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Outline: 1.Benefits of Strength Training 2.Changes in Body Composition 3.Assessment of Muscular Strength & Endurance 4.Strength-Training Prescription 5.Strength Gains 6.Strength-Training Exercises 7.Dietary Guidelines for Strength Development 8.Core Strength Training 9.Exercise Safety Guidelines 10.Setting Up Your Own Strength Training Program Chapter 7 Muscular Strength & Endurance © 2010 Cengage-Wadsworth 1 2 3 4 5 6 7 8 9 Muscular Strength & Endurance • A well-planned strength-training program will help to improve and maintain everyday functional physical capacity • Strength-training leads to increased muscle strength and endurance, muscle tone, tendon and ligament strength, and bone density © 2010 Cengage-Wadsworth 10 1 2 3 4 5 6 7 8 9 Benefits of Strength Training • Increasing strength: – Increases or maintains muscle and a higher resting metabolic rate – Encourages weight loss and maintenance – Decreases the risk for injury – Prevents osteoporosis – Reduces chronic back pain and alleviates arthritic pain – Aids in childbearing – Improves cholesterol levels – Promotes psychological well-being – May help lower the risk of high blood pressure and diabetes © 2010 Cengage-Wadsworth 10 1 2 3 4 5 6 7 8 9 Muscular Strength & Aging • Muscular strength may be the most important health-related fitness component in the older adult population • Good strength contributes more to independent living than any other fitness component • Older adults with good strength levels can successfully perform most activities of daily living © 2010 Cengage-Wadsworth 10 1 2 3 4 5 6 7 8 9 Muscular Strength & Aging • A common occurrence in aging is sarcopenia - the age-related loss of lean body mass, strength, and function • Gradual loss of muscle mass and frailty lead to falls and loss of function • Strength training helps to slow the agerelated loss of muscle function • In some older adults, protein deficiency contributes to loss of lean tissue © 2010 Cengage-Wadsworth 10 2 1 3 4 5 6 7 8 9 Muscular Strength & Aging • Data indicates that strength training can enhance quality of life – – – – Improves balance and restores mobility Makes lifting and reaching easier Decreases the risk for injuries and falls Stresses the bones and preserves bone mineral density, decreasing the risk for osteoporosis • Increases muscle mass or size, known as muscle hypertrophy, thereby increasing metabolism © 2010 Cengage-Wadsworth 10 1 2 3 4 5 6 7 8 9 Selected Detrimental Effects from Using Anabolic Steroids © 2010 Cengage-Wadsworth 10 1 2 3 4 5 6 7 8 9 Changes in Body Composition • People, especially women, often become discouraged because they do not see quick results on the scale • Regularly determining body composition to monitor changes in percent body fat can offset discouragement © 2010 Cengage-Wadsworth 10 1 2 3 4 5 6 7 8 9 Assessment of Muscular Strength & Endurance • Muscular strength: The ability of a muscle to exert maximum force against resistance • Muscular endurance: The ability of a muscle to exert submaximal force repeatedly over time © 2010 Cengage-Wadsworth 10 1 2 3 4 5 6 7 8 9 Assessment of Muscular Strength & Endurance • Muscular endurance or “localized muscular endurance” largely depends on muscular strength as weak muscles cannot repeat an action several times or sustain it • Strength tests and training programs have been designed to measure and develop absolute muscular strength, muscular endurance or both © 2010 Cengage-Wadsworth 10 1 2 3 4 5 6 7 8 9 Assessment of Muscular Strength & Endurance • Muscular strength is often determined by the maximal amount of resistance (weight)--one repetition maximum, or 1 RM--an individual is able to lift in a single effort • 1 RM is determined through trial and error • A true 1 RM might be difficult to obtain the first time an individual is tested as fatigue becomes a factor © 2010 Cengage-Wadsworth 10 1 2 3 4 5 6 7 8 9 Assessment of Muscular Strength & Endurance • Muscular endurance is often established by the number of repetitions an individual can perform against a submaximal resistance or by the length of time a given contraction can be sustained • In strength testing, several body sites should be assessed because muscular strength and endurance are both highly specific • A high degree of strength or endurance in one body part does not necessarily indicate similarity in other parts, so no single strength test provides a good assessment of overall strength • To make valid comparisons, you should use the same test for pre- and post-assessments © 2010 Cengage-Wadsworth 10 1 2 3 4 5 6 7 8 9 Strength-Training Prescription • Muscle cells can exert more or less force according to the demands placed upon the muscular system • If muscle cells are overloaded as in a strengthtraining program, the cells hypertrophy or increase in size • If