Laboratory Manual for Exercise Physiology - G. Gregory Haff, Charles Dumke

Laboratory Manual for Exercise Physiology

Loseblattwerk
520 Seiten
2022 | Third Edition
Human Kinetics (Verlag)
978-1-7182-0855-1 (ISBN)
109,70 inkl. MwSt
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Laboratory Manual for Exercise Physiology, Third Edition With HKPropel Access, provides guided lab activities for in-person or virtual settings that allow students to translate their scientific understanding of exercise physiology into practical applications.
This loose-leaf format of Laboratory Manual for Exercise Physiology, Third Edition With HKPropel Access, offers students a convenient and easy way to complete and submit laboratory assignments to their instructor in the classroom.

Laboratory Manual for Exercise Physiology, Third Edition With HKPropel Access, provides guided lab activities that allow students to translate their scientific understanding of exercise physiology into practical applications. Written by experts G. Gregory Haff and Charles Dumke, the multiple lab activities are designed so they can be completed in any educational setting. The third edition is supported by full-color images and the addition of several new online interactive lab activities, which are ideal for labs with limited equipment as well as labs that are running completely in an online format.

The updated third edition comprises 16 laboratory chapters that offer a total of 59 lab activities. Each laboratory chapter provides a complete lesson, including objectives, definitions of key terms, and background information that sets the stage for learning. Each lab activity has step-by-step procedures, providing guidance for those new to lab settings so that they can complete the procedures. A lab activity finder makes it easy to locate specific tests. In addition to 10 new lab activities found in the text, the third edition features the following related online learning tools delivered through HKPropel:

Twenty-seven interactive lab activities with video to enhance student learning and simulate the experience of performing the labs in the real world; online lab activities are assignable and trackable by instructors
More than 100 case studies for students, with sample answers provided for instructors, and question sets for every laboratory activity to further facilitate practical application of the data
Guided notes to help students prepare for each lab by offering an introduction and prompting them to seek specific information through their reading of the chapter
Electronic versions of individual and group data sheets for students to input data from the laboratory activities they conduct
Chapter quizzes (assessments) that are automatically graded and may also be assigned by instructors to test comprehension of critical concepts

In addition to these online activities, the third edition of Laboratory Manual for Exercise Physiology features a laboratory chapter on high-intensity fitness training that includes several popular intermittent fitness tests that students can learn to perform and interpret. Information in the appendixes provides students with a wealth of information, including helping them to estimate the oxygen cost of walking, running, and cycling. The text offers new research and information pertaining to each laboratory topic.

Laboratory Manual for Exercise Physiology, Third Edition With HKPropel Access, exposes students to a broad expanse of tests that are typically performed in an exercise physiology lab and that can be applied to a variety of professional settings. As such, the text serves as a high-quality resource for basic laboratory testing procedures used in assessing human performance, health, and wellness.

Note: A code for accessing HKPropel is included with all new print books.

G. Gregory Haff, PhD, CSCS,*D, FNSCA, is a full professor and the course coordinator for the postgraduate degree in strength and conditioning at Edith Cowan University in Joondalup, Australia. Haff has published more than 150 articles, centering his research on performance effects in the areas of strength training, cycling, and nutritional supplementation. Haff is a past president of the National Strength and Conditioning Association (NSCA) and a senior associate editor for the Journal of Strength and Conditioning Research. He was the United Kingdom Strength and Conditioning Association (UKSCA) Strength and Conditioning Coach of the Year for Education and Research and the 2011 NSCA William J. Kraemer Outstanding Sport Scientist Award winner. He is a certified strength and conditioning specialist with distinction (CSCS,*D), a UKSCA-accredited strength and conditioning coach (ASCC), and an accredited Australian Strength and Conditioning Association level 2 strength and conditioning coach. Additionally, Haff is a national-level weightlifting coach in the United States and Australia. He serves as a consultant for numerous sporting bodies, including teams in the Australian Football League, Australian Rugby Union, Australian Basketball Association, and National Football League. Charles Dumke, PhD, is a full professor and graduate program coordinator in the School of Integrative Physiology and Athletic Training at the University of Montana. He has taught both undergraduate and graduate courses in exercise physiology and sport nutrition for over 20 years. He earned his doctoral degree in kinesiology from the University of Wisconsin at Madison. His areas of interest in exercise science are energy expenditure, fuel utilization, economy of movement, mechanisms of mitochondrial adaptation, and diabetes. He has published more than 120 peer-reviewed articles. In his free time, Dumke enjoys competing in triathlons, biking, running, taking on building projects with little know-how, and coaching his son in all sorts of sports.

