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Books on the topic 'Cardiovascular exercise'

Author: Grafiati
Published: 4 June 2021
Last updated: 4 February 2022

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1

Bo, Fernhall, ed. Advanced cardiovascular exercise physiology. Champaign, IL: Human Kinetics, 2011.

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2

Cardiovascular system and physical exercise. Boca Raton, Fla: CRC Press, 1987.

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3

F, Gordon Neil, ed. Contemporary diagnosis and management in cardiovascular exercise. Newtown, Pennsylvania: Handbooks in Health Care Co., 2009.

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4

MSc, Holmes Jane MCSP, and Mapp Gareth, eds. Exercise on prescription: Cardiovascular activity for health. Oxford [England]: Butterworth-Heinemann, 1999.

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5

Xiao, Junjie, ed. Exercise for Cardiovascular Disease Prevention and Treatment. Singapore: Springer Singapore, 2017. http://dx.doi.org/10.1007/978-981-10-4304-8.

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6

Xiao, Junjie, ed. Exercise for Cardiovascular Disease Prevention and Treatment. Singapore: Springer Singapore, 2017. http://dx.doi.org/10.1007/978-981-10-4307-9.

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7

Stroke: Your complete exercise guide. Champaign, IL: Human Kinetics Publishers, 1993.

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8

1946-, Ross Robert M., ed. Understanding exercise for health and fitness. 2nd ed. Houston, Tex: CSI Software, 1992.

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9

Davis, J. Boyce. CVR fitness: A basic guide for cardio-vascular-respiratory exercise. 4th ed. Dubuque, Iowa: Kendall/Hunt Pub. Co., 1985.

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10

Human cardiovascular control. New York: Oxford University Press, 1993.

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11

Murtagh, Elaine Marie. The effects of walking for exercise on cardiovascular disease risk. [s.l: The Author], 2003.

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12

Physical activity and cardiovascular disease prevention. Sudbury, Mass: Jones and Bartlett, 2010.

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13

Maria, Cancela Carral Jose, and Varela Martinez Silvia, eds. Aerobic exercise in special populations. Hauppauge, N.Y: Nova Science, 2009.

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14

Warrior cardio: The revolutionary metabolic training system for burning fat, building muscle, and getting fit. New York: William Morrow, 2012.

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15

Sandblom, Erik. The venous circulation in teleost fish: Responses to exercise, temperature and hypoxia. Göteborg: Dept. of Zoology/Zoophysiology, Göteborg University, 2007.

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16

Crisafulli, Antonio. New insight into cardiovascular apparatus during exercise: Physiological and physio-pathological aspects. Trivandrum, Kerala, India: Research Signpost, 2007.

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17

NIH Consensus Development Conference on Physical Activity and Cardiovascular Health (1995). NIH Consensus Development Conference on Physical Activity and Cardiovascular Health: NIH Consensus Development Conference December 18-20, 1995. Bethesda, Maryland: National Institutes of Health, Continuing Medical Education, 1995.

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18

NIH Consensus Development Conference on Physical Activity and Cardiovascular Health (1995). NIH Consensus Development Conference on Physical Activity and Cardiovascular Health: NIH Consensus Development Conference, December 18-20, 1995, Natcher Conference Center, National Institutes of Health. Bethesda, Md: National Institutes of Health, Continuing Medical Education, 1995.

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19

Meyers, Casey. Aerobic walking: The best and safest, weight loss and cardiovascular exercise for everyone overweight or out of shape. New York: Vintage Books, 1987.

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20

1935-, Fletcher Gerald F., ed. Cardiovascular response to exercise. Mt. Kisco, NY: Futura Pub. Co., 1994.

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21

McManus, Bruce M. Cardiovascular Complications of Exercise. Year Book Medical Pub, 1990.

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22

Smith, Denise L., and Bo Fernhall. Advanced Cardiovascular Exercise Physiology. Human Kinetics, 2010.

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23

Arena, Ross, Dejana Popovic, Marco Guazzi, Amy McNeil, and Michael Sagner. Cardiovascular response to exercise. Edited by Guido Grassi. Oxford University Press, 2018. http://dx.doi.org/10.1093/med/9780198784906.003.0026.

