Vertebral Column Resection (VCR) in Congenital Kyphoscoliosis (CKS)

Congenital Kyphoscoliosis Clinical Trial

Official title:

Posterior Vertebral Column Resection (PVCR) for Correction of Adolescent Thoracolumbar Congenital Kyphoscoliosis (CKS)

Clinical Trial Details — Status: Not yet recruiting

Administrative data

• NCT number: NCT03524027
• Other study ID #: PVCR
• Status: Not yet recruiting
• Phase: N/A
• Start date: May 2018
• Est. completion date: May 2020

Study information

• Verified date: May 2018
• Source: Assiut University
• Contact: Ahmed Shawky
• Phone: +201010212222
• Email: ahsh313[@]yahoo.com
• Is FDA regulated: No
• Study type: Interventional

Clinical Trial Summary

Congenital spinal deformities (CSD) are caused by early embryologic errors in vertebral column formation. Spinal cord malformations are present in approximately one third of patients, even associated cardiac, renal, and genitourinary organ system anomalies in more than half of patients. Functional activity and health-related quality of life (HRQOL) are severely affected in adolescents with neglected severe congenital kyphoscoliosis (CKS) progressive curves in developing countries.

Different strategies are described with two main principles; I- Prophylactic surgeries like hemi-epiphysiodesis or in situ fusions that will cease worsening or allow progressive correction over time, II- Corrective surgeries like reconstructive osteotomies and spinal fusion with or without spinal resection. The perfect show in management of congenital spinal deformities is to pick up the curves at early stages where a prophylactic treatment can be achieved with minimal risk to the spinal cord, but certainly many cases are quite aggressive or come late enough where corrective surgeries and even spinal column resection is the only valid plan.

A posterior-based vertebral column resection (VCR) is considered to be the preferred approach in the treatment of rigid, severe, and complex spinal deformities, however the difficult and lengthy nature of the procedure require assistance from experienced and well trained team. It is relatively safe but challenging technique, that allows for dramatic radiographic correction and clinical improvement. It also carries a complication rate of 10.2% as profound blood loss, iatrogenic neurological deficit and late junctional kyphosis.

Description:

Preoperative Details :

Every patient is examined for 1- Shoulder balance 2- Pelvic balance 3- Thoracic hump 4- Neurological examination. Also preoperative whole-spine X-ray anteroposterior and lateral view radiographs in erect position are obtained for accurate preoperative planning. Three-dimensional Multi-Slice Computed Tomography (MSCT) scan is obtained to delineate posterior vertebral column pathoanatomy before surgery. Whole-spine MRI is obtained for declaration of any associated spinal cord malformation.

Operative Details :

Appropriate patient positioning on the operating frame to avoid excessive pressure points in the axilla, allow the abdomen to hang free, and to maintain stability of the trunk during surgery. Standard posterior exposure is performed, and pedicle screws are placed using a free-hand technique as. The exposure at the osteotomy site is extended laterally to resect a portion of the medial ribs to enhance the exposure of the vertebral body to be removed.

Once adequate exposure is achieved, a wide laminectomy is completed from the pedicles of the proximal vertebra to the pedicles of the distal vertebra. Use of tranexamic acid to minimize osseous bleeding during these lengthy surgeries is advisable. At this point, a short rod is placed into the pedicle screws of 1 side to include at least 2 pedicle screws proximally and 2 pedicle screws distally, to provide stability during the osteotomy. Once this rod is secured, the proximal and distal discs are removed and the vertebra to be removed is outlined.

Then, the osteotomy is started from the pedicle on the contralateral side, and extending into the body. The exiting nerve roots are tied and transected at the thoracic levels, gently retracted at the lumbar levels. The removal of vertebral body is proceeded using Kerrison rongeurs and osteotomes as necessary. After adequate removal, another rod is placed to the already osteotomized side, and secured. At this point the rod on the other side can be removed or kept in place, depending on the amount of expected instability.

The resection carried similarly on the contralateral side. The posterior wall of the vertebral body is kept intact until the very end of the osteotomy. After the removal of the vertebral body and discs, using a reverse cutting curette the posterior wall is fractured with anteriorly directed blows and removed using rongeurs. The endplates of the neighboring vertebrae are cleaned off of any remaining cartilage to expose bone surfaces to achieve fusion.

The anterior defect is augmented with morsellized cancellous graft with or without the use of a titanium mesh cage, depending on the width of the void. After the completion of resection, deformity correction is carried out and the posterior instrumentation system is secured using pedicle screws. Application of Wakeup test to detect any on-table neurology. Decortication followed by addition of remaining autograft and allograft to the fusion is performed. Posterior wound closure is performed over a drain.

Postoperative Details :

Follow-up protocol is carried out after 2 weeks, 3 months, 1 year, and 2 years postoperatively with whole-spine X-Ray radiographs in erect position, and after 1 year with Multi-Slice Computed Tomography (MSCT) scan to assess fusion rate.

