1. Chapter 15:�The Standing Posture KINESIOLOGY
Scientific Basis of Human Motion, 10th edition
Luttgens & Hamilton
Presentation Created by
TK Koesterer, Ph.D., ATC
Humboldt State University
2. Objectives 1. Identify and describe the skeletomuscular and neuromuscular antigravity mechanisms involved in the volitional standing position
2. Summarize the similarities and differences that occur in the relation of the line of gravity to various body landmarks with good and poor anteroposterior segmental alignment
3. Discuss the factor that affect the stability and energy cost for the erect posture
3. Objectives 4. Explain the effects that the variables of age, body build, strength, and flexibility have on the alignment of body segments in the standing posture
5. Name the values, if any, of good posture
6. Perform kinesiological analyses on the posture of individuals of different ages and body builds
4. SIGNIFICANCE OF POSTURE Posture means position
The multisegmented human body does not have a single posture
Most posture research has been related to the volitional standing position
A custom is to accept standing posture at a person’s basic posture from which all other postures stem
5. SUPPORT OF THE �STANDING POSTURE�Muscular Activity in Erect Standing Humans have a very economical antigravity mechanism
Muscle energy to maintain erect posture is not great
Ligaments play a major role in supporting and maintain the integrity of the joints
Muscles that are active are those that aid in keeping the weight-bearing column in relative alignment and oppose gravity
6. Muscular Activity in Erect Standing Foot: Only muscular activity is in the push-off phase or rising on the toes
Leg: Posterior calf muscles are more active the anterior
Thigh & Hip: Very little activity
Swaying produces bursts of ab/adductors
Iliopsoas constantly active, preventing hyperextension of the hip joint
7. Muscular Activity in Erect Standing Spine: Very slight activity is sacrospinalis or abdominals
Upper Extremity: low-grade activity in a number of muscles
Serratus anterior & trapezius support the shoulder girdle
Supraspinatus resist downward dislocation of the humerus
No activity in elbow or wrist joints, when passively hanging
8. The Neuromuscular Mechanism for Maintaining Erect Posture Proprioceptors are responsible for most of the reflex movements to maintain posture
Posture modification of posture depends on;
1. Voluntary decision towards change
2. Experience with desired posture
3. Instruction resulting in different strategies
4. Environmental influences
9. Postural Stability Hellebrandt (1940) “Standing is, in reality, movement upon a stationary base”
CG does not remain motionless
Subjects were constantly swaying
Today, force platforms can record postural sway in magnitude, direction, and pattern
Postural stability is currently measured as sway motion between CG and center of pressure
10. Alignment of �Body Segments “Good posture”
Weight-bearing segments balanced vertically
Rotary effect of gravitational force in minimized
11. Alignment of �Body Segments “Fatigue posture”
Muscles have let go
Ligaments prevent collapse
Zigzag alignment of weight bearing segments increase rotary effect of gravitational force
12. Alignment of Body Segments Even the most ideal posture have some rotary force present
1. Supporting column of trunk being more posterior
2. Support base (feet) being projected forward
3. Spinal column being curved anteroposteriorly
4. Chest forming an anterior load
Females breasts are an additional anterior load
13. Relationship of Alignment of Body Segments and Integrity of Joint Structure Prolonged postural strain is injuries
Ligaments can permanently stretch
Cartilages can be damaged due to abnormal friction
Arthritic changes in weight-bearing joints
14. Minimum Energy Expenditure Cannot be accepted as the criteria of good posture
Metabolic economy is desirable to a point
Well-balanced segmental alignment should not be sacrificed for it
A single interpretation of an ideal posture is neither practical or possible
15. FACTORS RELATED TO THE STANDING POSTURE�Energy Cost “Fatigue posture”
Requires a minimum of metabolic increase
Knees - hyperextended
Hips – forward
Increased thoracic curve
Head – forward
Trunk - posterior lean
16. Evolutionary and �Hereditary Influences As man began to to walk upright
There was a shift form a vertically suspended position to a vertically support one
Although no specific principle, changes had to occur to the musculoskeletal structure
17. Strength and Flexibility Seem to be universally accepted relating to the preponderance of strength and flexibility exercises
Strength of abdominals
Scapula retractors
Pectoral stretching
Hamstring stretching
18. Age Several Physical and neurological factors
Infant initially lack muscular strength and neurological development
The aging adult tends to alter posture
Older people lean forward
Bone mineral loss
Muscular weakness
Fear of instability
19. Psychological Aspects Atypical postures may be symptoms of personality problems or emotions
Emotional reaction to an abnormal posture
Mental fatigue
Depression, Joy, or Fear
Evidence exist on the correlation between mood state and performance (Huddleston et al., 2000)
20. PRINCIPLES APPLIED �TO POSTURE 4. Form the point of view of energy expenditure, good posture would seem to be a position that requires a minimum expenditure of energy for the maintenance of good alignment
5. Good posture, in repose and in activity, permits mechanically efficient function of the joints
6. Good posture, both static and dynamic, requires a minimum of muscle force
21. PRINCIPLES APPLIED �TO POSTURE 7. Good posture, both static and dynamic, requires sufficient flexibility in the structure of the weight-bearing joints to permit good alignment without interference or strain
8. Good posture requires good condition
neuromuscular control & reflexes
9. Adjustments in posture can be made more readily by individuals who have a good kinesthetic awareness of postures they assume and of the degree of tension in their muscles
22. PRINCIPLES APPLIED �TO POSTURE 10. Good posture, both static and dynamic, is favorable, or at least not detrimental, to organic function
11. The characteristics of normal posture change with age
12. In the last analysis, both static and dynamic posture of any individual should be judged on the basis of how well it meets the demands made upon it throughout a lifetime
23. POSTURAL ADAPTATIONS TO EXTERNAL CONDITIONS AND SPECIAL PROBLEMS Standing on an inclined plane: bending at knees, hips, or spine adjust CG above the base of support
Same for wearing high heels, pregnancy, and carrying a heavy bundle in front of the body
Standing on a moving surface: be prepared to make adjustments to acceleration, deceleration, and side-to-side sway
Comfortably wide stance in the direction of motion
24. POSTURAL ADAPTATIONS TO EXTERNAL CONDITIONS AND SPECIAL PROBLEMS Standing on one foot:
Usually managed automatically by the muscle, joint, and labyrinthine proprioceptors, and reflex response
Shift body weight to supporting limb
25. POSTURE �SCREENING An optimal standing posture
Line of gravity falls:
slightly anterior to lateral malleolus
Midline of the knee
Slightly posterior to hip
Anterior to sacroiliac joints
26. POSTURE SCREENING 1. Subject should wear minimal clothing
2. Subject assumes comfortable stance
3. Landmarks to line of gravity from the side
4. Alignment of foot, ankle, & knee from front
5. Alignment of spine & pelvis from rear
A screening matrix expedites observation of any deviations
27. PRINCIPLES APPLIED �TO POSTURE 1. The weight-bearing segments of the body are so aligned in good standing posture that angles of inclination in the trunk and in the pelvic girdle are within “normal” limits
2. In order to be stable, the intersection of the line of gravity with the base of support will be close to the geometric center of the base.
3. Good standing posture is a position of extension of the weight-bearing joints.