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The body’s response to an exertional stimulus, if performed adequately to meet the imposed demand, is an orchestrated response predominantly among the cardiovascular, pulmonary, and skeletal systems. These physiological systems work together to ensure that up-titrated energy and force production demands are met. The magnitude of the exertional stimulus these systems are able to respond to, when an individual is in a true state of physiological health, is influenced by multiple factors including age, sex, biomechanics, genomics, and exercise training history. When one or more of these systems suffers from dysfunction, as is the case when an individual is at risk for (i.e. unhealthy lifestyle history) or diagnosed with a chronic disease, the response to a physical stimulus ultimately fails and exertional capacity is limited. There is a clear and well-established clinical relevance to the cardiovascular response to an exertional stimulus, commonly assessed through a graded aerobic exercise test on a treadmill or cycle ergometer. In fact, aerobic capacity has been referred to a key vital sign. We are also gaining an appreciation of how communication and presentation of information between health professionals and individuals receiving care significantly impacts comprehension and adherence to a plan of care. This chapter addresses these areas, beginning with a brief granular description of exertional cardiovascular physiology, transitioning to practical clinical implications of this information for health professionals, and ending with how the individuals seeking healthcare receive, process, and comprehend this information with the ultimate goal being real-world application and improved health outcomes.
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24

Wasserman, Karlman. Cardiopulmonary Exercise Testing and Cardiovascular Health. Wiley & Sons, Incorporated, John, 2008.

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25

Cardiopulmonary Exercise Testing and Cardiovascular Health. Blackwell Publishing Limited, 2002.

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26

Cardiovascular Physiology In Exercise And Sport. Churchill Livingstone, 2008.

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27

Wenger, Nanette K. Exercise and the Heart (Cardiovascular Clinics). 2nd ed. F. A. Davis Company, 1985.

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28

Rowland, Thomas W. Cardiovascular function. Oxford University Press, 2013. http://dx.doi.org/10.1093/med/9780199232482.003.0019.

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While the critical nature of blood perfusion during exercise is well recognized, many questions remain incompletely answered. What are the mechanisms by which circulation of blood is increased during exercise? By what means is circulatory flow tightly linked to tissue metabolic demands? What limits increases in circulatory flow during exhaustive exercise? By what mechanism does repeated exercise (i.e. fitness training) improve cardiovascular capacity? And—germane to the present discussion—are the answers to any or all of these questions diff erent in children than adults? Chapter 19 considers these issues, summarizing available information in the paediatric population from the perspectives of three different exercise models: progressive treadmill or cycle ergometer exercise to exhaustion, sustained constant-load submaximal exercise (cardiovascular drift ), and isometric or resistance exercise.
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29

Whelan, Christina M. Cardiovascular regulation following exercise in postmenopausal women. 2006.

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30

Holmes, Jane, John Buckley, and Gareth Mapp. Exercise on Prescription: Cardiovascular Activity for Health. Butterworth-Heinemann, 1999.

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31

Franklin, Barry A., and Neil F. Gordon. Contemporary Diagnosis and Management in Cardiovascular Exercise. Handbooks in Health Care Company, 2005.

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32

Rowland, Thomas W. Cardiovascular function. Edited by Neil Armstrong and Willem van Mechelen. Oxford University Press, 2017. http://dx.doi.org/10.1093/med/9780198757672.003.0011.

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The circulatory response to increased metabolic demands of endurance exercise is best explained by a model in which volume of circulatory flow is governed by alterations in peripheral vascular resistance. These dynamics of the cardiovascular response to an acute bout of progressive endurance exercise are similar in children and adults, and, when adjusted for body size, true cardiovascular fitness (ability to generate cardiac output) is no different in healthy, untrained pre- and postpubertal individuals. As in adults, the capacity to eject stroke volume at maximal exercise differentiates levels of physiological fitness (maximal oxygen uptake) between individual children. Stroke volume at exhaustive exercise, in turn, appears to be governed by factors which influence left ventricular diastolic size rather than those which dictate myocardial systolic and diastolic function.
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33

Warburton, Darren E. R., Lindsay Nettlefold, K. Ashlee McGuire, and Shannon S. D. Bredin. Cardiovascular function. Oxford University Press, 2013. http://dx.doi.org/10.1093/med/9780199232482.003.0007.

