RU2468753C1 - Method of estimating adequacy of physical exercise for going in for sport teenagers - Google Patents

Abstract

FIELD: medicine.

SUBSTANCE: invention relates to field of medicine, namely to medical functional diagnostics. In order to estimate adequacy of physical stress for doing sport teenagers, parameters of peripheral blood are determined: lymphocyte index LI, immunoreactivity index IRI, index of TINR adaptation. Summing up adaptation coefficients K by all parameters total index of adaptation possibilities TIAP is determined before exercise TIAP 1 and after exercise TIAP2. Adequacy of physical exercise (APE) is calculated by functional state of doing sport teenagers by formula: APS=(TIAP2:TIAP1)×100%. If APE values are lower or equal 92.9%, level of adequacy of physical stress is considered to be low. If APE values equal 93%-99.9%, level of adequacy of physical stress is considered to be medium. If APE values equal 100%, level of adequacy of physical stress is considered to be high.

EFFECT: method makes it possible to estimate adequacy of physical stress for doing sport teenagers.

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Description

The invention relates to medicine, and more specifically to medical functional diagnostics, to methods for monitoring a person’s physical performance and his physical exercise tolerance, and can be used to model a dosage exercise in adolescents involved in sports.

The adequacy of physical activity is understood as the correspondence of physical activity to the functional capabilities of the athlete's body.

Young athletes are children and adolescents who regularly go in for sports from 3-4 to 12-13 times a week, with children of primary school age 7-10 years old, middle 11-13 years old, senior, or teenage, age 14-17 years.

There is a method of determining physical performance and exercise tolerance, including a priori determination of the functional class of the subject, determination of the specific lift by setting the step load corresponding to the angle of the conditional lift, fixing the moment of achievement of the criterion for stopping the sample by the actual specific height of the lift and determining the specified functional class of the test (RF patent No. 20122221).

A known method for assessing the adequacy of physical activity. The essence of the invention: measure the value of the cathode resistance to alternating current supplied through 2 cutaneous electrodes located on the head of the subject. With a decrease in resistance compared to its value at the time the load begins, the functional reserve of the body is considered adequate, and with its increase, it is considered inadequate (RF patent No. 20122227).

A known method of controlling the tolerance of physical loads, in which the conductivity is measured at representative measuring points of the main meridians, the deviation of the obtained values from the physiological corridor is evaluated, a standard motor test is carried out, and the conductivity is measured at the same points again. Normalization of electrical conductivity indicates a positive effect on the body of the received load (RF patent No. 2117442).

There are known estimates of body reactions in response to physical activity, which are used to judge the functional capabilities of the subject, which are focused on physically healthy people and athletes. In this case, tests that require significant physical effort are used, for example, a squat test, a Harvard step test, bicycle ergometry, a treadmill test (“treadmill”), and some other methods (Physiotherapy: Reference book / V. A. Epifanov and et al. - M.: Medicine, 1987. - 528 s .; Zhuravleva A.I., Graevskaya N.D. Sports medicine and physiotherapy exercises./ Manual. - M .: Medicine, 1993. - 432 p.). Based on the results of the analysis of indicators of the number of heart contractions, blood pressure, maximum oxygen consumption, respiratory equivalent, and others, the functionality of the subject is evaluated.

A known method for assessing the adaptive potential in patients with breast cancer in which the patient is examined, the following indicators are determined: lymphocytic index (LI), immunoreactivity index (IIR), adaptation index (DPS). Then, based on the obtained data, adaptation coefficients (K) are determined for each indicator. Namely, in the LI system, with a marker up to 0.4, K is set to (-1.3), with a marker 0.41-0.5 - equal to (-1.2), with a marker 0.51-0.6 - equal (-1.1), with a marker 0.61-0.7 - equal to (+1), with a marker 0.71-0.8 - equal to (+1.1), with a marker 0.81-1.0 - equal to (+1.2), with a marker more than 1.0 - equal to (+1.3). In the SPNR system, with a marker up to 0.3, set K to (-1.3), with a marker of 0.31-0.5 - equal to (-1.2), with a marker of 0.51-0.7 - equal to (- 1.1), with a marker of 0.71-0.9 - equal to (+1), with a marker of 0.91-1.1 - equal to (+1.1), with a marker of 1.11-1.3 - equal (+1.2), with a marker greater than 1.3 - equal to (+1.3). In the IIR system, with a marker up to 3.0 set K to equal (-1.3), with a marker 3.01-5.0 - equal to (-1.2), with a marker 5.01-7.0 - equal to (- 1.1), with a marker 7.01-9.0 equal to (+1), with a marker 9.01-11.0 equal (+1.1), with a marker 11.01-13.0 equal (+1.2), with a marker of more than 13.0 - equal to (+1.3), summing up K for all indicators, find the total indicator of adaptive capabilities (SAS) of the body of patients with breast cancer, with a SFA of less than 1 - the adaptation potential consider reduced, SAS from 1 to 3 - the adaptive capacity is considered satisfactory, with SAS more than 3 - adaptive The potential is considered high. This method allows the assessment of adaptive potential in patients with breast cancer at various stages of treatment to assess the effectiveness of treatment and further prognosis using standard paraclinical tests (RF patent No. 2392866).

