Yuan Z. Zhang scite author profile

With the rapid increase in the use of thoracic pedicle screws in scoliosis, accurate and safe placement of screw within the pedicle is a crucial step during the scoliosis surgery. To make thoracic pedicle screw placement safer various techniques are used, Patient-specific drill template with pre-planned trajectory has been thought as a promising solution, it is critical to assess the efficacy, safety profile with this technique. In this paper, we develop and validate the accuracy and safety of thoracic transpedicular screw placement with patient-specific drill template technique in scoliosis. Patients with scoliosis requiring instrumentation were recruited. Volumetric CT scan was performed on each desired thoracic vertebra and a 3-D reconstruction model was generated from the CT scan data. The optimal screw size and orientation were determined and a drill template was designed with a surface that is the inverse of the posterior vertebral surface. The drill template and its corresponding vertebra were manufactured using rapid prototyping technique and tested for violations. The navigational template was sterilized and used intraoperatively to assist with the placement of thoracic screws. After surgery, the positions of the pedicle screws were evaluated using CT scan and graded for validation. This method showed its ability to customize the placement and the size of each pedicle screw based on the unique morphology of the thoracic vertebra. In all the cases, it was relatively very easy to manually place the drill template on the lamina of the vertebral body during the surgery. This method significantly reduces the operation time and radiation exposure for the members of the surgical team, making it a practical, simple and safe method. The potential use of such a navigational template to insert thoracic pedicle screws in scoliosis is promising. The use of surgical navigation system successfully reduced the perforation rate and insertion angle errors, demonstrating the clear advantage in safe and accurate pedicle screw placement of scoliosis surgery.

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A novel computer-assisted drill guide template for placement of C2 laminar screws

Zhang

et al. 2009

Eur Spine J

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The present method of C2 laminar screw placement relies on anatomical landmarks for screw placement. Placement of C2 laminar screws using drill template has not been described in the literature. The authors reported on their experience with placement of C2 laminar screws using a novel computer-assisted drill guide template in nine patients undergoing posterior occipitocervical fusion. CT scan of C2 vertebrae was performed. 3D model of C2 vertebrae was reconstructed by software MIMICS 10.01. The 3D vertebral model was then exported in STL format, and opened in a workstation running software UG imageware12.0 for determining the optimal laminar screw size and orientation. A virtual navigational template was established according to the laminar anatomic trait. The physical vertebrae and navigational template were manufactured using rapid prototyping. The navigational template was sterilized and used intraoperative to assist the placement of laminar screw. Overall, 19 C2 laminar screws were placed and the accuracy of screw placement was confirmed with postoperative X-ray and CT scanning. There were not complications of related screws insertion. Average follow-up was 9 months (range 4-13 months), 77.8% of the patients exhibited improvement in their myelopathic symptoms; in 22.2% the symptoms were unchanged. Postoperative computed tomographic (CT) scanning was available for allowing the evaluation of placement of thirteen C2 laminar screws, all of which were in good position with no spinal canal violation. This study shows a patient-specific template technique that is easy to use, can simplify the surgical act and generates highly accurate C2 laminar screw placement. Advantages of this technology over traditional techniques include planning of the screw trajectory is done completely in the presurgical period as well as the ability to size the screw to the patient's anatomy.

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Application of computer-aided design osteotomy template for treatment of cubitus varus deformity in teenagers: A pilot study

Zhang

Chen

et al. 2011

Journal of Shoulder and Elbow Surgery

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Preliminary application of computer‐assisted patient‐specific acetabular navigational template for total hip arthroplasty in adult single development dysplasia of the hip

Zhang

Chen

et al. 2011

Robotics Computer Surgery

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Design and Primary Application of Computer-Assisted, Patient-Specific Navigational Templates in Metal-on-Metal Hip Resurfacing Arthroplasty

Zhang

Yang

et al. 2011

The Journal of Arthroplasty

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Yuan Z. Zhang

Accuracy and efficacy of thoracic pedicle screws in scoliosis with patient-specific drill template

A novel computer-assisted drill guide template for placement of C2 laminar screws

Application of computer-aided design osteotomy template for treatment of cubitus varus deformity in teenagers: A pilot study

Preliminary application of computer‐assisted patient‐specific acetabular navigational template for total hip arthroplasty in adult single development dysplasia of the hip

Design and Primary Application of Computer-Assisted, Patient-Specific Navigational Templates in Metal-on-Metal Hip Resurfacing Arthroplasty

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