Laboratory 1. Primary Data Collection
Test Variables
Measurement Terminology
Metric Conversions
Background and Environmental Information
Descriptive Statistics
Presentation of Results
Interpretation of Data
Poster Presentations
Laboratory Activity 1.1 Basic Data
Laboratory Activity 1.2 Statistical Procedures
Laboratory Activity 1.3 Tables and Graphs
Laboratory Activity 1.4 Creating a Poster Presentation

Laboratory 2. Pretest Screening
Informed Consent
Physical Activity Readiness Questionnaire for Everyone
Health History Questionnaire
Signs and Symptoms of Disease and Medical Clearance
Coronary Risk Factor Analysis
Lifestyle Evaluation
Disease Risk Stratification
Laboratory Activity 2.1 Basic Screening Procedures
Laboratory Activity 2.2 Pretest Results

Laboratory 3. Flexibility Testing
Direct and Indirect ROM Assessment
Body Areas
Beighton Scoring System
Laboratory Activity 3.1 Traditional, Wall, V-Sit, and Chair Sit-and-Reach Test Comparisons
Laboratory Activity 3.2 YMCA, Backsaver, and Goniometer Test Comparisons
Laboratory Activity 3.3 Canadian, Traditional, and Backsaver Sit-and-Reach Test Comparisons
Laboratory Activity 3.4 Shoulder Flexibility Test Comparisons
Laboratory Activity 3.5 Measuring Ankle Dorsiflexion Range of Motion (ROM)
Laboratory Activity 3.6 Beighton Scoring System Test

Laboratory 4. Blood Pressure Measurements
Blood Pressure Responses to Exercise
Accurate Blood Pressure Checks
Blood Pressure Devices
Laboratory Activity 4.1 Effects of Body Position on Blood Pressure
Laboratory Activity 4.2 Effects of Dynamic Exercise on Blood Pressure
Laboratory Activity 4.3 Effects of Isometric Contractions on Blood Pressure

Laboratory 5. Resting Metabolic Rate Determinations
Aerobic Metabolism and Respiratory Exchange Ratio
Total Energy Expenditure and Resting Metabolic Rate (RMR)
Laboratory Activity 5.1 Estimating Resting Metabolic Rate (RMR)
Laboratory Activity 5.2 Measuring Resting Metabolic Rate (RMR)

Laboratory 6. Oxygen Deficit and EPOC Evaluations
Transition From Rest to Exercise
Oxygen Uptake During Exercise and Recovery
Laboratory Activity 6.1 Calculation of Oxygen Deficit and EPOC on a Treadmill
Laboratory Activity 6.2 Calculation of Oxygen Deficit and EPOC on a Bike
Laboratory Activity 6.3 EPOC Following a Wingate Test

Laboratory 7. Submaximal Exercise Testing
Measurement of Heart Rate
Rating of Perceived Exertion
Laboratory Activity 7.1 Submaximal Bench Step Test
Laboratory Activity 7.2 Submaximal Treadmill Test
Laboratory Activity 7.3 Submaximal Cycle Ergometer Test

Laboratory 8. Aerobic Power Field Assessments
Cooper 1.5-Mile Run/Walk Test
Cooper 12-Minute Run/Walk Test
Rockport Fitness Walking Test
6-Minute Walk Test (6MWT)
Laboratory Activity 8.1 Cooper 1.5-Mile Run/Walk Test and 12-Minute Run/Walk Test
Laboratory Activity 8.2 Rockport Fitness Walking Test
Laboratory Activity 8.3 6-Minute Walking Test (6MWT)

Laboratory 9. High-Intensity Fitness Testing
Léger 20 m Shuttle Run Test
Yo-Yo Intermittent Recovery Test
30-15 Intermittent Fitness Test
Laboratory Activity 9.1 Léger 20 m Shuttle Run Test (20mSRT)
Laboratory Activity 9.2 Yo-Yo Intermittent Recovery Test (Yo-Yo IRT)
Laboratory Activity 9.3 30-15 Intermittent Fitness Test (30-15IFT-40m)
Laboratory Activity 9.4 Modified 30-15 Intermittent Fitness Test (30-15IFT-28m)

