Sports Management: Bone and Joint Injuries

By |April 15, 2013|Bone Injury, Clinical Decision-making, Diagnosis, Education, Joint Injury, Sports Management|

Sports Management: Bone and Joint 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 15 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 15: Bone and Joint Injuries

In traditional general medical practice, the musculoskeletal system is the most overlooked system in the body, yet it comprises over half the body mass. The relationship between structure and function, and the interrelationship between all body systems, cannot be denied. Muscles, bones, and connective tissues are involved in both local and systemic pathology, and in a wide assortment of functional and referred disturbances. Thus, great care must be taken in eliciting the details of a complaint when any musculoskeletal disorder is suspected. This section reviews the basis of alert management of bone and joint injuries within the health care of athletic and recreational injuries.

Bone Injuries

Correlation of the history of the present complaint with musculoskeletal dysfunction must be done in detail and with care. Maintain accurate initial and progress records with repeated monitoring. Few patients can appreciate the relationship of dysfunction in one somatic part with a distant somatic part, let alone the relationship between a somatic dysfunction and a visceral dysfunction.


Musculoskeletal symptoms may be the first clues toward poor structural adaptation or stress adaptation. The most common musculoskeletal symptoms are joint stiffness, joint swelling, and joint pain. Bones, being essentially nonyielding structures, are damaged when excessive force is applied directly or indirectly. The nature of the damage depends on the direction of the applied force on the bones and the manner in which these bones are attached to other structures. The principal acute skeletal injuries are sprains, strains, subluxations, fractures, and dislocations.

Normal bone has an excellent blood supply with some exception in the metaphyseal area; but tendons, ligaments, discs, and cartilage are poorly vascularized. Yet both bone and joints challenge the host’s defensive mechanisms. The pressure of pus under hard bone blocks circulation, and emboli and thrombosis can cause additional devascularization. When circulation is deficient, local phagocytic function and nutrition are deficient, and cure is stymied.

The most accurate diagnosis can be made immediately after injury, before swelling clouds the picture. Many fracture and dislocation complications such as nerve and vessel injury occur not from the trauma itself but from poor first aid which does not provide adequate splinting prior to movement. Traumatic bone injury rarely occurs without significant soft-tissue damage. The physical examination must be gentle but thorough because soft-tissue trauma is poorly visible on roentgenograms for several days after injury. For example, a working diagnosis of stress fracture may have to be made in the absence of classic symptoms by bony tenderness alone as the fracture may not be demonstrable on x-ray films for 10-14 days or longer.

Probing the History

Symptoms of a musculoskeletal nature that cannot be linked to trauma are suspect of a chronic organic process. Unfortunately, a history of stress or strain may not be remembered. Even severe trauma is easily put out of the mind uring a game when emotions are high or forgotten once the pain and swelling have left. Whether pain is present or not, the history must be probed to determine if the dysfunction is the result of bone, the joint, or the motor apparatus involved in the joint motion. (more…)