IMPROVEMENT OF CARDIOVASCULAR FUNCTION HEALTH LEVEL BY REGULAR SPORTS

Wang, Chunguang; Zhao, Xiaoqi; Sun, Zhiguang; Yao, Nan; Zhang, Aiting; Guo, Shengyu

doi:10.1590/1517-8692202127032021_0087

ABSTRACT

Introduction

Regular physical activity helps improve cardiovascular and cerebrovascular skills. How to evaluate the nervous tension of the cardiovascular and cerebrovascular vessels through sports is a hot topic.

Objective

The paper discusses the influence of regular participation in sports on people’s cardiovascular function and blood-related indicators.

Methods

We select 30 healthy older adults who regularly participate in sports, record their ECG changes, blood pressure, heart rate and other related cardiovascular function indicators, and analyze the blood function of the elderly. Detection of blood cell count (RBC), red blood cell volume (MCV) and hemoglobin (Hb), serum creatinine (Cr), blood glucose (BGS), triglycerides (TG), cholesterol (TC), low-density lipoprotein (LDL) and high-Density lipoprotein (HDL) is measured.

Results

Older adults who persist in exercise for a long time have better indicators than those who do not exercise.

Conclusions

Appropriate aerobic exercise can reduce the stiffness of blood vessels in the elderly. Exercise can help the elderly increase heart rate variability and improve the heart’s autonomic nerve function’s blood indicators, and body mass. Level of evidence II; Therapeutic studies - investigation of treatment results.

Aged; Exercise; Cardiorespiratory Fitness; Cardiovascular Diseases

RESUMO

Introdução

A atividade física regular ajuda a melhorar as habilidades cardiovasculares e cerebrovasculares. Como avaliar a tensão nervosa dos vasos cardiovasculares e cerebrovasculares por meio de esportes é um assunto quente.

Objetivo

o artigo discute a influência da participação regular em esportes sobre a função cardiovascular das pessoas e indicadores relacionados ao sangue.

Métodos

Selecionamos 30 idosos saudáveis que participam regularmente de esportes, registramos suas alterações no ECG, pressão arterial, frequência cardíaca e outros indicadores relacionados à função cardiovascular e analisamos a função sanguínea dos idosos. Detecção de contagem de células sanguíneas (RBC), volume de glóbulos vermelhos (MCV) e hemoglobina (Hb), creatinina sérica (Cr), glicose no sangue (BGS), triglicerídeos (TG), colesterol (TC), lipoproteína de baixa densidade (LDL ) e a lipoproteína de alta densidade (HDL) é medida.

Resultados

Idosos que persistem por muito tempo nos exercícios têm melhores indicadores do que aqueles que não praticam.

Conclusão

O exercício aeróbio adequado pode reduzir a rigidez dos vasos sanguíneos em idosos. O exercício pode ajudar os idosos a aumentar a variabilidade da frequência cardíaca e melhorar os indicadores sanguíneos da função nervosa autonômica do coração e a massa corporal. Nível de evidência II; Estudos terapêuticos - investigação dos resultados do tratamento.

Idoso; Exercício Físico; Aptidão Cardiorrespiratória; Doenças Cardiovasculares

RESUMEN

Introducción

La actividad física regular ayuda a mejorar las habilidades cardiovasculares y cerebrovasculares. Cómo evaluar la tensión nerviosa de los vasos cardiovasculares y cerebrovasculares a través del deporte es un tema candente.

Objetivo

El artículo analiza la influencia de la participación regular en deportes sobre la función cardiovascular de las personas y los indicadores relacionados con la sangre.

Métodos

Seleccionamos a 30 adultos mayores sanos que participan regularmente en deportes, registramos sus cambios en el ECG, presión arterial, frecuencia cardíaca y otros indicadores relacionados con la función cardiovascular, y analizamos la función sanguínea de los ancianos. Detección del recuento de glóbulos rojos (RBC), volumen de glóbulos rojos (MCV) y hemoglobina (Hb), creatinina sérica (Cr), glucosa en sangre (BGS), triglicéridos (TG), colesterol (TC), lipoproteínas de baja densidad (LDL) ) y se mide la lipoproteína de alta densidad (HDL).

Resultados

Los adultos mayores que persisten en el ejercicio durante mucho tiempo tienen mejores indicadores que los que no lo hacen.

