Archive for the ‘Cardiovascular Fitness Content (4 parts)’ Category

Cardiovascular Fitness References

Saturday, February 28th, 2009

Part 4 of a continuing series.

Parts 1 through 3

By John Kruse

Table I

NORMS
FOR MAXIMAL OXYGEN CONSUMPTION (ml/kg/min)
AGE Poor Fair Average Good Superior
4-6 boys 36-40 41-44 45-53 54-58 59+
girls 36-39 40-43 44-52 53-56 57+
7-9 boys 46-49 50-52 53-61 62-64 65+
girls 46-48 49-51 52-58 59-62 63+
10-11 boys 45-48 49-52 53-60 61-63 64+
girls 44-46 47-49 50-55 56-57 58+
12-13 boys 49-51 52-53 45-59 60-61 62+
girls 42-44 45-46 47-52 53-55 56+
14-15 men 51-53 54-56 57-62 63-65 66+
women 36-38 39-42 43-49 50-53 54+
16-17 men 45-48 49-52 53-62 63-66 67+
women 39-41 42-44 45-50 51-52 53+
18-19 men 46-49 50-53 54-63 64-67 68+
women 39-41 42-44 45-51 52-54 55+
20-29 men 46-49 50-44 55-63 64-67 68+
wome 39-41 42-44 45-52 53-55 56+

Source: Mastropaolo et al.
Please note: Norms are based off of data reported by Åstrand.

Table II

Boys
Age VO2max
10 42-52
11 42-52
12 42-52
13 42-52
14 42-52
15 42-52
16 42-52
17 42-52
17+ 42-52
Girls
Age VO2max
10 39-47
11 38-46
12 37-45
13 36-44
14 35-43
15 35-43
16 35-43
17 35-43
17+ 35-43

Source: Modified table from the FITNESSGRAM, ACTIVITYGRAM Test Administration Manual

Criterion reference used by the Fitnessgram and known as the “healthy fitness zone.”

References:

Åstrand, P.O. Experimental studies of physical working capacity in relation to sex and age. Copenhagen: Enjar Munksgaard, 1952. p. 171.

Brooks, G. A., T. D. Fahey, T.P. White & K.M. Baldwin (2000). Exercise Physiology, Human Bioenergetics and Its Applications (3rd ed.). Mountain View, CA: Mayfield Publishing Company.

Cureton, K.J., M.A. Sloniger, J.P. O’Bannon, D.M. Black, and W.P. McCormack. A generalized equation for prediction of VO2peak from 1-mile run/walk performance. Med. Sci. Sports Exerc. 27:445-51, 1995.

DeVries, H., Physiology of Exercise For Physical Education and Athletics. Dubuque, IA: Wm. C. Brown Publishers, 1986. p. 257.

Mastropaolo, J. A., T.W. Bigelow, M. J. Lyon, and Y. Takei. Training manual for the practice of exercise physiology. Paramont, CA: Academy Printing and Publishing Company, 1977. p. 25.

Rowland, T., G. Kline, D. Goff, L. Martel, and L. Ferrone. One-mile run performance and cardiovascular fitness in children. Arch. Pediatr. Adolesc. Med. 153:845-849.

Shaver, L.G. Maximal aerobic power and anaerobic work capacity prediction from various running performances of untrained college men. J. of Sports Med. Phys. Fitness 15:147-0, 1975.

Cureton, KJ, Warren BL. (1990). Criterion-referenced standard for youth health-related fitness tests: a tutorial. Res Q Exerc Sport 61:7-19.

Blair, SN, Kohl HW, Paffenburger RS, Clark DG, Cooper KH, Gibbons LW. 1989. Physical fitness and all-cause mortality: a prospective study of healthy men and women. JAMA 262:2395-2401.

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Measuring Cardiovascular Fitness

Wednesday, January 21st, 2009

Part 3 of a multi-part series.

While the measurement of VO2max is important, its accurate measurement through a laboratory measure is cost prohibitive for physical education. This means that field tests are used to measure cardiovascular function. The field tests used by physical educators are calibrated with laboratory measures for accuracy. While they are not as accurate as laboratory measures, students and teachers can still benefit by using them to measure fitness.

Common field tests used to measure cardiovascular fitness include the mile run/walk, the Progressive Aerobic Cardiovascular Endurance Run (PACER), and the walk test for ages thirteen and older. The mile run/walk is not necessarily the most accurate measure of aerobic capacity. Instead, a multiple regression formula that is more accurate can be used. This formula takes into account various contributing variables to get a more accurate estimate of VO2max. These variables include mile run/walk time, age, gender, and body mass index. The teacher or student can easily collect all of these data. As a result, the teacher can effortlessly calculate VO2max for an entire group of students using a spreadsheet.

Boys & Girls

Differences can be seen in terms of VO2max between boys and girls. The average VO2max for girls at age five is approximately 50 ml/kg/min and steadily declines to about 42 ml/kg/min by age sixteen. For boys however, the average VO2max at age five is 50 ml/kg/min. This average remains the same during the growing years and at age sixteen, the average is still 50 ml/kg/min.

Differences in mile run times can be seen as well. Average mile run times at age five are 15 minutes for five year old girls and steadily get better until they plateau at about age 13 with an average time of 10 minutes. Average mile run times in girls actually get a little slower at about age 16 with times closer to 11 minutes 30 seconds. In boys, however, average mile run times are about 14 minutes for five-year-olds and steadily get better until age 15 or 16 where the average is about 7 minutes.

It was stated earlier that VO2max may be the single most important health related fitness measure according to Brooks et al. However, according to Rowland, mile run times and VO2max may not be the best means of assessing changes in aerobic fitness in youth. Clearly, teachers should be cautious when examining longitudinal changes in VO2max during the growing years. This is why the criterion reference standards used for the Healthy Fitness Zone for VO2max in the Fitnessgram assessment decrease with increasing age while the criterion for boys remain the same.