Recruitment information / eligibility

• Status: Not yet recruiting
• Enrollment: 20
• Est. completion date: May 2020
• Est. primary completion date: May 2019
• Accepts healthy volunteers: No
• Gender: All
• Age group: 10 Years and older

Eligibility

Inclusion Criteria:

• Neglected congenital kyphoscoliotic spinal deformity

• Thoracic and Lumbar curves only

• Age more than 10 years old

Exclusion Criteria:

• Cervical and Sacral deformities

• Revision failed back surgeries

Related Conditions & MeSH terms

• Congenital Abnormalities
• Congenital Kyphoscoliosis
• Congenital Spinal Deformity

Intervention

Procedure:
• Posterior Vertebral Column Resection (PVCR)
Posterior Vertebral Column Resection (PVCR) Surgical Technique for Correction of Adolescent Thoracolumbar Congenital Kyphoscoliosis (CKS) Spinal Deformity

Locations

Country	Name	City	State
n/a

Sponsors (1)

Lead Sponsor	Collaborator
Assiut University

References & Publications (10)

Aydogan M, Ozturk C, Tezer M, Mirzanli C, Karatoprak O, Hamzaoglu A. Posterior vertebrectomy in kyphosis, scoliosis and kyphoscoliosis due to hemivertebra. J Pediatr Orthop B. 2008 Jan;17(1):33-7. — View Citation

Ayvaz M, Akalan N, Yazici M, Alanay A, Acaroglu RE. Is it necessary to operate all split cord malformations before corrective surgery for patients with congenital spinal deformities? Spine (Phila Pa 1976). 2009 Oct 15;34(22):2413-8. doi: 10.1097/BRS.0b013e3181b9c61b. — View Citation

Hedequist D, Emans J. Congenital scoliosis. J Am Acad Orthop Surg. 2004 Jul-Aug;12(4):266-75. Review. — View Citation

Lenke LG, Newton PO, Sucato DJ, Shufflebarger HL, Emans JB, Sponseller PD, Shah SA, Sides BA, Blanke KM. Complications after 147 consecutive vertebral column resections for severe pediatric spinal deformity: a multicenter analysis. Spine (Phila Pa 1976). 2013 Jan 15;38(2):119-32. doi: 10.1097/BRS.0b013e318269fab1. — View Citation

Lenke LG, O'Leary PT, Bridwell KH, Sides BA, Koester LA, Blanke KM. Posterior vertebral column resection for severe pediatric deformity: minimum two-year follow-up of thirty-five consecutive patients. Spine (Phila Pa 1976). 2009 Sep 15;34(20):2213-21. doi: 10.1097/BRS.0b013e3181b53cba. — View Citation

Lenke LG, Shaffrey CI, Carreon LY, Cheung KMC, Dahl BT, Fehlings MG, Ames CP, Boachie-Adjei O, Dekutoski MB, Kebaish KM, Lewis SJ, Matsuyama Y, Mehdian H, Pellisé F, Qiu Y, Schwab FJ; AO Spine International and SRS Scoli-RISK-1 Study Group. Lower Extremity Motor Function Following Complex Adult Spinal Deformity Surgery: Two-Year Follow-up in the Scoli-RISK-1 Prospective, Multicenter, International Study. J Bone Joint Surg Am. 2018 Apr 18;100(8):656-665. doi: 10.2106/JBJS.17.00575. — View Citation

Lenke LG, Sides BA, Koester LA, Hensley M, Blanke KM. Vertebral column resection for the treatment of severe spinal deformity. Clin Orthop Relat Res. 2010 Mar;468(3):687-99. doi: 10.1007/s11999-009-1037-x. Epub 2009 Sep 1. — View Citation

Ruf M, Jensen R, Letko L, Harms J. Hemivertebra resection and osteotomies in congenital spine deformity. Spine (Phila Pa 1976). 2009 Aug 1;34(17):1791-9. doi: 10.1097/BRS.0b013e3181ab6290. — View Citation

Soliman HAG. Health-related Quality of Life of Adolescents With Severe Untreated Congenital Kyphosis and Kyphoscoliosis in a Developing Country. Spine (Phila Pa 1976). 2018 Feb 16. doi: 10.1097/BRS.0000000000002598. [Epub ahead of print] — View Citation

Wang Y, Lenke LG. Vertebral column decancellation for the management of sharp angular spinal deformity. Eur Spine J. 2011 Oct;20(10):1703-10. doi: 10.1007/s00586-011-1771-0. Epub 2011 Mar 19. — View Citation