Conclusión

El ejercicio aeróbico adecuado puede reducir la rigidez de los vasos sanguíneos en los ancianos. El ejercicio puede ayudar a los ancianos a aumentar la variabilidad de la frecuencia cardíaca y mejorar los indicadores sanguíneos y la masa corporal de la función nerviosa autónoma del corazón. Nivel de evidencia II; Estudios terapéuticos: investigación de los resultados del tratamiento.

Anciano; Ejercicio Físico; Capacidad Cardiovascular; Enfermedades Cardiovasculares

INTRODUCTION

How to improve the level of altitude exercise and hypoxic exercise’s physiological effects on the human body has been extensively studied internationally. Heart rate variability (HRV) is an important index to evaluate the autonomic nervous system’s tension and balance and is an independent risk factor for cardiovascular disease.¹1. Andrzejaczek S, Gleiss AC, Pattiaratchi CB, Meekan MG. Patterns and drivers of vertical movements of the large fishes of the epipelagic. Rev Fish Biol Fish. 2019 [cited 2021 Jun 11];29(2):335-54. Available from: https://researchrepository.murdoch.edu.au/id/eprint/45865/
https://researchrepository.murdoch.edu.a... We use the blood oxygen and blood pressure changes and heart rate variability of the healthy elderly who have participated in sports for a long time in the middle and high-altitude areas of 2260m-3200m.²2. Xie H, Zhang M, Huo C, Xu G, Li Z, Fan Y. Tai Chi Chuan exercise related change in brain function as assessed by functional near-infrared spectroscopy. Sci Rep. 2019;9(1):13198.

METHOD

Object

Sports group

From October 2018 to March 2019, 30 healthy older people from areas ≥2260m received a physical examination, including 16 males and 14 females. Age (60-82) years old, with an average of (64.30±6.94) years old.

The lack of exercise group

During the same period, 30 healthy older adults were examined in our outpatient clinic, including 18 males and 12 females. Age (62-84) years old, average age (64.96±10.84) years old.

METHOD

Instruments and items

Each batch of 6 subjects collected cubital venous blood in the early morning on an empty stomach, separated serum samples and stored them at -20°C for testing. The two groups of people were measured: red blood cell count (RBC), red blood cell volume (MCV) and hemoglobin (Hb). Ethylenediaminetetraacetic acid disodium (EDTA-Na2) was used for anticoagulation, and it was determined by the Japanese East Asia Classification Hematology Analyzer.³3. Ruíz-Moreno C, Lara B, Brito de Souza D, Gutiérrez-Hellín J, Romero-Moraleda B, Cuéllar-Rayo Á, Del Coso J. Acute caffeine intake increases muscle oxygen saturation during a maximal incremental exercise test. Br J Clin Pharmacol. 2020;86(5):861-7. Use Hitachi-7170s automatic biochemical analyzer made in Japan to detect renal function creatinine (Cr), blood sugar (BGS) and blood lipids: Randox, UK provided triglycerides (TG), cholesterol (TC), low-density lipoprotein (LDL) and high-density lipoprotein (HDL), the kit.

Determination of PWV/ABI

We use the Japanese Colin VP-1000 automatic arteriosclerosis tester, at a room temperature of about 20 ^oC, the patient rests for 5 minutes to test, adopt a standard supine position, the limbs are tied with four sociometric blood pressure cuffs, synchronously record and analyze the report baPWV. Take the high value of baPWV on the left and right sides for statistical analysis. The calculation of ABI adopts the method recommended by the American Heart Association (AHA). The unilateral ABI calculation is the ratio of the systolic pressure of the lateral ankle artery (posterior tibial artery or dorsal foot artery) to the highest value of the bilateral brachial artery systolic pressure.⁴4. Andreyeva AY, Soldatov AA, Krivchenko AI, Mindukshev IV, Gambaryan S. Hemoglobin deoxygenation and methemoglobinemia prevent regulatory volume decrease in crucian carp (Carassius carassius) red blood cells. Fish Physiol Biochem. 2019;45(6):1933-1940. Take the low value of ABI on both sides for statistical analysis. Pulse pressure (PP) measurement.