According to the generality of methods for assessing peripheral blood indices, the method was chosen by us as a prototype.

However, in children's sports medicine, peripheral blood parameters (leukocyte counts) were not analyzed taking into account the adaptation index before and after exercise to failure.

As a rule, under the influence of physical activity in the peripheral blood of athletes, erythro-, thrombo- and leukocytosis, a change in the leukocyte formula, the severity of which depends on the power and intensity of the load are observed. A change in the picture of peripheral blood reflects those changes that occur in the athlete's body in response to physical activity.

The objective of the invention is to develop a new quantitative method for assessing the adequacy of physical activity of adolescents involved in sports.

The technical result of the invention is to assess the adequacy of the physical activity of adolescents involved in sports.

The problem is solved by a method that includes the determination of peripheral blood indices: lymphocytic LI index, IIR immunoreactivity index, SPS adaptation index, determination of adaptation coefficients K for each indicator. Summarizing K for all indicators, they find the total indicator of adaptive capabilities of SAS by the well-known formula SAS = K _SPS + K _LI + K _IIR , while determining the total indicator of adaptive capabilities of the body of adolescents involved in sports before exercise - SAS1 and after exercise - SAS2, calculate the adequacy physical activity (AFS) to the functional state of adolescents involved in sports according to the formula: AFS = (SPAV2: SPAV1) × 100%, and when the values of the AFS are less than or equal to 92.9%, the level of adequacy of physical activity is low, with the AFS, p the average 93% -99.9% is average, and with AFS values of 100% or more, it is high.

The essence of the proposed method lies in the fact that peripheral blood parameters are determined: lymphocytic index of LI, adaptation index of SPS, index of immunoreactivity of R&D, then the adaptation coefficients for each indicator are determined, in the LI system with a marker up to 0.4, the Kli is set to (-1.3 ), with a marker of 0.41-0.5 - equal to (-1.2), with a marker of 0.51-0.6 - equal to (-1.1), with a marker of 0.61-0.7 - equal to ( +1), with a marker of 0.71-0.8 - equal to (+1.1), with a marker of 0.81-1.0 - equal to (+1.2), with a marker of more than 1.0 - equal to (+ 1.3), in the SPNR system with a marker up to 0.3 K, the _{spnr is} set equal to (-1.3), with a marker of 0.31-0.5 - equal to (-1.2), with a marker of 0.51-0.7 - equal to (-1.1), with a marker of 0.71-0.9 - equal to (+1 ), with a marker of 0.91-1.1 - equal to (+1.1), with a marker of 1.11-1.3 - equal to (+1.2), with a marker of more than 1.3 - equal to (+1, 3), in the IIR system with a marker up to 3.0 K, the _{IIR is} set equal to (-1.3), with a marker 3.01-5.0 - equal to (-1.2), with a marker 5.01-7.0 - equal to (-1.1), with a marker of 7.01-9.0 - equal to (+1), with a marker of 9.01-11.0 - equal to (+1.1), with a marker of 11.01-13 , 0 - equal to (+1.2), with a marker more than 13.0 - equal to (+1.3). The total indicator of adaptive capabilities is determined by the formula: SAS = K _SPNR + K _LI + K _IIR , and the total indicator of adaptive capabilities of the body of young athletes before exercise - SPAS1 and after exercise - SPAS2 is determined, the adequacy of physical activity (AFS) to the functional state of adolescents is calculated sports, according to the formula:

AFS = (SPAV2: SPAV1) × 100%, and for values of AFS less than or equal to 92.9% they consider the level of adequacy of physical activity low, with AFS equal to 93% -99.9%, average, and for values of AFS equal to 100% or more - high.

A significant difference of the proposed method is that they determine the total adaptive capacity of the body of adolescents involved in sports before exercise - СПАВ1 and after exercise - СПАВ2, calculate the adequacy of physical activity (AFS) to the functional state of adolescents involved in sports, according to the formula: AFN = (СПАВ2: SAS1) × 100%, and with AFS values of less than or equal to 92.9%, the level of physical activity adequacy is considered low, with AFS of 93% -99.9%, average, and with AFS of 100% or more, - high.

