1. Chapter 13 Muscular Analysis of Trunk and Lower Extremity Exercises
Manual of Structural Kinesiology
R.T. Floyd, EdD, ATC, CSCS
Manual of Structural Kinesiology
Muscular Analysis of Trunk & Lower Extremity Exercises

2. Muscular Analysis of Trunk & Lower Extremity Exercises
Strength, endurance, & flexibility of the lower extremity, trunk, & abdominal muscles are very important in skillful physical performance & body maintenance
Whether the muscle is lengthening or shortening during movement determines contraction type
Muscles may shorten or lengthen in the absence of a contraction through passive movement caused by other contracting muscles, momentum, gravity, or external forces such as manual assistance machines
Manual of Structural Kinesiology
Muscular Analysis of Trunk & Lower Extremity Exercises

3. Muscular Analysis of Trunk & Lower Extremity Exercises
Concentric contractions
shortening contraction of muscles against gravity or resistance
Eccentric contraction
muscle lengthens under tension to control the joints moving with gravity or resistance
Manual of Structural Kinesiology
Muscular Analysis of Trunk & Lower Extremity Exercises

4. Muscular Analysis of Trunk & Lower Extremity Exercises
Quadriceps contracts eccentrically when the body slowly lowers in a weight-bearing movement through lower extremity action
functions as a decelerator to knee joint flexion in weight-bearing movements by contracting eccentrically to prevent too rapid of a downward movement
slow descent is eccentric & ascent from the squatted position is concentric
Manual of Structural Kinesiology
Muscular Analysis of Trunk & Lower Extremity Exercises

5. Muscular Analysis of Trunk & Lower Extremity Exercises
Quadriceps function in squatting
descent at the same speed as gravity, essentially under no muscular control, the muscle lengthening would be passive
movement & change in muscle length would be caused by gravity, not by active muscular contraction
Manual of Structural Kinesiology
Muscular Analysis of Trunk & Lower Extremity Exercises

6. Conditioning Considerations
Overload principle
Within appropriate parameters, a muscle or muscle group increases in strength in direct proportion to the overload placed on it
The amount of overload applied varies significantly based on several factors
An untrained person beginning a strength training program will make significant gains in the amount of weight he/she is able to lift in the first few weeks
Mostly due to a refinement of neuromuscular function, rather than an actual increase in muscle tissue strength
Manual of Structural Kinesiology
Muscular Analysis of Trunk & Lower Extremity Exercises

7. Conditioning Considerations
Overload principle
A well trained person will see relatively minor improvements in the amount of weight that can be lifted over a much longer period of time
Amount & rate of progressive overload is extremely variable and must be adjusted to match the specific needs of the individual’s exercise objectives
Overload is not always progressively increased
In certain periods of conditioning, the overload should actually be prescriptively reduced or increased to improve the total results of the entire program
Manual of Structural Kinesiology
Muscular Analysis of Trunk & Lower Extremity Exercises

8. Conditioning Considerations
Overload principle
Overload may be modified by changing any one or a combination of 3 different exercise variables - frequency, intensity, or duration
Increasing the speed of doing the exercise, the number of repetitions, the weight, & more bouts of exercise are all ways to modify these variables in applying this principle
Manual of Structural Kinesiology
Muscular Analysis of Trunk & Lower Extremity Exercises

9. Conditioning Considerations
SAID Principle
Specific Adaptations to Imposed Demands
the body will gradually, over time, adapt very specifically to the various stresses & overloads to which it is subjected
applicable in every form of muscle training, as well as to the other systems of body
Manual of Structural Kinesiology
Muscular Analysis of Trunk & Lower Extremity Exercises

10. Conditioning Considerations
SAID Principle
Example: if an individual were to undergo several weeks of strength training exercises for a particular joint through a limited range of motion, the specific muscles involved in performing the strengthening exercises would improve primarily in the ability to move against increased resistance through the specific range of motion utilized
Minimal strength gains beyond the range of motion utilized in the training would occur usually
Other physical fitness components such as flexibility, cardiorespiratory endurance or muscular endurance would be enhanced minimally, if any
Manual of Structural Kinesiology
Muscular Analysis of Trunk & Lower Extremity Exercises

