in blood pressure at 20.15. Smad 2: the beginning of the increase in blood pressure at 20.45. Smad 3: the beginning of the increase in blood pressure at 21.30.

5. Patient 5, 58 years old, chronotype “early bird +” (14 points), desynchronized. The predicted time to increase blood pressure by chronotyping is from 18.00 to 20.00. Smad 1: the beginning of the increase in blood pressure at 18.30. Smad 2: the beginning of the increase in blood pressure at 18.15. Smad 3: the beginning of the increase in blood pressure at 19.00.

6. Patient 6, 56 years old, chronotype “Lark-” (16 points), desynchronized. The predicted time to increase blood pressure by chronotyping is from 20.00 to 22.00. Smad 1: the beginning of the increase in blood pressure at 21.30. Smad 2: the beginning of the increase in blood pressure at 20.15. Smad 3: the beginning of the increase in blood pressure at 21.45.

7. Patient 7, 24 years old, chronotype “owl +” (40 points), desynchronized. The predicted time to increase blood pressure by chronotyping is from 9.00 to 11.00. Smad 1: the beginning of the increase in blood pressure at 10.15. SMAD 2: the beginning of the increase in blood pressure at 10.00. Smad 3: the beginning of the increase in blood pressure at 10.45.

8. Patient 8, 48 years old, chronotype “ow-” (32 points), desynchronized. The predicted time to increase blood pressure by chronotyping is from 4.00 to 6.00. SMAD 1: beginning of the increase in blood pressure at 5.45. Smad 2: the beginning of the increase in blood pressure at 4.30. SMAD 3: the beginning of the increase in blood pressure at 4.30.

The results of triple daily monitoring of blood pressure confirmed the accuracy of determining the time to increase blood pressure by chronotyping in 93.8% of cases, with synchronization and 71.2% of cases with desynchronization (P≤0.05).

The technical result of the method.

- the ability to quickly conduct a survey among a large group of subjects (time to answer questions is 5 minutes);

- the presence of an optimal number of questions objectively taking into account manifestations of asthenic syndrome;

Using the claimed method allows you to quickly determine the synchronization or desynchronization of biorhythms in patients with hypertension, which makes it possible to predict the onset of an increase in blood pressure in a timely manner. At the same time, due to the prevention of a rise in blood pressure, the risk of complications (acute myocardial infarction, acute cerebrovascular accident) and the cost of treatment in patients with hypertension will decrease, the volume of drug therapy will decrease, and the risk of side effects will decrease, which ultimately will improve the general condition of the patient.

Claims (1)

A method for predicting a rise in blood pressure (BP) during synchronization and desynchronization of patient biorhythms, including determining its chronotype, characterized in that the chronotype and subspecies of the chronotype are determined by assigning a score according to Table 1 “Test for determining chronotypes” contained in the description and at 10 -15 points earned determine the chronotype as “early bird +”, with 16-24 points the chronotype “early bird-”, with 25-34 points the chronotype “owl”, with 35–40 points the chronotype “owl +”, determine the synchronization or desynchronization of biorhythms of the patient, and for the Lark + chronotype, the onset of BP increase is predicted at 4-6 hours with synchronized biorhythms and at 18-20 hours with desynchronization, for the Lark- chronotype, the onset of BP increase is predicted at 7-9 hours with synchronized biorhythms and 20-22 hours with desynchronization, for the owl + chronotype, the onset of blood pressure increase is predicted at 0-2 hours with synchronized biorhythms and at 10-12 hours for desynchronization, for the owa chronotype, the onset of blood pressure is predicted at 20-22 hours at synchronized biorhythms and in 4-6 hours with desynchro nizatsii.