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Cervical Instabilities Spine clinical trials

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NCT ID: NCT04770571 Enrolling by invitation - Clinical trials for Degenerative Disc Disease

Posterior Cervical Fixation Study

Start date: May 10, 2022
Phase:
Study type: Observational

The objective of this study is to evaluate the safety and performance of occipito-cervico-thoracic spine surgery using posterior fixation as measured by reported complications, radiographic outcomes, and patients reported outcomes (PROs).This study is being undertaken to identify possible residual risks and to clarify mid-to long-term clinical performance that may affect the benefit/risk ratio of posterior fixation systems.

NCT ID: NCT03250611 Not yet recruiting - Clinical trials for Cervical Instabilities Spine

Occipito-Cervical Stabilization Using Occipital Condyle Screw

Start date: September 2017
Phase: N/A
Study type: Interventional

The Occipito-Cervical (OC) junction is the most cephalad portion of the spinal axis, with anatomical osseous complex that allows significant mobility while maintaining biomechanical stability. OC instability is a rare disorder with potentially life-threatening consequences. Instability may manifest as disabling pain, cranial nerve dysfunction, paralysis, or even sudden death. The most common acute presentation is secondary to major trauma. Other pathologic processes that may lead to chronic instability include rheumatoid arthritis, infections, tumors, and even congenital malformations; OC fusion in aforementioned cases each according is then indicated. Stabilization of the OC junction remains a challenge, owing to the regional anatomy and poor occipital bone purchase. OC stabilization techniques have undergone continuous refinement. Early techniques involving simple posterior only bone grafts demonstrated a high rate of failure and have largely been replaced by rigid posterior fixation systems using rods/screws or plates, providing superior biomechanical stability and higher rates of fusion. One of the very modern modalities of fixation methods is the Occipital Condyle Screw (OCS) as a sole cranial anchor; believing that decreasing the length of lever arm of the construct, increasing the length of the screw purchase, and decreasing stresses addressed on the rod with no need to excessively bend it for the occipital slope may enhance the construct rigidity, and leaving a greater clear metal-free area of the occiput for graft contact may have a real potential benefits in fusion rates.