11. Conditioning Considerations
SAID Principle
To achieve specific benefits, exercise programs must be specifically designed for the desired adaption
Adaptation may be positive or negative, depending on whether or not correct techniques are used and stressed in conditioning program design & administration
Inappropriate or excessive demands placed on the body in too short of a time span can result in injury
Manual of Structural Kinesiology
Muscular Analysis of Trunk & Lower Extremity Exercises

12. Conditioning Considerations
SAID Principle
Adaptation may be positive or negative
If demands are too minimal or administered too infrequently over too long a time period, less than desired improvement will occur
Conditioning programs & the exercises included should be analyzed to determine if they are using the specific muscles for which they were intended in the correct manner
Manual of Structural Kinesiology
Muscular Analysis of Trunk & Lower Extremity Exercises

13. Conditioning Considerations
Specificity
Muscular strength, muscular endurance, & flexibility are not general body characteristics
They are specific to each body area & muscle group
Specific needs of the individual must be specifically addressed when designing an exercise program
Often it is necessary to analyze an individual's exercise & skill technique to specifically design an exercise program to meet his/her needs
Manual of Structural Kinesiology
Muscular Analysis of Trunk & Lower Extremity Exercises

14. Conditioning Considerations
Specificity
Addressing specific needs in designing an exercise program
Exercises for use in conditioning programs must be analyzed to determine their appropriateness for the individual's specific needs
Exercise program goals should be determined regarding specific areas of the body, preferred time to physically peak, & physical fitness needs such as strength, muscular endurance, flexibility, cardiorespiratory endurance, body composition, etc.
Manual of Structural Kinesiology
Muscular Analysis of Trunk & Lower Extremity Exercises

15. Conditioning Considerations
Specificity
Addressing specific needs in designing an exercise program
After establishing goals a regimen incorporating the overload variables of frequency, intensity, & duration may be prescribed to include the entire body or specific areas in a manner to address the improvement of the preferred physical fitness components
Regular observation & follow-up exercise analysis is necessary to ensure proper adherence to correct technique
Manual of Structural Kinesiology
Muscular Analysis of Trunk & Lower Extremity Exercises

16. Muscular Analysis of Trunk & Lower Extremity Exercises
Muscular Development
One does not necessarily develop adequate muscular strength, endurance, & flexibility through participation in sport activities
One needs to develop muscular strength, endurance, & flexibility in order to be able to participate safely & effectively in sport activities
Adequate muscular strength, endurance, & flexibility of the entire body from head to toe should be developed through correctly employing the appropriate exercise principles
Manual of Structural Kinesiology
Muscular Analysis of Trunk & Lower Extremity Exercises

17. Muscular Analysis of Trunk & Lower Extremity Exercises
Muscular Development
Development should start at an early age & continue throughout the school years
Fitness tests results indicate there is need for considerable improvement in this area
Adequate muscular strength & endurance are important in the adult years for the activities of daily living, as well as job-related requirements and recreational needs
Many back pains and other physical ailments could be avoided through proper maintenance of the musculoskeletal system
Manual of Structural Kinesiology
Muscular Analysis of Trunk & Lower Extremity Exercises

18. Free Weight-Training Exercises
Exercise with weights is a commonly used means of developing & maintaining muscular strength in young people & adults
When using free weights it is important to ensure that one group of muscles is not overdeveloped and another is underdeveloped
Thorough knowledge of muscles being used is essential
Manual of Structural Kinesiology
Muscular Analysis of Trunk & Lower Extremity Exercises

19. Muscular Analysis of Trunk & Lower Extremity Exercises
Sit-up, bent knee
Participant lies on back, forearms crossed and lying across chest, with knees flexed 90 degrees & feet about hip-width apart
Hips & knees are flexed in this manner to reduce hip flexor length, thereby reducing their contribution to sit-up & allow more emphasis on abdominals
Participant curls up to a sitting position, rotates trunk to right, touches left elbow to right knee
Returns to starting position
Rotate to left on next repetition
Manual of Structural Kinesiology
Muscular Analysis of Trunk & Lower Extremity Exercises

