Understanding Spinal Anatomy: Vertebrae, Discs, and Nerves

The human spine is a complex, load-bearing structure designed for both stability and mobility. It consists of three primary anatomical components:

Vertebrae

The vertebrae are stacked bones extending from the cervical spine (neck) through the thoracic and lumbar regions. They protect the spinal cord and support body weight. Trauma can cause compression fractures, burst fractures, facet fractures, or alignment instability.

Intervertebral Discs

Discs sit between vertebrae and function as shock absorbers. Each disc contains:

• An outer annulus fibrosus (fibrous ring)
• An inner nucleus pulposus (gel-like core)

Trauma can damage discs, leading to:

• Disc bulges
• Disc protrusions
• Disc herniations
• Annular tears

Spinal Nerves

Nerve roots exit the spinal canal between vertebrae. When discs or fractures encroach on this space, they may cause nerve impingement or compression, resulting in pain, numbness, weakness, or radiculopathy.

How Car Accidents Cause Spinal Injuries

Motor vehicle crashes expose the spine to sudden acceleration-deceleration forces, axial loading, and rotational stress. These forces may exceed the spine’s physiological tolerance—even in low-speed collisions.

Vertebral Fractures

Peer-reviewed biomechanical studies show that crash forces can cause vertebral fractures through compression, flexion, extension, or torsion mechanisms. Burst and compression fractures may occur even without immediate neurological injury but can destabilize the spine and worsen over time.

Disc Bulges, Protrusions, and Herniations

Medical literature confirms that traumatic disc injury can occur as a direct result of motor vehicle collisions. Trauma may:

• Weaken or rupture the annulus fibrosus
• Force nucleus material outward
• Narrow the spinal canal or neural foramina

Traumatic lumbar and cervical disc herniations have been documented following car crashes even in the absence of fractures on X-ray or CT. MRI is often required to detect these injuries (see Journal of Orthopaedic Surgery and Research; European Spine Journal).

Cervical Spine Injuries and Whiplash Trauma

The cervical spine is particularly vulnerable in rear-end and side-impact collisions. Rapid hyperextension followed by flexion—commonly referred to as whiplash—can injure ligaments, facet joints, and discs.

Peer-reviewed studies demonstrate that:

• Cervical disc herniations can occur following acceleration-deceleration trauma
• Symptoms may be delayed despite early imaging appearing “normal”
• MRI is the diagnostic gold standard for post-traumatic cervical disc pathology

Low-impact crashes can still generate sufficient force to injure cervical discs, particularly where occupants are unprepared for impact.

Low-Impact Car Accidents and Spinal Disc Injury: What Medical Journals Show

A common insurance defense argument is that “low-impact” crashes cannot cause disc herniations. This claim is not supported by medical literature.

Systematic reviews and clinical studies have documented:

• Symptomatic disc injuries following low-speed collisions
• Disc pathology developing or becoming symptomatic after trauma
• Biomechanical plausibility for disc injury based on acceleration forces, not vehicle damage alone

Medical research emphasizes that injury severity does not correlate reliably with vehicle property damage, a critical point in Connecticut spinal injury litigation.

Diagnostic Evidence: MRI, CT, and Neurological Exams

MRI (Magnetic Resonance Imaging)

MRI is essential for identifying:

• Disc bulges and protrusions
• Herniated discs
• Nerve root impingement
• Spinal cord compression
• Edema and acute soft-tissue injury

CT and X-Ray

CT is superior for detecting fractures. X-rays assess alignment but may miss disc and nerve injury.

Clinical Correlation

Objective imaging must be correlated with:

• Neurological findings
• Symptom onset timing
• Functional impairment

How Etemi Law Reviews Medical Records in Spinal Injury Cases

At Etemi Law, spinal injury cases are handled with medical precision. Our attorneys do not rely on radiology summaries alone. We carefully review:

• MRI and CT images
• Radiology reports and addenda
• Treating physician notes
• Neurological exams
• Physical therapy records
• Pain management documentation

We work closely with:

• Board-certified radiologists
• Orthopedic spine surgeons
• Neurologists
• Biomechanical experts

This allows us to identify:

• Disc bulges vs. herniations
• Acute traumatic findings vs. degenerative changes
• Nerve impingement and compression
• Fractures and instability
• Causation linking trauma to pathology

Legal Significance of Spinal Injuries in Easton Car Accident Claims

Spinal injuries often lead to:

• Chronic pain
• Radiculopathy
• Reduced mobility
• Permanent impairment
• Lost earning capacity

Connecticut law allows recovery for:

• Medical expenses (past and future)
• Pain and suffering
• Permanent disability
• Loss of enjoyment of life

Proving causation requires medical-legal integration, especially where insurers argue pre-existing conditions. Peer-reviewed science and expert testimony are often decisive.

Radiculopathy vs. Myelopathy: Key Differences After a Spinal Injury

Radiculopathy and myelopathy are both neurological conditions that can result from spinal trauma, such as a car accident, but they involve different anatomical structures and levels of severity. Radiculopathy occurs when a spinal nerve root is compressed or irritated—often by a disc bulge, disc protrusion, disc herniation, foraminal stenosis, or bone spur—and typically causes radiating pain, numbness, tingling, or weakness along a specific nerve pathway, such as pain traveling from the neck into the arm or from the lower back into the leg. Myelopathy, by contrast, results from compression of the spinal cord itself, most commonly due to a large disc herniation, spinal canal stenosis, fracture, or traumatic instability, and is considered a far more serious condition because the spinal cord controls multiple motor and sensory pathways; symptoms may include bilateral weakness, gait instability, loss of fine motor skills, hyperreflexia, coordination problems, and bowel or bladder dysfunction. From a medical and legal standpoint, distinguishing radiculopathy from myelopathy is critical because spinal cord involvement often indicates a higher risk of permanent neurological damage, more extensive treatment, and significantly greater long-term impairment, all of which directly impact diagnosis, prognosis, and compensation in spinal injury claims.

Why Connecticut Injury Victims Trust Etemi Law

Etemi Law brings decades of combined experience handling serious injury and wrongful death cases across Connecticut. We understand spinal anatomy, trauma biomechanics, and how to translate complex medical evidence into compelling legal proof.

We are prepared to:

• Challenge insurance denial tactics
• Retain top medical experts
• Present MRI and biomechanical evidence clearly
• Pursue maximum compensation

Speak With a Connecticut Spinal Injury Lawyer at Etemi Law

If you suffered a spinal injury after a car accident in Easton—whether involving disc bulges, herniations, nerve compression, or fractures—you deserve a thorough medical and legal evaluation.

Contact Etemi Law for a confidential consultation. We will review your medical records carefully and explain your legal options.