Laboratory 10. Maximal Oxygen Consumption Measurements
Selecting a Test Protocol
Monitoring Progress With RPE Scales
Estimating Fuel Usage With RER
Ventilatory Threshold
Laboratory Activity 10.1 Graded Treadmill VO2max Test
Laboratory Activity 10.2 Cycle Ergometer VO2max Test

Laboratory 11. Blood Lactate Threshold Assessment
Determining the Deflection Point
Selecting a Test Method
Role of the Ventilatory Threshold
Laboratory Activity 11.1 Blood Lactate Measurement at Rest
Laboratory Activity 11.2 LT During an Incremental Cycle Test
Laboratory Activity 11.3 Blood Lactate After Anaerobic Exercise

Laboratory 12. Musculoskeletal Fitness Measurements
Assessments of Muscular Strength
Assessments of Muscular Endurance
Laboratory Activity 12.1 Maximal Upper-Body Strength
Laboratory Activity 12.2 Creating a Load-Velocity Profile and Predicting 1RM
Laboratory Activity 12.3 Maximal Lower-Body Strength
Laboratory Activity 12.4 Maximal Handgrip Strength
Laboratory Activity 12.5 Upper-Body Muscular Endurance

Laboratory 13. Anaerobic Fitness Measurements
Sprinting Performance Tests for Estimating Horizontal Power
Jumping Performance Tests for Determining Vertical Power
Formulas for Estimating Vertical Power
Testing Interlimb Asymmetries With Bilateral and Unilateral Jump Tests
Bosco Test for Estimating Power Endurance
Determining the Eccentric Utilization Ratio
Wingate Anaerobic Test for Determining Anaerobic Cycling Power
Margaria-Kalamen Stair-Climb Test for Determining Anaerobic Power
Laboratory Activity 13.1 Sprinting Performance
Laboratory Activity 13.2 Jumping Performance
Laboratory Activity 13.3 Jumping Performance With a Switch Mat
Laboratory Activity 13.4 Jump Performance: Comparing a Smartphone App With a Switch Mat
Laboratory Activity 13.5 Determining Asymmetries With a Force Plate
Laboratory Activity 13.6 Power Endurance
Laboratory Activity 13.7 Anaerobic Cycling Power
Laboratory Activity 13.8 Margaria-Kalamen Stair-Climb Test

Laboratory 14. Pulmonary Function Testing
Pulmonary Function Testing
Pulmonary Function Testing as a Tool for Diagnosing Pulmonary Disease
Respiratory Limitations on Exercise
Laboratory Activity 14.1 Lung Volumes and Capacities
Laboratory Activity 14.2 Pulmonary Function
Laboratory Activity 14.3 Exercise-Induced Ventilatory Limitations
Laboratory Activity 14.4 Exercise-Induced Asthma

Laboratory 15. Body Composition Assessments
Body Composition Models
BMI for Categorizing Health Risk
Circumference Measurements and Health Risk
Skinfold Thickness as a Measure of Body Fat
Laboratory Activity 15.1 BMI and Circumference Data
Laboratory Activity 15.2 Bioelectrical Impedance
Laboratory Activity 15.3 Techniques for Measuring Skinfold Thickness
Laboratory Activity 15.4 Estimating Relative Body Fat Using Hydrodensitometry

Laboratory 16. Electrocardiograph Measurements
Electrical Activity of the Heart
Placement of ECG Leads
Interpreting the ECG Recording
ECG as a Tool for Diagnosing Cardiac Abnormalities
Heart Rate Response to Exercise
Laboratory Activity 16.1 Resting ECG
Laboratory Activity 16.2 Effects of Body Position on the Heart Axis
Laboratory Activity 16.3 Submaximal Exercise Effects With a 12-Lead ECG

Appendix A: Units of Measure Conversions
Appendix B: Estimation of the O2 Cost of Walking, Running, and Leg Ergometry
Appendix C: Haldane Transformation
Appendix D: Metabolic Cart Information
Appendix E: Calibration of Equipment

Erscheinungsdatum
Verlagsort Champaign, IL
Sprache englisch
Gewicht 1406 g
Themenwelt Studium 1. Studienabschnitt (Vorklinik) Anatomie / Neuroanatomie
Studium 1. Studienabschnitt (Vorklinik) Physiologie
Naturwissenschaften Biologie
ISBN-10 1-7182-0855-3 / 1718208553
ISBN-13 978-1-7182-0855-1 / 9781718208551
Zustand Neuware
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