20. Curling phase to sitting-up position
Sit-up, bent knee
Joint
Curling phase to sitting-up position
Rotating to left phase
Action
Agonists
Cervical spine
Flexion
Cervical spine flexors
Sternocleidomastoid
Maintenance of cervical flexion
Cervical spine flexors (isometric contraction)
Trunk
Trunk flexors
Rectus abdominis
External oblique abdominal
Internal oblique abdominal
Right lumbar rotation
Right lumbar rotators
R) Rectus abdominis
L) External oblique abdominal
R) Internal oblique abdominal
R) Erector spinae
Hip
Hip flexors
Iliopsoas
Rectus femoris
Pectineus
Maintenance of hip flexion
Hip flexors (isometric contraction)
Manual of Structural Kinesiology
Muscular Analysis of Trunk & Lower Extremity Exercises

21. Return phase to sitting-up position Return phase to starting position
Sit-up, bent knee
Joint
Return phase to sitting-up position
Return phase to starting position
Action
Agonists
Cervical spine
Maintenance of cervical flexion
Cervical spine flexors (isometric contraction)
Sternocleidomastoid
Extension
Cervical spine flexors (eccentric contraction)
Trunk
Left lumbar rotation to neutral position
Right lumbar rotators (eccentric contraction)
R) Rectus abdominis
L) External oblique abdominal
R) Internal oblique abdominal
R) Erector spinae
Trunk flexors (eccentric contraction)
Rectus abdominis
External oblique abdominal
Internal oblique abdominal
Hip
Maintenance of hip flexion
Hip flexors
Iliopsoas
Rectus femoris
Pectineus
Hip flexors (eccentric contraction)
Manual of Structural Kinesiology
Muscular Analysis of Trunk & Lower Extremity Exercises

22. Alternating Prone Extensions
Participant lies prone position, with the shoulders fully flexed in a relaxed position lying in front of the body
Participant raises head, upper trunk, & thighs from the floor
Knees are kept in full extension
Then return to starting position
Manual of Structural Kinesiology
Muscular Analysis of Trunk & Lower Extremity Exercises

23. Alternating Prone Extensions
Joint
Action
Agonists in Lifting
Agonists in Lowering
Shoulder
Flexion
Shoulder joint flexors
Pectoralis major (clavicular head or upper fibers)
Deltoid
Coracobrachialis
Biceps brachii
Extension
Shoulder joint flexors (eccentric contraction)
Shoulder girdle
Adduction
Shoulder girdle adductors
Trapezius
Rhomboids
Abduction
Shoulder girdle adductors (eccentric contraction)
Trunk
Trunk extensors
Erector spinae
Splenius
Quadratus lumborum
Flexion (return to neutral relaxed position)
Trunk & cervical spine extensors (eccentric contraction)
Hip
Hip extensors
Gluteus maximus
Semitendinosus
Semimembranosus
Biceps femoris
Hip extensors (eccentric contraction)
Manual of Structural Kinesiology
Muscular Analysis of Trunk & Lower Extremity Exercises

24. Muscular Analysis of Trunk & Lower Extremity Exercises
Squat
Participant places a barbell on the shoulders behind the neck and grasps it with palms-forward position of hands
Participant squats down until thighs are parallel to floor, keeping back straight
Return to starting position
Ensure that the shins remain as vertical
Manual of Structural Kinesiology
Muscular Analysis of Trunk & Lower Extremity Exercises

25. Muscular Analysis of Trunk & Lower Extremity Exercises
Squat
Joint
Action
Agonists in Lowering
Agonists in Lifting
Hip
Flexion
Hip extensors (eccentric contraction)
Gluteus maximus
Semimembranosus
Semitendinosus
Biceps femoris
Extension
Hip extensors
Knee
Knee extensors (eccentric contraction)
Rectus femoris
Vastus medialis
Vastus intermedius
Vastus lateralis
Knee extensors
Ankle
Dorsiflexion
Plantar flexors (eccentric contraction)
Gastrocnemius
Soleus
Plantar flexion
Plantar flexors
Manual of Structural Kinesiology
Muscular Analysis of Trunk & Lower Extremity Exercises

26. Muscular Analysis of Trunk & Lower Extremity Exercises
Dead Lift
Participant begins in hip flexed position, keeping arms, legs, & back straight, and grasps the barbell on the floor
Move to standing position is made by extending the hips
Lumbar extensors must be utilized as isometric stabilizers of the low back while the hip extensors perform the majority of the lift in this exercise
Manual of Structural Kinesiology
Muscular Analysis of Trunk & Lower Extremity Exercises

