Asian Spine J.  2021 Feb;15(1):46-53. 10.31616/asj.2019.0021.

Does Three-Dimensional Printed Patient-Specific Templates Add Benefit in Revision Surgeries for Complex Pediatric Kyphoscoliosis Deformity with Sublaminar Wires in Situ? A Clinical Study

Affiliations
  • 1“We Are Spine” Centre, Aarav Polyclinic, Mumbai, India
  • 2Department of Spine Surgery, Wockhardt Hospital, Mumbai, India
  • 3Department of Orthopedic Surgery, Lilavati Hospital and Research Center, Mumbai, India
  • 4Biomedical Application Engineer, Mumbai, India
  • 5Department of Orthopedic Surgery, Jupiter Hospital, Thane, India
  • 6Department of Spine Surgery, Lilavati Hospital, Mumbai, India
  • 7Department of Spine Surgery, Wockhardt Hospital, Mumbai, India

Abstract

Study Design: Case-control study. Purpose: To evaluate the accuracy of three-dimensional (3D) printed patient-specific templates (PSTs) for placement of pedicle screws (PAs) in patients undergoing revision surgeries for complex kyphoscoliosis deformity with sublaminar wires in situ. Overview of Literature: Revision kyphoscoliosis correction surgery in pediatric patients is a challenging task for the treating surgeon. In patients with sublaminar wires in situ, the native anatomical landmarks are obscured, thus making the freehand screw placement technique a highly specialized task. Hence, the concept of using PSTs for insertion of PAs in such surgeries is always intriguing and attractive.
Methods
Five consecutive patients undergoing revision deformity correction with sublaminar wires in situ were included in this study. Patients were divided in two groups based on the technique of PA insertion. A total of 91 PAs were inserted using either a freehand technique (group A) or 3D printed templates (group B) (34 vs. 57). The placement of PAs was classified according to a postoperative computed tomography scan using Neo’s classification. Perforation beyond class 2 (>2 mm) was termed as a misplaced screw. The average time required for the insertion of screws was also noted.
Results
Mean age, surgical time, and blood loss were recorded. The change in mean Cobb’s angle in both groups was also recorded. The difference in rates of misplaced screws was noted in group A and group B (36.21% vs. 2.56%); however, the mean number of misplaced PAs per patient in group A and group B was statistically insignificant (6.5±3.54 vs. 4.67±1.53, p =0.4641). The mean time required to insert a single PA was also statistically insignificant (120±28.28 vs. 90±30 seconds, p =0.3456).
Conclusions
Although 3D printed PSTs help to avoid the misplacement of PAs in revision deformity correction surgeries with sublaminar wires in situ, the mean number of misplaced screws per patient using this technique was found to be statistically insignificant when compared with the freehand technique in this study.

Keyword

Kyphosis; Scoliosis; Pedicle screws; Three-dimensinal printing; Patinet-specific templates
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