RU2363375C2 - Method of measuring human adaptation capacity - Google Patents

Abstract

FIELD: medicine.

SUBSTANCE: functional tests are done with increasing physical load. Parametres of initial physical load, rate of increase and maximum physical load are determined from data of continuously monitored heart rate. Maximum power is also measured, as well as the time at which it is achieved and the time at which maximum heart rate is attained. Adaptation index is calculated using a special formula.

EFFECT: more accurate measurement of adaptation capacity of a person to physical load.

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Description

The invention relates to medicine, in particular to sports physiology.

The functional state of the cardiovascular system (CVS) under aerobic physical exertion (FN) determines the ability of a person to perform physical effort in dynamic work. In connection with the growth of sports achievements, the search for the most appropriate methods of assessing adaptive ability in aerobic conditions and its dynamics during the period of sports activity is becoming more relevant to the current level of development of physiology of sports.

Samples used to date allow us to assess the adaptive ability of athletes [5], but they are not accurate enough, since, as a rule, the significance of the period of working out for athletes, lasting up to 5 minutes, in increasing FN [3] is not taken into account.

According to existing ideas, the criterion for adapting CVS to aerobic FS is a change in the characteristics of CVS, in particular, heart rate [2,4] (heart rate), reaching 170 beats / min, is considered as threshold (limit), as it is considered a reflection of the athlete’s work in aerobic mode on the verge of transition to anaerobic.

A known method for assessing the adaptation of CCC to FN (test PWS170), which is more than others adopted in sports medicine and we have chosen as a prototype. Its “pan-European” modification is carried out as follows: it involves the fulfillment of three loads increasing in power (duration of each 3 minutes), not separated by rest intervals. During this time, the load increases twice (after 3 and 6 minutes from the start of testing). The heart rate is measured over the last 15 s of each three-minute stage, the load of which is regulated so that by the end of the test the heart rate does not exceed 170 bpm. The load power is calculated per unit body weight of the test person (W / kg). The initial power is set at the rate of 0.75-1.25 W / kg, and its increase is carried out in accordance with the increase in heart rate.

The calculation of the indicator PWS170 is made according to the formula

where W2 is the load power of the second stage (kgm),

W3 - load power of the third stage (kgm),

HR2 - heart rate at the end of the second stage (beats / min),

Heart rate 3 - heart rate (beats / min),

M - body weight (kg).

The resulting value is rounded to the nearest integer. Then, according to a special table, adaptive ability is assessed in a qualitative way as low, below average, medium, above average, high.

However, when using this method, which has been used in sports medicine since the 70s of the XX century, the sharply increased intensity and duration of FN in modern professional sports are not taken into account [1, 6].

The objective of the invention is to improve the accuracy of the method of measuring the adaptive ability of an athlete in aerobic fitness. It is solved by the fact that heart rate is monitored, the magnitude of the load power is also recorded continuously. The time of continuously increasing load, the duration of each step and the number of steps are not limited and depend on the physical abilities of the person. The athlete is instructed in informing him that the time of a continuously increasing load and the number and duration of the steps are not limited and the test stops when a heart rate of 170 beats / min is reached or if the FN is not continued. The parameters of the initial FN, the rate of its growth and the maximum value of FN are determined according to the continuously monitored heart rate. The test is terminated if the heart rate reaches 170 bpm or the athlete refuses to continue the test even if the heart rate is below 170 bpm. Further, taking into account the obtained indicators, the adaptation index (InA) is calculated by the formula

InA = [(T / Tw) × Wmax] / heart rate max,

where T is the time (min) for the subjects to reach maximum heart rate,

Tw - time (min) to reach maximum power,

Wmax - maximum achieved power (W) of the fn,

HR max - the maximum achieved heart rate (beats / min).

A positive effect of the invention is a more accurate measurement of the individual adaptive ability of the CCC to aerobic fitness, corresponding to modern requirements of training and competitive physical activity. The method allows to evaluate the change in individual adaptive ability in dynamics during the training process and competitions.