27. Muscular Analysis of Trunk & Lower Extremity Exercises
Dead Lift
Joint
Action
Agonists in Lifting
Wrist & hand
Flexion
Wrist & hand flexors (isometric contraction)
Flexor carpi radialis
Flexor carpi ulnaris
Palmaris longus
Flexor digitorum profundus
Flexor digitorum superficialis
Flexor pollicis longus
Trunk
Maintenance of extension
Trunk extensors (isometric contraction)
Erector spinae (sacrospinalis)
Quadratus lumborum
Hip
Extension
Hip extensors
Gluteus maximus
Semimembranosus
Semitendinosus
Biceps femoris
Knee
Knee extensors (quadriceps)
Rectus femoris
Vastus medialis
Vastus intermedius
Vastus lateralis
Manual of Structural Kinesiology
Muscular Analysis of Trunk & Lower Extremity Exercises

28. Muscular Analysis of Trunk & Lower Extremity Exercises
Dead Lift
Joint
Action
Agonists in Lowering
Wrist & hand
Flexion
Wrist & hand flexors (isometric contraction)
Flexor carpi radialis
Flexor carpi ulnaris
Palmaris longus
Flexor digitorum profundus
Flexor digitorum superficialis
Flexor pollicis longus
Trunk
Maintenance of extension
Trunk extensors (isometric contraction)
Erector spinae (sacrospinalis)
Quadratus lumborum
Hip
Hip extensors (eccentric contraction)
Gluteus maximus
Semimembranosus
Semitendinosus
Biceps femoris
Knee
Knee extensors (quadriceps) (eccentric contraction)
Rectus femoris
Vastus medialis
Vastus intermedius
Vastus lateralis
Manual of Structural Kinesiology
Muscular Analysis of Trunk & Lower Extremity Exercises

29. Muscular Analysis of Trunk & Lower Extremity Exercises
Isometric Exercises
An exercise technique in which there is contraction of muscle groups with no appreciable muscle shortening
not as productive in terms of overall strength gains as isotonics
an effective way to build & maintain muscular strength in a limited range of motion
Contractions should be held approximately 7-10 seconds for a training effect
Manual of Structural Kinesiology
Muscular Analysis of Trunk & Lower Extremity Exercises

30. Abdominal Contraction
Participant contracts anterior abdominal region muscles as strongly as possible without moving the trunk or hips
Rectus abdominis
External oblique abdominal
Internal oblique abdominal
Transversus abdominis
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Muscular Analysis of Trunk & Lower Extremity Exercises

31. Muscular Analysis of Trunk & Lower Extremity Exercises
Leg Lifter
Participant sits on a bench or chair with the knees slightly bent & with left leg over right
Attempt to raise right leg while resisting it with left leg
Manual of Structural Kinesiology
Muscular Analysis of Trunk & Lower Extremity Exercises

32. Leg Lifter Joint Action Agonists in Right – Attempting Upward
Agonists in Left – Resisting Upward
Ankle
Dorsiflexion
Ankle dorsiflexors
Tibialis anterior
Extensor hallucis longus
Extensor digitorum longus
Peroneus tertius
Plantar Flexion
Plantar flexors
Gastrocenemius
Soleus
Knee
Extension
Knee extensors (quadriceps)
Rectus femoris
Vastus medialis
Vastus intermedius
Vastus lateralis
Flexion
Knee flexors (hamstrings)
Biceps femoris
Semitendinosus
Semimbranosus
Hip
Hip flexors
Iliopsoas
Pectineus
Sartorius
Tensor fasciae latae
Hip extensors
Gluteus maximus
Manual of Structural Kinesiology
Muscular Analysis of Trunk & Lower Extremity Exercises

33. Muscular Analysis of Trunk & Lower Extremity Exercises
Hip Sled
Participant lies supine with the knees & hips flexed in a position close to chest
Feet are placed on the apparatus plate
Knees & hips are extended completely to move the plate upward
Return to the starting position
Manual of Structural Kinesiology
Muscular Analysis of Trunk & Lower Extremity Exercises