It was examined 122 adolescents aged 13-17 years, actively involved in sports. Physical exercise was performed using bicycle ergometry on the ergospirometry system SHILLER, Germany. The test load was gradually increased to the maximum possible ("work to failure") level depending on the gender, age, length and body weight of the athlete according to the protocol, starting from 0.5 W and increasing every 2 minutes. The following indicators are determined before and after physical activity: lymphocytic index (LI1 and LI2), adaptation index (SPI1 and SPI2), immunoreactivity index (IIR1 and IIR2).

Index (LI) is calculated according to the formula (Study of the blood system in clinical practice. / Ed. By G.I.Kazints and V.A. Monrov. M .: Triada-X, 1997. - 301 p.):

LI = L (%) / N (%), where L are lymphocytes, N are neutrophils.

The immunoreactivity index (IIR) is calculated according to the formula (Ivanov D.O. Clinical and laboratory variants of the course of sepsis of newborns: Abstract of thesis, MD, St. Petersburg, 2002. - 62 p.).

IIR = L (%) + E (%) / M (%), where E - eosinophils, M - monocytes.

Adaptation Index (SPNR) is calculated by the formula Garkavi A.Kh. et al. (Garkavi L.Kh. Adaptation reactions and body resistance. / L.Kh. Garkavi, E.B. Kvakina, M.A. Ukolova. - 2nd ed. Supplement. - Rostov-on-Don: Publishing house. Rostov un- that, 1979. - 126 p.):

SPNR = L (%) / C (%), where C are segmented neutrophils.

Then, based on the obtained data, adaptation coefficients (K) are determined for each indicator.

_LI in the LI system with a marker up to 0.4 is set equal to (-1.3), with a marker 0.41-0.5 - equal to (-1.2), with a marker 0.51-0.6 - equal to ( -1.1), with a marker 0.61-0.7 - equal to (+1), with a marker 0.71-0.8 - equal to (+1.1), with a marker 0.81-1.0 - equal to (+1.2), with a marker greater than 1.0 - equal to (+1.3).

For _SPNR in the SPNR system with a marker up to 0.3 set equal to (-1.3), with a marker 0.31-0.5 - equal to (-1.2), with a marker 0.51-0.7 - equal to ( -1.1), with a marker 0.71-0.9 - equal to (+1), with a marker 0.91-1.1 - equal to (+1.1), with a marker 1.11-1.3 - equal to (+1.2), with a marker more than 1.3 - equal to (+1.3).

For _IIR in the IIR system with a marker up to 3.0 set equal to (-1.3), with a marker 3.01-5.0 - equal to (-1.2), with a marker 5.01-7.0 - equal to ( -1.1), with a marker 7.01-9.0 - equal to (+1), with a marker 9.01-11.0 - equal to (+1.1), with a marker 11.01-13.0 - equal to (+1.2), with a marker more than 13.0 - equal to (+1.3).

The total indicator of adaptive capabilities is calculated by the formula:

SPAS = K _SPNR + K _LI + K _IIR

Determine SPAV1 - the total indicator of the adaptive capabilities of the body of young athletes to the load.

Determine SPAV2 - the total indicator of the adaptive capabilities of the body of young athletes after exercise.

The adequacy of physical activity (AFS) is calculated for the functional state of adolescents involved in sports, according to the formula:

AFN = (SPAS2: SPAV1) × 100%,

and with AFS values less than or equal to 92.9%, the level of physical activity adequacy is considered low, with AFS equal to 93% -99.9%, average, and with AFS values of 100% or more, high.

The invention is new and not obvious to a person skilled in the art.

Examples of the method

Example 1

Polina Sh., 14 years old, candidate for master of sports, experience - 7 years, sports swimming.

In the examination plan, a clinical blood test, a biochemical blood test, a cytochemical examination, a microbiological smear from the throat, an ECG, and a bicycle ergometry test were assigned to assess the functional state of the athlete.

The results of a general blood test before loading: red blood cells - 4.35 · 10 ¹² , hemoglobin - 126 g / l, ESR - 2 mm / h, white blood cells - 5.06 · 10 ⁹ , eosinophils - 2.8%, basophils - 1, 8%, monocytes - 7%, lymphocytes - 38.1%, segmented neutrophils - 51%, platelets - 235 · 10 ⁹ . Hematological indices of nonspecific reactivity were calculated: LI - 0.80, SPNR - 0.75, IIR - 5.84.

