Spinal degeneration

Spinal degeneration

According to my Injury classification system, Spinal degeneration is considered a Level 4, as per the four structures compromised in the injury, the alignment, muscle, ligamentous and cartilage/disc layers.
The predisposing factors for the development of this condition began with a misalignment dysfunction at the spinal segment, which overtime causes  the  soft tissue ligamentous and muscle support to become overloaded and compromised allowing the biomechanical stress to reach the level of the disc/cartilage  and initiating the degenerative joint disease.

This condition causes a localised pain and morning stiffness and is generally associated with a gradual decrease ranges of motion, particularly in spinal extension movements making simple everyday tasks such as walling and climbing downstairs quite difficult.

There are several spinal associated degenerative diseases according to the location

Spinal Spondylosis, is a condition that relates the degenerative process to the level of the disc. There are five levels of disc degeneration (D1 to D5) the X-ray analysis provides an important window to visualize and classify the level of deterioration.

D1 – Acute injury showing increase disc space due to the build of inflammation

D2 – Decrease disc space at the posterior part of the disc

D3 – Significant decrease disc space at the posterior part of the disc

D4 – Reduce total disc space

D5 – Extremely reduce total disc space


Spinal Spondylarthrosis This condition relates the degenerative process to the level of the facet joints. Usually facet joint disorders rarely occurs on its own, the common predisposing factor is a primary lesion at the level of the disc leading to a secondary lesion in the spinal joints. Spinal Facet Syndrome (with or without ‘’trapped’’ cartilage) is a common associated condition that causes the spinal joints to lock, restricting the movement of the joint.


Spinal Stenosis is a condition that narrows the vertebral canal casing a compression on the corresponding nerves. There are many causes for stenosis, severe multi segmental degenerative dis disease is a common factor for the development of this condition


Bone spur (osteophytes) formation which develops in advance cases of arthritis due to the significant joint deterioration disturbing the natural bone remodelling physiology. Due to the outgrown of the of the joint, adjoining nerves might be irritated and compressed as seen many spinal radiculopathy syndromes.

Is important to note that for the cartilage to become injured, the previous defence mechanisms have to have failed to allow the biomechanical stress to damage the cartilage, therefore, the treatment care must aim to restore the health of the entire spinal protective structures.


Assessment Protocol

Clinical assessment to identify the key joint dysfunctions of the spine that have contributed to this condition. Soft tissue analysis to pinpoint the level of irritation in the soft tissue support.

 X-ray analysis

Anterior – Posterior (AP) and Lateral spinal  views are essential to analyse the level and direction of the different patterns of misalignments and the degree of the degenerative disease.


Spine MRI is essential for visualizing the extent of injury on the muscle/tendon and ligamentous and cartilage/meniscus layers and nerve compromised.

Locate the exact injury point; Allows the treatment to be more specific during the application of the treatment modalities

Identify the extent of tissue damage and the presence of scar tissue; Provides valuable information regarding prognosis and the application of friction soft tissue modalities to aid on scar tissue removal.

Rule out fractures not picked up by the x-ray and rule severe extrusion disc injuries and cauda equina compromised.  

Rule out any other condition; There are rare disorders that may create similar patterns of dysfunction, is advisable to rule out these conditions prior to the start of the treatment.


Treatment protocol

The treatment care should aim to restore the Spinal alignment, the soft tissue muscles/tendon and ligamentous health as well as stimulating and remodelling the cartilage and disc repair.

Specific adjustments of the spinal segments followed by a rehabilitation regime to strengthen the entire soft tissue support of the spine.

Soft tissue and disc healing protocol

Application of Low-level Laser and PEMF directly over the injured tissues to aid on the cellular level of healing as well as improving the microcirculation for the area. Due to the natural poor blood supply properties of the meniscus, this treatment modality is essential to enhance disc healing

Friction soft tissue therapy helps to reduce dysfunctional scar tissue

Specific stretches and strengthening to improve the resilient of the soft tissue support

Specific selected essential oil application to enhance healing

Dry Needling to promotes blood flow and enhance the soft tissue and disc healing.

Depending on the level injury and chronicity, a minimum of 6 weeks up to 12 weeks of treatment care may be necessary to resolve this condition.

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