34. Muscular Analysis of Trunk & Lower Extremity Exercises
Hip Sled
Joint
Action
Agonists in Pushing
Agonists in Lowering
Ankle
Plantar flexion
Ankle plantar flexors
Gastrocnemius
Soleus
Dorsiflexion
Ankle plantar flexors (eccentric contraction)
Knee
Extension
Knee extensors (quadriceps)
Rectus femoris
Vastus medialis
Vastus intermedius
Vastus lateralis
Flexion
Knee extensors (quadriceps) (eccentric contraction)
Hip
Hip extensors
Biceps femoris
Semimembranosus
Semitendinosus
Gluteus maximus
Hip extensors (eccentric contraction)
Manual of Structural Kinesiology
Muscular Analysis of Trunk & Lower Extremity Exercises

35. Muscular Analysis of Trunk & Lower Extremity Exercises
Rowing Exercise
Participant sits on a movable seat with knees & hips flexed close to the chest
Arms are reaching forward to grasp a horizontal bar
Legs are extended forcibly as arms are pulled toward chest
Return to starting position
Manual of Structural Kinesiology
Muscular Analysis of Trunk & Lower Extremity Exercises

36. Agonists in arm pull/leg push Agonists in return to starting
Rowing Exercise
Joint
Action
Agonists in arm pull/leg push
Agonists in return to starting
Foot & ankle
Plantar flexion
Ankle plantarflexors
Gastrocnemius
Soleus
Dorsiflexion
Ankle dorsiflexors
Tibialis anterior
Extensor hallucis longus
Extensor digitorum longus
Peroneus tertius
Knee
Extension
Quadriceps (knee extensors)
Rectus femoris
Vastus medialis
Vastus intermedius
Vastus lateralis
Flexion
Knee flexors (hamstrings)
Biceps femoris
Semitendinosus
Semimembranosus
Hip
Hip extensors
Gluteus maximus
Hip flexors
Iliopsoas
Pectineus
Trunk
Trunk extensors
Erector spinae
Trunk flexors
Rectus abdominis
Internal oblique abdominal
External oblique abdominal
Manual of Structural Kinesiology
Muscular Analysis of Trunk & Lower Extremity Exercises

37. Agonists in arm pull/leg push Agonists in return to starting
Rowing Exercise
Joint
Action
Agonists in arm pull/leg push
Agonists in return to starting
Shoulder girdle
Adduction, downward rotation, & depression
Shoulder girdle adductors, downward rotators, & depressors
Trapezius (lower)
Rhomboid
Pectoralis minor
Abduction, upward rotation, & elevation
Shoulder girdle adductors, downward rotators, & depressors (eccentric contraction)
Shoulder joint
Extension
Shoulder joint extensors
Latissimus dorsi
Teres major
Posterior deltoid
Teres minor
Infraspinatus
Flexion
Shoulder joint extensors (eccentric contraction)
Elbow joint
Elbow joint flexors
Biceps brachii
Brachialis
Brachioradialis
Elbow joint flexors (eccentric contraction)
Wrist & hand
Wrist & hand flexors (isometric contraction)
Flexor carpi radialis
Flexor carpi ulnaris
Palmaris longus
Flexor digitorum profundus
Flexor digitorum superficialis
Flexor pollicis longus
Manual of Structural Kinesiology
Muscular Analysis of Trunk & Lower Extremity Exercises

38. Muscular Analysis of Trunk & Lower Extremity Exercises
Web Sites
American College of Sports Medicine
Scientific research, education, and practical applications of sports medicine and exercise science to maintain and enhance physical performance, fitness, health, and quality of life
Concept II
Information on the technique of rowing and the muscles used.
Fitness World
The information at this site is about fitness in general and includes access to Fitness Management magazine.
Manual of Structural Kinesiology
Muscular Analysis of Trunk & Lower Extremity Exercises

39. Muscular Analysis of Trunk & Lower Extremity Exercises
Web Sites
National Council of Strength & Fitness
Personal Training Certification & Continuing Education for the Fitness Professional
National Strength and Conditioning Association
Information on the profession of strength and conditioning specialists and personal trainers
NSCA Certification Commission
The certifying body for the National Strength and Conditioning Association
Presidents Council on Physical Fitness and Sports
Information and links from the U.S. government on fitness
Manual of Structural Kinesiology
Muscular Analysis of Trunk & Lower Extremity Exercises