Norms vs. Criterion Reference Standards

Norm-referenced assessments are designed to compare the performance of an individual with the performance of a normative group. Mastropaolo, et al. has suggested norm-reference standards for VO2max.

The FITNESSGRAM is an example of a criterion-referenced standardized assessment used to measure health related physical fitness. It was developed by a panel of experts using a combination of empirical data, normative data, and judgment as the basis for the standards. For cardiovascular fitness, data pertaining to all-cause mortality rates were used in this decision process.

Improvements in Cardiovascular Fitness

You may be wondering what types of improvement in VO2max you can expect as a physical educator. Rowland reports that in the prebubertal child, improvements of only 5% to 10% can be seen from a standard endurance training program of sufficient duration, intensity and frequency. Rowland also points out that most pediatric studies of VO2max demonstrate increases that are no more than one-third of increases of 30% seen in adults. Rowland suggests that these results may be due to the methods used in the studies or possibly a biological mechanism such as blood volume or cellular aerobic capacity.

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What is Cardiovascular Fitness?

Wednesday, January 14th, 2009

Part 2 of a multi-part series.

By John Kruse

Part 1: Cardiovascular Fitness

Cardiovascular fitness is known by many names such as as aerobic fitness, cardiovascular function, aerobic capacity, cardiovascular endurance, maximal oxygen consumption and VO2max. Essentially, it is the body’s ability to use oxygen. A person with excellent cardiovascular fitness can use a higher volume of oxygen that is brought into the body from the air that they breathe. A person who is lacking cardiovascular fitness uses a lower amount of oxygen from the air that they breathe. Oxygen is essential for life and the physical work that we do. This physical work can be activities of daily living, manual labor or physical exercise.

All of our activities, including sleeping require oxygen. This is because our muscles require oxygen to contract. These contracting muscles require more oxygen for higher workloads. In the laboratory, we can measure the amount of oxygen that is required for exercise. This measurement is called VO2. The V stands for volume and the O2 stands for oxygen the dot over the V stands for rate. Fitter individuals require less oxygen for a given workload than less fit people since their bodies are more efficient at using the oxygen that is taken into the body.

Maximal Oxygen Uptake

We measure aerobic fitness and express it in terms of VO2max. At maximal workloads VO2max is the measure of how much oxygen is being used by the body. In other words, it is the maximum amount or volume of oxygen that a person can utilize during maximal exercise. This is expressed as an absolute measure in liters per min (L/min), or as a relative measure in milliliters per kilogram per minute (ml/kg/min).

According to DeVries, VO2max either measures directly or indirectly the following:

  1. cardiovascular function,
  2. respiratory function,
  3. muscular efficiency,
  4. strength,
  5. muscular endurance,
  6. and, obesity (since VO2max is usually expressed in milliliters of O2 per kg of body weight)

Why is Cardiovascular Fitness Important?

According to Brooks et al., cardiovascular fitness is the single most important measure of fitness for physical educators:

…realization that physical work capacity, VO2max, and cardiovascular fitness are interrelated has resulted in a convergence of physical education (athletic performance) and medical (clinical) definitions of fitness. From the physical education—athletics perspective, cardiovascular function determines VO2max, which in turn determines physical work capacity, or fitness. From the medioclincal perspective, fitness involves, minimally, freedom from disease. Because cardiovascular disease is the greatest threat to the health of individuals in contemporary Western society, medical fitness is largely cardiovascular fitness…. In fact, VO2max is so important form both the physical education—athletics and medioclinical perspectives, it has emerged as the single most important criterion of physical fitness.

Coming up: How do you measure VO2max in a physical education environment?

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Cardiovascular Fitness

Wednesday, January 7th, 2009

Part 1 of a multi-part series.

By John Kruse

What expectations do we set for our students in regard to cardiovascular fitness? Is it the ability to list it as one of five components of fitness? Is it to be able to run a certain number of laps to get a grade for the day and somehow gain a lifelong appreciation for physical activity and aerobic fitness? Or, do we expect students to simply know that it has to do their hearts and lungs?

Are the above examples a marginalization of physical education; or, can we expect our students to have a deeper and better understanding of what cardiovascular fitness is and why its important?

The National Board Certification Standards for physical education state that:

Teachers are knowledgeable about the organic, skeletal, and neuromuscular structures of the human body and how these structures contribute to motor performance. Fundamentally, teachers understand and can communicate to students how the human body functions and moves. They understand how principles of biomechanics and exercise physiology relate to a broad range of movement activities…Teachers understand components of health related physical fitness, such as body composition, cardiovascular endurance, flexibility, muscular endurance, and muscular strength.

If we examine the science content for seventh graders in California, we see that they are expected to know the concept of respiration and photosynthesis. They cover the importance of oxygen in converting glucose to energy. They typically learn about human body organ systems with content that includes the skeletal system, the muscular system, food, digestion, circulation, respiration, excretion, the nervous system, the endocrine system and reproduction. They also learn about preventing noninfectious diseases.

This provides the physical educator with a rich opportunity to bring the physical education curriculum and the science curriculum together. In addition, the physical education teacher should recognize that their instructional context and teaching environment provides students with the best possible science laboratory for this content. Is there really any better way to learn the content having to do with respiration and circulation than to relate it to oneself?

The following will give the reader a deeper and more thorough understanding of cardiovascular fitness. Much of the information has been collected from a variety of resources and put into this review for your convenience. The reader should be able to use the information for the design of better lessons, communication of cardiovascular fitness to parents, measurement of cardiovascular fitness of students and exercise prescription planning.

Coming next week: What is the measure of cardiovascular fitness?

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