Methods of measuring blood pressure, heart rate and oxygen saturation during exercise

We use the Marquette2000 exercise platform tester and the Bruce exercise program. The exercise time is 10min, the exercise speed is 3km/h, and the slope is 10 degrees. It is measured at 5min and 10min, respectively, and records are made.⁵5. Wu S, Wang N, Li J, Wang G, Seto SW, Chang D, et al. Ligustilide ameliorates the permeability of the blood-brain barrier model in vitro during oxygen-glucose deprivation injury through HIF/VEGF pathway. J Cardiovasc Pharmacol. 2019;73(5):316-25. The same person measures the desktop sphygmomanometer and the American finger pulse meter (Inc) before exercise, the blood pressure, heart rate (HR) and oxygen saturation (SaO2) at 5min and 10min during exercise.⁶6. Gao C, Lin Z, Wang D, Wu Z, Xie H, He Q. Red blood cell-mimicking micromotor for active photodynamic cancer therapy. ACS Appl Mater Interfaces. 2019;11(26):23392-23400.

Statistical processing

The measurement data are expressed as mean±standard deviation, and we use SPSS10.0 statistical software package for analysis and processing. The comparison between groups was performed by t-test and F test. For the splitting of random decision tree nodes, this article uses a splitting method that is different from the Gini value, which is an unbiased split based on conditional probability:

M (A_{i}) = \frac{(\sum_{j = 1}^{m_{i}} p {(v_{i, j})}^{2} \sum_{i = 1}^{c} p {(y_{i} ∣ v_{i, j})}^{2}) - (\sum_{j = 1}^{m_{i}} p {(v_{i, j})}^{2} \sum_{i = 1}^{c} p {(y_{i})}^{2})}{(\sum_{i = 1}^{c} p {(v_{i, j})}^{2} (1 - \sum_{i = 1}^{c} p {(y_{i})}^{2})}

(1)

m_i is the value of attribute A _i; p (v_i,_j) is the probability that attributes A _i is the value of v_j ; c is the number of categories in the training sample; $p (y_{j} ∣ v_{i, j})$ is the probability that the class label y _j is v _j under the condition of the attribute A _i. We randomly shuffle the value of the h-th variable in the OOB sample. Obtain a new test sample oob _h, and then use the oob _h sample to test the accuracy of the random forest and also obtain an accuracy rate e_h . Obtain the importance of the variable M 1_h by the following formula

M 1_{h} = max \{0; b_{h} - b\}

(2)

Therefore, the final variable importance output is:

M 1 = [\begin{matrix} M 1_{1} \\ M \\ M 1_{m} \end{matrix}]

(3)

Where m is the attribute value of the training sample, it can be seen from formula (4) that the importance of variables is calculated as the correlation of all variables to all categories. If we want to obtain the variables most relevant to category i, we cannot obtain them.

M 2_{h}^{k} = max \{0; avs [m g (y, X) - m g_{h} (y, x)]\}

(4)

Among them, mg (y, x) is the interval function. We use $M 1_{h}^{* k} = M 1_{h}^{k} + M 2_{h}^{k}$ as the output of the importance of the last variable. Its form is as (5)

M 1^{*} = [\begin{array}{cc} M 1_{1}^{* 1} L & M 1_{1}^{* k} \\ M L & M \\ M 1_{h}^{*_{1}} L & M 1_{h}^{* k} \end{array}]

(5)

Among them, k is the number of sample categories, that is, k=1,,c. It can be seen from the output (5) that the importance of the variable gives the value of the variable related to each category. This is very helpful for fault diagnosis.

RESULTS

The effect of regular exercise on blood indicators related to cardiovascular disease in the elderly at high altitude

The number of RBCs in healthy older people in plateau areas who persisted in exercising for a long time increased significantly (P<0.05). Still, MCV and Hb had no significant changes than the elderly in the lack of exercise. The levels of BGS, TC, and LDL in the exercise group were significantly reduced (P<0.05), but there were no significant differences in Cr, TG, and HDL levels. ( Table 1 )

Thumbnail

Table 1
Comparison of cardiovascular-related blood indicators between the elderly exercise group and the lack of exercise group.

The effect of regular exercise on the vascular function of the elderly in plateau areas

Compared with the exercise group and the lack of exercise group, the weight, body mass index, and pulse pressure were statistically significant (P<0.05), and the baPWV and ABI of the arteriosclerosis index were significantly different (P<0.01); while the age, gender and height were significantly different. ( Table 2 )

Thumbnail

Table 2
Comparison of arterial stiffness indexes between the elderly exercise group and the lack of exercise group.

