Rod Shape Changing After Scoliosis Correction Surgery

University of Pecs

Status

Completed

Conditions

Scoliosis, Severe

Scoliosis Idiopathic

Treatments

Diagnostic Test: EOS 2D/3D scanning

Diagnostic Test: 3D Scanning

Study type

Interventional

Funder types

Other

Identifiers

NCT05033171

UP-CC-Ortho-RodShape

Details and patient eligibility

About

The change of the fixation-rod after posterior srew-rod fixation segmentdesis is not widely known. The recent development of the 3D scanning technics and the opportunities of the EOS 2D/3D system made us possible to have the exact rod shape immediately after implantation, and at each control examination. These progressions made us available to follow up the shape changing of the fixation-rod, hereby the changing of the correction.

Full description

The adolescent idiopathic scoliosis can affect the 0,5-2% of the European population. One of the widely accepted treatment of severe scoliosis (Cobb angle is over 40-50°, or more than 10° progression observed a year) is posterior correction segmentdesis with screw and rod instrumentation. As a scoliosis treatment center, about 90-110 scoliosis correction surgeries are performed in our department, using conventional preoperative planning, coronal and sagittal translation technique from posterolateral approach.

An EOS 2D/3D system is available in our department making possible the scanning of the patient with upright biplanar ultra-low dose x-rays technique. The SterEOS software makes us possible to reconstruct the surface of the spine, pelvis and lower limb. The biplanar modality of the images makes possible to 3D reconstruct any simple shape using CAD (computer-aided design) softwares.

The recent updates in the 3D scanning technology also made us possible to perform intraoperative scannings without harming the sterility.

The aim of the study to define the change of the fixation-rod's shape after scoliosis correction surgery.

Main hypothesis: there is significant change in the rod shape after implantation

Secondary hypothesis 1: during the implant of the rod, it will loose from the prebent correction depending of the severity and rigidity of the curve.

Secondary hypothesis 2: in the early stage of the rehabilitation, after the mobilization the shape of the rod (and the spinal parameters) can change Secondary hypothesis 3: after the 3. month postoperatively the shape of rod does not change anymore

Enrollment

10 patients

Sex

All

Ages

12 to 30 years old

Volunteers

No Healthy Volunteers

Inclusion criteria

routine patient care of University of Pécs Medical School Department of Orthopaedics
diagnosed idiopathic adolescent scoliosis
scoliosis induced surgical indication (Cobb-degree>45)

Exclusion criteria

early onset or adult degenerative scoliosis
scoliosis with known origin
the angle of the curve does not reach the criteria of surgical indication (Cobb-degree<45)
former spine surgery

Trial design

Primary purpose

Treatment

Allocation

N/A

Interventional model

Single Group Assignment

Masking

None (Open label)

10 participants in 1 patient group

Study group

Experimental group

Description:

Patients with scoliosis induced surgical indication (Cobb-degree\>45). * Posterior screw-rod fixation segmentdesis * Before the implantation, right after the implantation and after the in situ bending 3D scanning of the rod using Artec Eva Spider type manual 3D scanner will be performed. Scanning is possible from a more than 60 cm distance, so that means the operational area stays sterile. * EOS Micro Dose imaging will be done on the third day after surgery, on the third, the sixth, the twelfth and twenty fourth month after surgery (as in the actual clinical protocal).

Treatment:

Diagnostic Test: 3D Scanning

Diagnostic Test: EOS 2D/3D scanning

Trial contacts and locations

Data sourced from clinicaltrials.gov

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