demands on muscle cells decrease as in sedentary living or required rest because of illness or injury, the cells atrophy and lose strength • Muscular strength is important to develop and maintain fitness, health, and total well-being © 2010 Cengage-Wadsworth 10 2 1 3 4 5 6 7 8 9 Factors that Affect Strength • Physiological factors combine to create muscle contraction and subsequent strength gains – – – – Neural stimulation Type of muscle fiber Overload Specificity of training • Basic knowledge of these concepts is important to understand the principles involved in strength training © 2010 Cengage-Wadsworth 10 1 2 3 4 5 6 7 8 9 Types of Muscle Fiber • The body has two basic types of muscle fibers: – Slow-twitch or red fibers – Fast-twitch or white fibers • Slow-twitch fibers have a greater capacity for aerobic work • Fast-twitch fibers have a greater capacity for anaerobic work, produce more overall force for quick, powerful movements as in strength-training activities © 2010 Cengage-Wadsworth 10 1 2 3 4 5 6 7 8 9 Types of Muscle Fiber • Genetics determines the ratio of slow- and fasttwitch fibers • Training increases the functional capacity of both fiber types • Strength training increases their ability to exert force • During muscular contraction, slow-twitch fibers are always recruited first • As force and speed of the contraction increase, fast-twitch fibers become important • Intense, powerful activity activates fast-twitch fibers © 2010 Cengage-Wadsworth 10 1 2 3 4 5 6 7 8 9 Overload • Strength gains are achieved in two ways: – Increased ability of individual muscle fibers to generate a stronger contraction – Recruiting a greater proportion of total available fibers per contraction • These two factors combine in the overload principle - demands placed on a system must be systematically and progressively increased over time to cause improvement or development • Strength training is also called progressive resistance training © 2010 Cengage-Wadsworth 10 1 2 3 4 5 6 7 8 9 Overload • Procedures used to overload in strength training: – Increasing resistance – Increasing number of repetitions – Increasing or decreasing speed of the normal repetition – Decreasing the rest interval for endurance gains or lengthening the rest interval for strength gains – Increasing the volume (total reps performed multiplied by the resistance used) – Using any combination of the above © 2010 Cengage-Wadsworth 10 1 2 3 4 5 6 7 8 9 Specificity of Training • Principle of specificity of training – for a muscle to increase in strength or endurance, the training program must be specific to obtain the desired effects • The principle is commonly referred to as SAID training (specific adaptation to imposed demands) • The SAID principle suggests that to improve specific sport skills, the strength training exercises performed should closely resemble the movement patterns used in that specific sport or activity • Understanding neural stimulation, muscle fiber types, overload, and specificity is required to effectively design a strength training program © 2010 Cengage-Wadsworth 10 1 2 3 4 5 6 7 8 9 Principles Involved in Strength Training • Principles necessary to develop a strength training program: – – – – – Mode Resistance Sets Frequency Volume of training • Key factor for success in muscular strength development is the individualization of the program according to these principles, the person’s goals, and the magnitude of the individual’s effort during training © 2010 Cengage-Wadsworth 10 1 2 3 4 5 6 7 8 9 Mode of Training • Two types of training methods are used to improve strength: – Isometric (static) – Dynamic • Isometric training: muscle contractions produce little or no movement as in pushing or pulling against an immovable object • Dynamic training: muscle contractions produce movement as in leg extensions • To increase isometric versus dynamic strength, static instead of dynamic training must be used © 2010 Cengage-Wadsworth 10 1 2 3 4 5 6 7 8 9 In isometric training, muscle contraction produces little or no movement © 2010 Cengage-Wadsworth 10 1 2 3 4 5 6 7 8 9 Dynamic Training Most popular mode for strength training Strength is gained through full range of motion • Improvements are measured easily by the amount lifted • Dynamic training has two action phases when an exercise is performed 1. concentric or positive resistance 2. eccentric or negative resistance • • © 2010 Cengage-Wadsworth 10 1 2 3 4 5 6 7 8 9 Dynamic Training • Concentric phase - the muscle shortens as it contracts to overcome the resistance • Eccentric phase - the muscle lengthens to overcome the resistance • Both motions work the same muscle against the same resistance • Eccentric contractions work to lower weights in a controlled manner • Eccentric contractions are more effective in producing muscle hypertrophy but result in greater muscle soreness © 