The effect of exercise on the heart rate variability of healthy older adults at altitude

Through 24-hour HRV analysis in this group, it was found that the indicators of SDNN, RMSSD and PNN50 of the elderly in the regular exercise group were higher than those in the lack of exercise group. ( Table 3 )

Thumbnail

Table 3
Comparison of 24-hour HRV domain between elderly exercise group and lack of exercise group.

Observation of changes in blood pressure, heart rate and oxygen saturation during exercise

We found that in the resting state, the systolic blood pressure, diastolic blood pressure and heart rate of the elderly who exercise regularly are lower than those of the inactive elderly. The systolic blood pressure of the exercise group increased with the increase of exercise volume than at rest. The diastolic blood pressure first decreased and then increased with the increase of exercise volume.⁷7. Alvares TS, Oliveira GV, Soares R, Murias JM. Near-infrared spectroscopy-derived total haemoglobin as an indicator of changes in muscle blood flow during exercise-induced hyperaemia. J Sports Sci. 2020;38(7):751-8. ( Table 4 )

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Table 4
Comparison of blood pressure, heart rate and oxygen saturation between the two groups before, during and after exercise.

DISCUSSION

The effect of regular exercise on the blood indicators of healthy older adults at altitude

Jogging, brisk walking, Tai Chi and mountain climbing and other exercises are moderate in intensity. The energy consumed is mainly from the oxidation and decomposition of fat and sugar. They are aerobic exercises that can enhance physical fitness and prevent obesity and disease. Long-term living in the plateau has a very complex reaction to the body. Human body functions and exercise capabilities will be affected to varying degrees and are different from those in the plains. Studies have reported that aerobic metabolism improvement by altitude training mainly occurs in red blood cells, enzymes, maximum oxygen uptake, lactic acid tolerance, etc. The combined effects of the above are conducive to thoroughly stimulating and tapping the body’s potential. High altitude hypoxia can stimulate the red blood cells of the kidneys. This study found that the number of RBCs in the elderly who insisted on aerobic exercise for a long time in the plateau area increased significantly. Still, MCV and Hb did not change significantly.⁸8. Qiu Y, Myers DR, Lam WA. The biophysics and mechanics of blood from a materials perspective. Nat Rev Mater. 2019;4(5):294-311. This may be the effect of the chronic hypoxia environment and the dual stimulation of exercise and hypoxia on the red blood cell production of the elderly in the plateau area.

The impact of exercise on HRV of healthy older adults at an altitude

HRV refers to the phenomenon that the sinus heart rate changes periodically within a certain period. It is an important indicator that quantitatively reflects the sympathetic nerve’s tension and balance and the vague nerve. It is a valuable indicator for the autonomic nerve to regulate the heart. It has high sensitivity. The advantages of non-invasiveness, etc., are widely used and studied in clinical medicine and aviation medicine.

Discussion on changes in blood pressure, heart rate and oxygen saturation during exercise

Some analysis confirmed that mild to moderate aerobic exercise training reduced systolic blood pressure and diastolic blood pressure by 2% and 1%, respectively. Foreign studies have shown that exercise training helps change the risk factors of coronary heart disease, including the resting blood pressure of hypertensive patients. The results show that the systolic blood pressure of healthy older people in plateau areas who exercise for a long time increases with exercise volume. The diastolic blood pressure first decreases with the increase in exercise volume.

CONCLUSION

Regular participation in moderate-intensity exercises for the elderly in high altitude areas can improve the body’s blood indicators, reduce vascular stiffness and increase heart rate variability, and enhance the blood and oxygen supply of the heart and blood vessels to various organs and tissues, which is helpful for fitness or prevention of plateaus. Regional cardiovascular disease is of great significance.

ACKNOWLEDGMENTS

Medical science research project plan of hebei province: heart ratedeceleration runs in the early warning of sudden cardiac death in patients with acute myocardial infarction.(NO:20190873). Youth Fund Project of Hebei Education Department: Evaluation of heart rate deceleration force on cardiac vagus function and its high risk warning in elderly patients with coronary heart disease. (NO:QN2016263).