The results of a general blood test after exercise: red blood cells - 4.91 · 10 ¹² , hemoglobin - 136 g / l, ESR - 2 mm / h, white blood cells - 8.12 · 10 ⁹ , eosinophils - 1.8%, basophils - 0, 7%, monocytes - 6.9%, lymphocytes - 35.5%, segmented neutrophils - 48%, platelets - 238 · 10 ⁹ . The hematological indices of nonspecific reactivity were calculated: LI - 0.67, SPNR - 0.74, IIR - 5.4.

Then, based on the obtained data, adaptation coefficients (K) are determined for each indicator.

Calculated SAS1 and SAS2 - the total indicator of adaptive capabilities before and after physical activity: SAS = K _SPNR + K _LI + K _IIR , where K is the coefficient of adaptation. SAS1 = 1.0, SAS2 = 0.9.

AFS = (SPAS1: SPAV2) × 100% = (0.9: 1.0) × 100 = 90%

Make a conclusion about the mismatch of (excessive) physical activity with the athlete's functional capabilities (AFS - 90.0%), which is confirmed by a comprehensive examination: ENT pathology - rhinopharyngitis, throat swab - the presence of Staphylococcus aureus, Haemophilus influenzae in high titers was revealed. ECG - a moderate violation of the processes of myocardial repolarization, physical performance is below average. Training loads were reduced and recovery measures were prescribed, including metabolic correction.

Example 2. Anton V. 15 years, candidate for master of sports, experience - 6 years, swimming. In the survey plan, a clinical blood test, a biochemical blood test, a cytochemical examination, a microbiological smear from the throat, an ECG, a bicycle ergometer test were assigned to assess the functional state of the athlete.

The results of a general blood test before loading: red blood cells - 5.76 · 10 ¹² , hemoglobin - 147 g / l, ESR - 2 mm / h, white blood cells - 5.09 · 10 ⁹ , eosinophils - 8.2%, basophils - 0, 5%, monocytes - 5.6%, lymphocytes - 38.0%, segmented neutrophils - 45.2%, platelets - 277 · 10 ⁹ . The hematological indices of nonspecific reactivity were calculated: LI - 0.84, SPNR - 0.78, IIR - 8.25. The results of a general blood test after exercise: red blood cells - 5.91 · 10 ¹² , hemoglobin - 151 g / l, ESR - 2 mm / h, white blood cells - 5.56 · 10 ⁹ , eosinophils - 8.6%, basophils - 0, 5%, monocytes - 6.3%, lymphocytes - 41.2%, segmented neutrophils - 40.7%, platelets - 272 · 10 ⁹ . The hematological indices of nonspecific reactivity were calculated: LI - 1.01, SPNR - 0.92, IIR - 7.92. Then, based on the obtained data, adaptation coefficients (K) are determined for each indicator.

Calculate SAS1 and SAS2 - the total indicator of adaptive capabilities before and after physical activity: SAS = K _SPNR + K _LI + K _IIR , where K is the adaptation coefficient. SAS1 = 3.2, SAS2 = 3.4.

AFS = (SPAS1: SPAV2) × 100% = (3.2: 3.4) × 100 = 106.3%

A conclusion is drawn on the correspondence of the (excessive) physical load to the athlete's functional capabilities, which is confirmed by the data of a comprehensive examination: no ENT pathology was detected, swab from the throat - the presence of Staphylococcus aureus in low titers. ECG is a variant of the norm, physical performance is high. The young athlete was allowed to practice and compete in swimming.

The inventive method allows to assess the adequacy of physical activity in young athletes at various stages of the training cycle to assess the effectiveness of training and pharmacological correction.

Using the method is to accurately assess the compliance of physical activity with the functional capabilities of the subject.

The method allows you to effectively plan the educational work, as well as to develop motor training modes.

Claims (1)

A method for assessing the adequacy of the physical activity of adolescents involved in sports, including determining peripheral blood parameters: lymphocytic LI index, IIR immunoreactivity index, SPS adaptation index, determining adaptation coefficients K for each indicator, determining the total indicator of adaptive capacity of SAS, characterized in that they determine the total indicator the adaptive capabilities of the adolescent organism before exercise - SPAV1 and after exercise - SPAV2, the adequacy of physical exercise narrow (AFN) the functional state of adolescents involved in sports, according to the formula: AFN = (SPAV2: SPAV1) · 100%, and when the values of the AFS are less than or equal to 92.9%, the level of adequacy of physical activity is low, with the AFS equal to 93% - 99.9%, average, and with AFS values equal to 100% or more, high.