![]() These bones provide boney armor to protect against injury. As the Spinal Cord descends from the skull and through the neck and rest of the body it is protected on all sides by spinal bones. It carries signals between the brain and the rest of the body. It is a cylindrical bundle of nerve fibers that control our voluntary and involuntary bodily functions. The Spinal Cord consists of neural tissue that starts at the base of the brain and extends down into the low back. The consequences can be neck pain, headaches, and a limited range of motion. Injured tendons can jeopardize neck stability, health, and movement. Tendons are susceptible to injury due to trauma, repetitive use, and degeneration. Muscles and tendons in the Cervical Spine provide important stability and enable movement. Tendons are connective tissue that connects muscle to bone. Unfortunately, these ligaments are susceptible to injury. These ligaments essentially connect your head to your neck. The two most important ligaments are the Alar and Transverse ligaments. There are a large number of ligaments in the Cervical Spine. They provide stability for the neck and head. Ligaments are thick pieces of connective tissue that connect bone to bone. The result can be a limited range of motion in the neck and pain. Unfortunately, the Cervical Facets are susceptible to injury with the compromise of the joint cartilage and joint health. Like the knee and ankle joints, the Facet Joints are lined with cartilage which allows for smooth, pain-free motion. The Facet Joints provide important stability to the neck and limit movement. There is a right and left Facet Joint at each spinal level. The Facet Joints are small, paired joints on the backside of the neck. Common examples of Disc injuries include Protrusions, Herniations, and Extrusions. For example, the Disc between the C6 and C7 Vertebral Body is referred to as the C6/7 disc. Its name is based on the bones it is sandwiched between. The Disc is a fibrocartilage cushion that is sandwiched between each of the Vertebral Bodies. The lowest bone in the neck is the C7 Discs The top bone is the C1 and is also referred to as the Atlas. The letter C precedes each number indicating that we are referencing the Cervical Spine. These boney building blocks are numbered 1 through 7. The bones in the neck are stacked upon one another. The Cervical Spine is composed of Discs, Facet joints, ligaments, nerves, tendons, and tendons. To understand Cervical Spine Instability Measurements, a basic review of neck anatomy is in order. Cervical spine instability measurements are important to understand as they can lead to the accurate diagnosis of injuries to the upper cervical spine. Cervical spine instability is real and can profoundly affect patients and their families alike. Many patients are inappropriately labeled as psychologically unstable or hormonal. ![]() As such many such injuries are misdiagnosed or missed altogether. Injuries to the upper cervical spine can cause a large number of poorly recognized or understood symptoms such as brain fog, dizziness, and severe fatigue. What are cervical spine instability measurements? What are the basic structures in the cervical spine? And what is CCI and what do I need to know about CCI measurements? Introduction They reviewed the x-rays and MRIs taking different measurements. Your surgical consultation was overwhelming. Isolation and sadness are constant companions. Work and domestic responsibilities are overwhelming and difficult to complete. The brain fog, dizziness, and fatigue have not responded to conservative therapy. ![]() You did not see the approaching vehicle but heard the skidding tires. You were waiting for the red light to change when a large truck slammed into your vehicle. Cervical Spine Instability Measurements: How To Precisely Interpret Them
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