REFERENCES

¹
Andrzejaczek S, Gleiss AC, Pattiaratchi CB, Meekan MG. Patterns and drivers of vertical movements of the large fishes of the epipelagic. Rev Fish Biol Fish. 2019 [cited 2021 Jun 11];29(2):335-54. Available from: https://researchrepository.murdoch.edu.au/id/eprint/45865/
» https://researchrepository.murdoch.edu.au/id/eprint/45865/
²
Xie H, Zhang M, Huo C, Xu G, Li Z, Fan Y. Tai Chi Chuan exercise related change in brain function as assessed by functional near-infrared spectroscopy. Sci Rep. 2019;9(1):13198.
³
Ruíz-Moreno C, Lara B, Brito de Souza D, Gutiérrez-Hellín J, Romero-Moraleda B, Cuéllar-Rayo Á, Del Coso J. Acute caffeine intake increases muscle oxygen saturation during a maximal incremental exercise test. Br J Clin Pharmacol. 2020;86(5):861-7.
⁴
Andreyeva AY, Soldatov AA, Krivchenko AI, Mindukshev IV, Gambaryan S. Hemoglobin deoxygenation and methemoglobinemia prevent regulatory volume decrease in crucian carp (Carassius carassius) red blood cells. Fish Physiol Biochem. 2019;45(6):1933-1940.
⁵
Wu S, Wang N, Li J, Wang G, Seto SW, Chang D, et al. Ligustilide ameliorates the permeability of the blood-brain barrier model in vitro during oxygen-glucose deprivation injury through HIF/VEGF pathway. J Cardiovasc Pharmacol. 2019;73(5):316-25.
⁶
Gao C, Lin Z, Wang D, Wu Z, Xie H, He Q. Red blood cell-mimicking micromotor for active photodynamic cancer therapy. ACS Appl Mater Interfaces. 2019;11(26):23392-23400.
⁷
Alvares TS, Oliveira GV, Soares R, Murias JM. Near-infrared spectroscopy-derived total haemoglobin as an indicator of changes in muscle blood flow during exercise-induced hyperaemia. J Sports Sci. 2020;38(7):751-8.
⁸
Qiu Y, Myers DR, Lam WA. The biophysics and mechanics of blood from a materials perspective. Nat Rev Mater. 2019;4(5):294-311.

Edited by

Guest Editor responsible for the review process: Grajkowsk Wisława

All authors declare no potential conflict of interest related to this article

Publication Dates

Publication in this collection
23 July 2021
Date of issue
Jul-Sep 2021

History

Received
26 Apr 2021
Accepted
17 May 2021

This is an Open Access article distributed under the terms of the Creative Commons Attribution Non-Commercial License, which permits unrestricted non-commercial use, distribution, and reproduction in any medium, provided the original work is properly cited.

[1] ¹
Andrzejaczek S, Gleiss AC, Pattiaratchi CB, Meekan MG. Patterns and drivers of vertical movements of the large fishes of the epipelagic. Rev Fish Biol Fish. 2019 [cited 2021 Jun 11];29(2):335-54. Available from: https://researchrepository.murdoch.edu.au/id/eprint/45865/
» https://researchrepository.murdoch.edu.au/id/eprint/45865/

[2] ²
Xie H, Zhang M, Huo C, Xu G, Li Z, Fan Y. Tai Chi Chuan exercise related change in brain function as assessed by functional near-infrared spectroscopy. Sci Rep. 2019;9(1):13198.

[3] ³
Ruíz-Moreno C, Lara B, Brito de Souza D, Gutiérrez-Hellín J, Romero-Moraleda B, Cuéllar-Rayo Á, Del Coso J. Acute caffeine intake increases muscle oxygen saturation during a maximal incremental exercise test. Br J Clin Pharmacol. 2020;86(5):861-7.

[4] ⁴
Andreyeva AY, Soldatov AA, Krivchenko AI, Mindukshev IV, Gambaryan S. Hemoglobin deoxygenation and methemoglobinemia prevent regulatory volume decrease in crucian carp (Carassius carassius) red blood cells. Fish Physiol Biochem. 2019;45(6):1933-1940.

[5] ⁵
Wu S, Wang N, Li J, Wang G, Seto SW, Chang D, et al. Ligustilide ameliorates the permeability of the blood-brain barrier model in vitro during oxygen-glucose deprivation injury through HIF/VEGF pathway. J Cardiovasc Pharmacol. 2019;73(5):316-25.