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The physiological adaptations to exercise training have been evaluated extensively in children and youth. In particular, considerable research has examined the changes in cardiovascular function that occur with aerobic exercise training. Various indicators of cardiovascular function have been assessed at rest and during exercise. Many of these measures have important implications from performance and health-related perspectives. Owing to the importance of oxygen (O2) transport for human performance and health, this chapter reviews comprehensively the varied non-invasive and invasive methods of assessing cardiac function including an in-depth evaluation of the limitations and strengths of each methodology. Specific reference is given to the applicability and ease of usage of each technology with young people. This chapter also deals extensively with the evaluation of cardiovascular regulation and vascular function owing to their role in optimal exercise performance and health.
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34

Sports Cardiology: Exercise in Health and Cardiovascular Disease (Developments in Cardiovascular Medicine). Springer, 1986.

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35

Cardiopulmonary exercise testing. Orlando: Grune & Stratton, 1986.

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36

R, Leff Alan, ed. Cardiopulmonary exercise testing. Orlando: Grune & Stratton, 1986.

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37

The cardiovascular and metabolic responses of men with cardiovascular disease to aqua dynamic exercise. 1990.

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38

The cardiovascular and metabolic responses of men with cardiovascular disease to aqua dynamic exercise. 1992.

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39

Fagard, R. H. Sports Cardiology: Exercise in Health and Cardiovascular Disease. Ingramcontent, 2012.

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40

Sports Cardiology: Exercise in health and cardiovascular disease. Springer, 2012.

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41

H, Fagard R., and Bekaert I. E, eds. Sports cardiology: Exercise in health and cardiovascular disease. Dordrecht: Nijhoff, 1986.

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42

Turner, Michael John. Cardiovascular adaptations to one-leg training. 1990.

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43

Thompson, Paul D., M.D, ed. Exercise and sports cardiology. New York: McGraw-Hill, Medical Pub. Division, 2001.

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44

Long term exercise and cardiovascular risk in corporate executives. 1989.

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45

Long term exercise and cardiovascular risk in corporate executives. 1987.

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46

Cardiovascular and thermoregulatory impairment during submaximal exercise with acetazolamide. 1987.

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47

Cardiovascular and thermoregulatory impairment during submaximal exercise with acetazolamide. 1988.

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48

Nardi, Andrea L., Karen Kessler, and Barbara J. Battle. Cardiovascular Programs for the Frail and Well Elderly. American Association for Active Lifestyles an, 2004.

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49

Prout, Jeremy, Tanya Jones, and Daniel Martin. Cardiovascular system. Oxford University Press, 2014. http://dx.doi.org/10.1093/med/9780199609956.003.0001.

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This chapter covers the assessment and investigation of perioperative cardiac risk, the principles of perioperative haemodynamic monitoring and physiological changes in cardiac comorbidity with their relevance to anaesthetic management. Perioperative cardiovascular risk includes assessment of cardiac risk factors, functional capacity and evidence-based guidelines for preassessment. Cardiovascular investigations such as cardiopulmonary exercise testing and scoring systems for cardiac risk are included. Management of the cardiac patient for non-cardiac surgery is detailed. Invasive monitoring with arterial, central venous and pulmonary artery catheters is described. Cardiac output measurement systems including dilution techniques, pulse contour analysis and Doppler are compared. The physiological changes, management and implications for anaesthesia of common cardiac comorbidity including ischaemic heart disease, heart failure, valvular heart disease, pacemakers and pulmonary hypertension are described.
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50

Caroline, Mara, Ryan Bradley, and Mimi Guarneri. Cardiovascular Disease. Oxford University Press, 2018. http://dx.doi.org/10.1093/med/9780190466268.003.0013.

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The older population is challenging to treat for numerous reasons, including comorbid conditions and increased susceptibility to adverse drug reactions, limiting medical therapy. They are at increased risk for loneliness and depression, which strongly impacts their cardiovascular outcomes, and they also have different values, usually prioritizing quality of life over mortality objectives. Finally, the elderly are underrepresented in cardiovascular clinical trials, thus limiting the applicability of guideline recommendations. This chapter emphasizes the importance of a comprehensive assessment of individual circumstances when assessing cardiovascular health in the elderly population. The chapter focuses on the role of nutrition, resiliency, and exercise for the prevention and treatment of cardiovascular disease. Nutrient deficiencies commonly seen with cardiovascular drugs are also discussed, as well as specific integrative strategies for optimizing dyslipidemia, atrial fibrillation, and heart failure in this population.
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