Outcome

Type	Measure	Description	Time frame	Safety issue
Primary	Change in Scoliosis Research Society (SRS)-24 (arabic version) Health-related quality of life questionnaire	The score of questionnaire components is used to assess how patients are doing regarding their function (day to day activities), their pain level (or hopefully improvement in/lack of), how they feel they look, how they feel about themselves, and if they are satisfied as the result of their treatment. Preoperative and postoperative scores are compared.	Baseline preoperative, then 3 months, and 1 year postoperative
Secondary	Oswestry Disability Index (ODI)	Is an index derived from the Oswestry Low Back Pain Questionnaire used by clinicians and researchers to quantify disability for low back pain.	Baseline preoperative, then 3 months, and 1 year postoperative
Secondary	Short Form (SF)-36 Health Survey	Is widely validated and popularly used in assessing the subjective quality of life (QOL) of patients and the general public.	Baseline preoperative, then 3 months, and 1 year postoperative
Secondary	Complications Rate	As neurological deficit, vascular injury, deep infection, visual affection, pulmonary embolism, pleural effusion, deep venous thrombosis, implant-related problems, proximal junctional kyphosis, and re-operation for any cause.	Intraoperative, then Immediate, 2 weeks, 3 months, and 1 year postoperative
Secondary	American Spinal Injury Association (ASIA) Score	A score developed by the American Spinal Injury Association for essential minimal elements of neurologic assessment for all patients with a spinal injury.	Baseline preoperative, then immediate, and 3 months postoperative
Secondary	Local Kyphosis Angle (LKA)	Assessed on the lateral radiograph by measuring the angle obtained by a line parallel to the inferior endplate of the deformed vertebra and that of the vertebra one level above.	Baseline preoperative, then 2 weeks, and 1 year postoperative
Secondary	Lumbar Lordosis Angle (LLA)	Angle measured between L1 and L5 lower end plates.	Baseline preoperative, then 2 weeks, and 1 year postoperative
Secondary	Thoracic Kyphosis Angle (TKA)	Angle measured between T1 and T12 lower end plates.	Baseline preoperative, then 2 weeks, and 1 year postoperative
Secondary	Sagittal Vertical Axis (SVA) to C7 Plumb Line (C7PL)	To quantify global alignment. It is defined as the sagittal offset of a plumb line dropped from the C7 vertebral body from the posterosuperior corner of the sacral plate.	Baseline preoperative, then 2 weeks, and 1 year postoperative
Secondary	Scoliosis Angle (Cobb's Angle)	To measure and quantify the magnitude of spinal deformities, especially in the case of scoliosis. The Cobb angle measurement is the "gold standard" of scoliosis evaluation endorsed by Scoliosis Research Society. It is used as the standard measurement to quantify and track the progression of scoliosis.	Baseline preoperative, then 2 weeks, and 1 year postoperative
Secondary	Shoulder Balance (Clavicle Angle)	It is the angle that is subtended between a horizontal reference line - clavicle horizontal reference line (CHRL), which is drawn perpendicular to the lateral edge of the radiograph and touches the most cephalad portion of the elevated clavicle and a line which touches the most cephalad aspect of both the right and left clavicles - clavicle reference line (CRL). By convention, angles subtended with the left shoulder up are positive and angles subtended with the right shoulder up are negative (consistent with directionality of the T1 tilt angle).	Baseline preoperative, then 2 weeks, and 1 year postoperative
Secondary	Central Sacral Vertical Line (CSVL) to C7 Plumb Line (C7PL)	Coronal decompensation is measured as the horizontal distance between a plumb line dropped downward from the center of the C7 (C7PL) vertebral body and the central sacral vertical line (CSVL), which is a line drawn vertically through the center of the sacrum.	Baseline preoperative, then 2 weeks, and 1 year postoperative
Secondary	Body Height (BH)	The height is measured using a measuring tape with patient standing without shoes.	Baseline preoperative, then 2 weeks, and 1 year postoperative
Secondary	T1-S1 Trunk Height (TH)	The T1-S1 height of the spine and the T1-S1 length of the spine are measured and compared.	Baseline preoperative, then 2 weeks, and 1 year postoperative
Secondary	Leg Length Discrepancy (LLD)	Radiographic measurement of difference between the lengths of the legs. Full-length standing anteroposterior radiograph compared with scanogram.	Baseline preoperative, then 1 year postoperative
Secondary	CT-based Classification for assessment of biological graft fusion	A new assessment method of bony union using high-speed spiral CT imaging is proposed which reflects the gradually increasing biological stability of the construct. Grade I (complete fusion) implies cortical union of the allograft and central trabecular continuity. Grade II (partial fusion) implies cortical union of the structural allograft with partial trabecular incorporation. Grade III (unipolar pseudarthrosis) denotes superior or inferior cortical non-union of the central allograft with partial trabecular discontinuity centrally and Grade IV (bipolar pseudarthrosis) suggests both superior and inferior cortical non-union with a complete lack of central trabecular continuity.	1 year postoperative