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Sports Management: Leg, Ankle, and Foot Injuries

By |April 23, 2013|Chiropractic Care, Chiropractic Education, Chiropractic Technique, Clinical Decision-making, Education, Gait Analysis, Rehabilitation, Sports Management|

Sports Management:
Leg, Ankle, and Foot Injuries

The Chiro.Org Blog


We would all like to thank Dr. Richard C. Schafer, DC, PhD, FICC for his lifetime commitment to the profession. In the future we will continue to add materials from RC’s copyrighted books for your use.

This is Chapter 27 from RC’s best-selling book:

“Chiropractic Management of Sports and Recreational Injuries”

Second Edition ~ Wiliams & Wilkins

These materials are provided as a service to our profession. There is no charge for individuals to copy and file these materials. However, they cannot be sold or used in any group or commercial venture without written permission from ACAPress.


Chapter 27:   Leg, Ankle, and Foot Injuries

The lower leg, ankle, and foot work as a functional unit. Total body weight above is transmitted to the leg, ankle hinge, and foot in the upright position, and this force is greatly multiplied in locomotion. Thus the ankle and foot are uniquely affected by trauma and static deformities infrequently seen in other areas of the body.


     Injuries of the Leg


The most common injuries in this area are bruises, muscle strains, tendon lesions, postural stress, anterior and posterior compression syndromes, and tibia and fibula fractures. Bruises of the lower leg are less frequent than those of the thigh or knee, but the incidence of intrinsic strain, sprain, and stress fractures are much greater.

A continual program of running and jogging is typical of most sports. The result is often strengthening of the antigravity muscles at the expense of the gravity muscles — producing a dynamic imbalance unless both gravity and antigravity muscles are developed simultaneously. An anatomic or physiologic short leg as little as an eighth of an inch can affect a stride and produce an overstrain in long-distance track events.

Bruises and Contusions

The most common bruise of the lower extremity is that of the shin where disability may be great as the poorly protected tibial periosteum is usually involved. Skin splits in this area can be most difficult to heal. Signs of suppuration indicate referral to guard against periostitis and osteomyelitis.

Management.   Treat as any skin-bone bruise with cold packs and antibacterial procedures, and shield the area with padding during competitive activity. When long socks are worn, the incidence of shinbone injuries is reduced. An old but effective protective method in professional football that does not add weight is to place four or five sheets of slick magazine pages around the shin that are secured by a cotton sock which is covered by the conventional sock. A blow to the shin is reduced to about a third of its force as the paper slips laterally on impact.

      GASTROCNEMIUS CONTUSION

This is a common and most debilitating injury in contact sports. It is characterized by severe calf tenderness, abnormal muscle firmness of the engorged muscle, and inability to raise the heel during weight bearing.

Management.   Treat with cold packs, compression, and elevation for 24 hr. Follow with mild heat and contrast baths. Massage is contraindicated as it might disturb muscle repair. The danger of ossification is less in the calf than in the thigh, but management must incorporate precautions against adhesions.

      TRAUMATIC PHLEBITIS

Contusion to the greater saphenous vein may lead to rupture resulting in extensive swelling, ecchymosis, redness and other signs of local phlebitis. Tenderness will be found along the course of the vascular channel. During treatment, referral should be made upon the first signs of thrombosis.

Management.   Management is by rest, cold, compression, and elevation for at least 24 hr. Later, progressive ambulation, mild heat, and contrast baths should be utilized. Progressive exercises may begin in 4-6 days. When competitive activity is resumed, the area should be provided extra protection.

      NERVE CONTUSIONS (more…)

Clinical Biomechanics: Body Alignment, Posture, and Gait

By |September 23, 2009|Diagnosis, Education, Gait Analysis, Posture|

Clinical Biomechanics:
Body Alignment, Posture, and Gait

The Chiro.Org Blog


We would all like to thank Dr. Richard C. Schafer, DC, PhD, FICC for his lifetime commitment to the profession. In the future we will continue to add materials from RC’s copyrighted books for your use.

This is Chapter 4 from RC’s best-selling book:

“Clinical Biomechanics:
Musculoskeletal Actions and Reactions”


Second Edition ~ Wiliams & Wilkins

These materials are provided as a service to our profession. There is no charge for individuals to copy and file these materials. However, they cannot be sold or used in any group or commercial venture without written permission from ACAPress.


Chapter 4:   Body Alignment, Posture, and Gait

With the background material offered in the basic principles of the musculoskeletal system, statics, dynamics, and joint stability, this chapter discusses how these factors are exhibited in body alignment and posture during static and dynamic positions.

Gravitational Effects

Improper body alignment limits function, and thus it is a concern of everyone regardless of occupation, activities, environment, body type, sex, or age. To effectively overcome postural problems, therapy must be based upon mechanical principles. In the absence of gross pathology, postural alignment is a homeostatic mechanism that can be voluntarily controlled to a significant extent by osseous adjustments, direct and reflex muscle techniques, support when advisable, therapeutic exercise, and kinesthetic training.

In the health sciences, body mechanics has often been separated from the physical examination. Because physicians have been poorly educated in biomechanics, most work that has been accomplished is to the credit of physical educators and a few biophysicists. Prior to recent decades, much of this had been met with indifference if not opposition from the medical profession.

Posture Analysis (more…)