The method was tested on 29 athletes of high achievements of male and female aged 17 to 41 years on the basis of the Department of Physical Methods of Treatment and Sports Medicine of the St. Petersburg Academician I.P. Pavlov. In one day, the adaptive ability was determined by the prototype method and the proposed method. In order to minimize the inertial effect of previous workouts, the study was conducted 36 hours later, in the morning, on an empty stomach, 10 hours after the last meal. Athletes performed submaximal FN on a Technogym bicycle ergometer. Instantaneous heart rate was continuously recorded with a Polar monitor. The load power in watts was recorded by the monitor of the exercise bike. To calculate the PWC170 index, watts were converted to kgm. Prior to the first test and after the second test, blood samples were taken from the ulnar vein to determine the activity of superoxide dismutase on a Spectrop OKB SF-2000 BIO spectrophotometer at a wavelength of 406 nm. A method was used based on measuring reactions involving a superoxide anion radical in the presence of superoxide dismutase. A change in the level of dioxid dismutase is a characteristic of human endogenous antioxidant defense. The more it increases after exercise, the higher the body's adaptive ability to exercise. Repeated testing was carried out 2 hours after the complete restoration of heart rate and blood pressure, determined by the Korotkov method. A preliminary study showed that the magnitude of the change in superoxide dismutase did not change from the order of execution of these two methods. Qualified medical monitoring of the athlete was carried out.

A correlation analysis of the results showed that the proposed adaptation index is much better (r = 0.77, p <0.05, n = 29) correlates with the magnitude of the change in superoxide dismutase than the previously used PWS170 index (r = 0.36, p <0.05, n = 29).

Example 1. Athlete K., 19 years old. Candidate master of sports in triathlon. The PWS170 indicator was 16 kgm / min / kg, which corresponds to adaptive ability as "below average". When performing testing on the proposed method, the maximum heart rate was 170 bpm. The time to reach maximum heart rate and the time to reach maximum power of 187.5 watts were 10 minutes each. The calculated adaptation index is 1.10 W / bpm. The initial level of superoxide dismutase is 25 cu After performing the FN, its growth amounted to 0%.

Example 2. Athlete I., 21 years old, master of sports in triathlon. The PWS170 index was 20 kgm / min / kg, which corresponds to the adaptive ability as "above average". When performing testing on the proposed method, the maximum heart rate was 168 beats / min. The time to reach maximum heart rate is 15 minutes, the time to reach maximum power of 150 W was 5 minutes. The calculated adaptation index is 2.67 W / bpm. The initial level of superoxide dismutase is 25.8 cu After the FN, its growth amounted to 12.40%.

Example 3. Athlete S., 26 years old, candidate for master of sports in triathlon. The indicator PWS170 amounted to 12 kgm / min / kg, which corresponds to the adaptive ability as "low". When performing testing on the proposed method, the maximum heart rate was 168 beats / min. The time to reach maximum heart rate was 30 minutes, the time to reach maximum power of 175 W was 15 minutes. The calculated adaptation index is 2.03 W / bpm. The initial level of superoxide dismutase is 26.5 cu After the FN, its growth amounted to 12.08%.

Examples 1, 2 show the coincidence of levels of adaptive ability, measured in two ways. Example 3 shows that the proposed method is more accurate, as evidenced by the increase in the level of superoxide dismutase.

List of references

1. Medical Manual A Practical Guide of the International Association of Athletics Federations; translation from English, M .: Tera-sport, 2003. - 240 p.: ill.

2. Karpman V.L., Belotserkovsky Z.B., Gudkov I.A. Testing in sports medicine. - M.: Physical Education and Sports, 1988 .-- 206 p.

3. Sports medicine (Guide for doctors) / Edited by A.V. Chogovadze, L. A. Butchenko. - M.: Medicine, 384 p., 1984.

4. Makarova G.A. A practical guide for sports doctors. - Rostov-on-Don: "Publishing house BARO-PRESS", 2002. - 800 p.

5. Godik M.A., Balsevich V.K., Timoshkin V.I. The system of pan-European tests to assess the physical condition of a person // Theory and Practice of Physical Culture, 1994. - No. 5-6. - S. 24-32.

6. Putin VV, Shestakov VB, Levitsky A.G. JUDO: history, theory, practice. (Teaching aid for trainers and athletes.). - Arkhangelsk: Publishing House "SK", 2000. - 154 pp., Ill.

Claims (1)

A method of measuring a person’s adaptive ability by performing a functional test with increasing physical activity, characterized in that the parameters of the initial physical activity, its growth rate and the maximum value of physical activity are determined from the continuously monitored heart rate, additionally measure the maximum power, time of its achievement and time reaching the maximum heart rate, calculate the adaptation index by the formula: InA = [(T / Tw) · Wmax] / HRmax, where InA is the hell index ptatsii (W / u. / min)
T - time (min) to reach the maximum heart rate,
Tw - time (min) to reach maximum power,
Wmax - achieved maximum power (W) of physical activity,
HRmax - maximum heart rate reached (beats / min).