2010 Cengage-Wadsworth 10 1 2 3 4 5 6 7 8 9 Free Weights vs. Machines in Dynamic Training • Plate-loaded barbells (free weights) were the most popular weight training devices until the 1970s when strengthtraining machines became more popular • A debate rose over which of the two training modalities was better • Free weights require the lifter balance the resistance through the entire lifting motion, raising assumptions that additional stabilizing muscles are required to balance the resistance as it moves through the range of motion • Research has not shown any differences in strength development between the two exercise modalities • Muscles do not know the source of the resistance • Strength development is determined by the quality of the program and the individual’s effort during the program © 2010 Cengage-Wadsworth 10 1 2 3 4 5 6 7 8 9 Strength training can be done using free weights © 2010 Cengage-Wadsworth 10 1 2 3 4 5 6 7 8 9 Advantages of Free Weights • Cost - free weights are less expensive than most machines • Variety - can be used to perform many exercises to strengthen most muscles in the body • Portability - can be moved from one area to another • Balance - requires the lifter balance the weights through the entire range of motion • One size fits all - can be used by most everyone, whereas not everyone can use machines such as small women and adolescents © 2010 Cengage-Wadsworth 10 1 2 3 4 5 6 7 8 9 Advantages of Machines • Safety - rarely need spotters • Selection - a few exercises can only be performed with machines • Variable resistance - provided by most machines; free weights provide fixed resistance • Isolation - isolates individual muscles because stabilizing muscles are not required © 2010 Cengage-Wadsworth 10 1 2 3 4 5 6 7 8 9 Advantages of Machines • Time - less time is required because the resistance can be set quickly • Flexibility - provide resistance over a greater range of motion, contributing to more flexibility in the joints • Rehabilitation - small loads can be selected easily through a limited range of motion • Skill acquisition - learning a new exercise and performing it correctly are faster because the machine controls the direction of movement © 2010 Cengage-Wadsworth 10 1 2 3 4 5 6 7 8 9 Resistance • Resistance or intensity is the amount of weight lifted • General recommendation for strength development – Resistance of about 80% of maximum capacity (1 RM); example, 1 RM is 150 lbs., resistance should be 120 lbs. (150 x 0.80) • Repetitions performed at a certain percentage of the 1 RM - depends on the amount of muscle mass involved and if it is a single or multi-joint exercise • Large muscle mass involvement and multi-joint exercises allow more repetitions © 2010 Cengage-Wadsworth 10 1 2 3 4 5 6 7 8 9 Resistance • Progressive resistance training - a gradual increase of resistance over a period of time • Individuals perform between 3 and 12 repetitions maximum for strength gains • If a person can not lift the resistance more than 12 times because volitional fatigue is reached before 12 repetitions, the weight is adequate for strength development • When the person can lift the weight more than 12 times, the resistance is increased by 5-10 pounds and the person again builds to 12 repetitions © 2010 Cengage-Wadsworth 10 1 2 3 4 5 6 7 8 9 Resistance • Strength development can occur using less than 80% of 1 RM and working below 3 RM or above 12 RM • ACSM recommends a range between 3 RM and 20 RM • The individual may chose the number of repetitions based on personal preference • Elite strength athletes work between 1 and 6 RM and vary number of repetitions • Bodybuilders use 60%-85% of 1 RM with 8-20 repetitions • General fitness requires about 10 repetitions to produce good results in strength, endurance, and hypertrophy © 2010 Cengage-Wadsworth 10 1 2 3 4 5 6 7 8 9 Sets • Set is the number of repetitions performed for a given exercise • General fitness recommends one to three sets per exercise • Some data indicates that increases in strength, endurance, and hypertrophy occur between single and multi-set training, as long as the single set or at least one of the multi-sets is a heavy set performed to volitional exhaustion using an RM zone (8-12) © 2010 Cengage-Wadsworth 10 1 2 3 4 5 6 7 8 9 Sets • There is a limited number of sets the exerciser can do because of muscle fiber characteristics • Strength gains may be lessened by performing too many sets • Single set programs are preferable if time is a factor • Multi-sets can be used for multi-joint exercises and a single RM zone for single-joint exercises • Beginners should perform 1-2 light warm-up sets per exercise using about 50% of the 1 RM followed by 1-3 sets to near fatigue per exercise © 2010 Cengage-Wadsworth 10 1 2 3 4 5 6 7 8 9 Sets • Circuit training: Alternating exercises by performing them in a sequence of three