[6] ⁶
Gao C, Lin Z, Wang D, Wu Z, Xie H, He Q. Red blood cell-mimicking micromotor for active photodynamic cancer therapy. ACS Appl Mater Interfaces. 2019;11(26):23392-23400.

[7] ⁷
Alvares TS, Oliveira GV, Soares R, Murias JM. Near-infrared spectroscopy-derived total haemoglobin as an indicator of changes in muscle blood flow during exercise-induced hyperaemia. J Sports Sci. 2020;38(7):751-8.

[8] ⁸
Qiu Y, Myers DR, Lam WA. The biophysics and mechanics of blood from a materials perspective. Nat Rev Mater. 2019;4(5):294-311.

	Sports group	Lack of exercise group	P
Number of cases	30	30
RBC (1012/L)	4.88±0.59	4.45±0.98	<0.05
MCV (FL)	95.90±4.95	96.88±5.20	>0.05
Hb (g/L)	148.31±9.07	149.7±8.23	>0.05
Cr (μmol/L)	81.82±17.00	83.08±14.06	>0.05

Group	Sports group	Lack of exercise group	P
Number of cases	30	30
gender	16/14	12/18
Age(y)	64.30±11.91	64.96±10.84	>0.05
Weight (kg)	64.97±10.62	70.15±12.13	<0.05
Height (cm)	165.66±7.55	166.14±8.17	>0.05
Body mass index (kg/m²)	24.34±3.27	29.66±3.28	<0.05
Pulse pressure (mmHg)	45.17±10.771	49.13±7.471	<0.05
baPWV(m/s)	409.59±202.14	921.63±392.77	<0.01
ABI	1.13±0.15	1.01±0.13	<0.01

Group	Sports group	Lack of exercise group	P
Number of cases	30	30
SDNN	133.55±16.94	115.67±14.51	<0.01
SDANN	116.81±20.85	115.83±13.55	>0.05
SDNNindex	52.31±16.29	48.33±15.05	>0.05
RMSSD	30.61±12.03	20.52±14.44	<0.01
PNN50	11.20±9.38	6.46±7.23	<0.05

Index		Systolic blood pressure (mmHg)	Diastolic blood pressure (mmHg)	Heart rate (min^-1)	Oxygen saturation (%)
Number of cases		30	30	30	30
Sports group	quiet	123.50±16.94	76.67±9.51	67.60±10.33	94.04±2.56
	Exercise 5min	136.81±20.85	73.33±8.05	109.77±15.41	85.60±9.31
	Exercise 10min	126.31±16.29	78.83±9.55	94.97±17.26	89.00±6.39
Lack of exercise group	quiet	130.61±10.03	82.52±8.16	76.33±10.54	91.83±3.23
	Exercise 5min	144.70±15.85	94.00±10.53	119.89±13.51	83.11±7.85
	Exercise 10min	139.00±17.74	99.39±8.47	104.21±15.00	84.17±4.98

Brasil

Brasil

IMPROVEMENT OF CARDIOVASCULAR FUNCTION HEALTH LEVEL BY REGULAR SPORTS

MELHORIA DO NÍVEL DE SAÚDE DA FUNÇÃO CARDIOVASCULAR POR MEIO DE ESPORTES REGULARES

MEJORA DEL NIVEL DE SALUD DE LA FUNCIÓN CARDIOVASCULAR MEDIANTE DEPORTES REGULARES.

ABSTRACT

Introduction

Objective

Methods

Results

Conclusions

RESUMO

Introdução

Objetivo

Métodos

Resultados

Conclusão

RESUMEN

Introducción

Objetivo

Métodos

Resultados

Conclusión

INTRODUCTION

METHOD

Object

Sports group

The lack of exercise group

METHOD

Instruments and items

Determination of PWV/ABI

Methods of measuring blood pressure, heart rate and oxygen saturation during exercise

Statistical processing

RESULTS

The effect of regular exercise on the vascular function of the elderly in plateau areas

The effect of exercise on the heart rate variability of healthy older adults at altitude

Observation of changes in blood pressure, heart rate and oxygen saturation during exercise

DISCUSSION

The effect of regular exercise on the blood indicators of healthy older adults at altitude

The impact of exercise on HRV of healthy older adults at an altitude

Discussion on changes in blood pressure, heart rate and oxygen saturation during exercise

CONCLUSION

ACKNOWLEDGMENTS

REFERENCES

Edited by

Publication Dates

History