to six or more exercises • To maximize strength gains, the program will be more time-effective if two or three exercises are alternated that work different muscle groups • The bench press, leg extension, and abdominal curl can be combined so that the person can go almost directly from one exercise set to the next without resting 2-4 minutes before preceding to a new set of a different exercise © 2010 Cengage-Wadsworth 10 1 2 3 4 5 6 7 8 9 Frequency • A minimum of 8 weeks of consecutive training is necessary to achieve significant strength gains • Once an individual has achieved a recommended health fitness strength level, one training session per week is sufficient to maintain it • Highly trained athletes must train twice a week to maintain their strength levels © 2010 Cengage-Wadsworth 10 1 2 3 4 5 6 7 8 9 Training Volume • • • • • • • Volume is the sum of all the repetitions performed multiplied by the resistances used during a strength-training session It is used to quantify the amount of work performed in a training session The total training volume can be obtained by totaling the volume of all exercises performed An individual who performs three sets of six repetitions with 150 pounds has performed a training volume of 2,700 (3 x 6 x 150) for this exercise Training volume can be modified by changing the total number of exercises performed by changing the number of sets per exercise or the number of repetitions performed per set High training volumes and low intensities achieve muscle hypertrophy Low volumes and high intensities increase strength and power © 2010 Cengage-Wadsworth 10 1 2 3 4 5 6 7 8 9 Training Volume • Periodization divides the season into cycles using a systematic variation in intensity and training volume for athletes to achieve peak fitness and prevent overtraining • Overtraining: An emotional, behavioral, and physical condition marked by increased fatigue, decreased performance, persistent muscle soreness, mood disturbances, and feelings of staleness or burnout as a result of excessive physical training • To avoid overtraining during periodization, the volume should not increase by more than 5% from one phase to the next • Periodization is becoming popular among fitness participants who want to achieve higher levels of fitness © 2010 Cengage-Wadsworth 10 1 2 3 4 5 6 7 8 9 Plyometrics • Plyometric exercise is explosive jump training incorporating speed and strength training to enhance explosiveness • Objective is to generate the greatest amount of force in the shortest time • Requires a solid strength base • Popular in sports that require powerful movements--basketball, volleyball, sprinting, jumping, gymnastics © 2010 Cengage-Wadsworth 10 1 2 3 4 5 6 7 8 9 Core Strength Training • The trunk (spine) and pelvis are the “core” of the body • Core muscles include abdominal muscles, hip muscles, and spinal muscles • These muscle groups are responsible for maintaining the stability of the spine and pelvis • Many major muscle groups of legs, shoulders, and arms attach to the core © 2010 Cengage-Wadsworth 10 1 2 3 4 5 6 7 8 9 Core Strength Training • A strong core allows a person to – Perform activities of daily living with greater ease – Improve sports performance through a more effective energy transfer from large to small body parts – Decrease the incidence of low back pain – Contributes to better posture and balance © 2010 Cengage-Wadsworth 10 1 2 3 4 5 6 7 8 9 Stability Exercise Balls • Large, flexible, inflatable ball used for exercises that combine Pilates with core strength training • Exercises are designed to develop abdominal, hip, chest, and spinal muscles by addressing core stabilization while the exerciser maintains a balanced position over the ball • Emphasis is placed on correct movement and maintenance of proper alignment • Primary objective is core strength and stability • Many stability exercises can be performed to strengthen other body areas © 2010 Cengage-Wadsworth 10 1 2 3 4 5 6 7 8 9 Elastic-Band Resistive Exercise • Elastic bands and tubing can be used as constant-resistance training • Help increase strength, mobility, functional ability, aid in rehab in injuries • Advantages include – Low-cost – Versatility - use at almost all angles/directions of range of motion – Large number of exercises to work all joints – Can be packed in a suitcase – Add variety to routine © 2010 Cengage-Wadsworth 10 1 2 3 4 5 6 7 8 9 Setting Up Your Own Strength-Training Program • Consult a physician if you have concerns regarding your ability to safely participate in a program (not advised for people with advanced heart disease) • Determine your stage of change • Choose training program • Keep a record of your training sessions • Base the resistance, number of repetitions and sets on your current strength-fitness level and available time for your workout © 2010 Cengage-Wadsworth 10