Spine Surgery Set-Up
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Overview
A detailed understanding of surgical anatomy is essential in anterior cervical spine surgery to prevent unintentional damage to critical structures such as the esophagus, vertebral artery, spinal cord, and nerve roots, which are closely located to the surgical site.
While knowledge of anatomy remains paramount, the emerging method of stereotactic intraoperative imaging can support surgeons during cervical spine procedures.
Stereotactic intraoperative imaging is especially beneficial in situations where typical anatomical reference points are absent or modified due to factors such as deformities, trauma, revision surgery, morbid obesity, or ossification of the posterior longitudinal ligament.
This technique provides real-time imaging throughout the surgical procedure, assisting the surgeon in navigating intricate anatomical structures, achieving accurate instrument placement, and reducing the likelihood of complications.
However, it is crucial to emphasize that although stereotactic intraoperative imaging is advantageous, it cannot replace the need for a thorough comprehension of surgical anatomy. Surgeons must have extensive knowledge to ensure the safety and success of anterior cervical spine surgeries.
Stereotactic operations have been used for intracranial surgery since the early 20th century. In spine surgery, computer-assisted navigation emerged in the 1990s. Initially, it relied on frame-based stereotaxis, but advancements now allow for intraoperative imaging and frameless registration. These improvements have made computer-assisted navigation standard in complex anterior cervical spine cases, enhancing accuracy and reducing operative time.
Utilizing intraoperative O-arm navigation facilitates successful and secure performance of minimally invasive anterior transcorporeal foraminotomies and decompressions. It enables the precise extraction of diseased tissue while safeguarding vital anatomical structures. Moreover, this advanced technology enhances the accuracy of screw placement and minimizes radiation exposure for surgeons, surpassing the capabilities of conventional methods
Navigation technology is a useful tool in complex spinal surgeries, but it should not replace the surgeon’s knowledge of anatomy. It should be used as a supportive guide, and confirmation from anatomical landmarks is essential to ensure patient safety.
Approach Stereotactic Navigation
Room Setup
The preferred method for setting up the operating room with stereotactic navigation involves a spacious environment, utilizing a large operative theater to accommodate the O-arm. After patient sedation and intubation, baseline motor functions are established, and the patient is positioned in a supine position with their head secured in a Mayfield 360 head holder. Care is taken to maintain a neutral neck position.
The C-Arm is brought into the room for confirmation of corpectomy location, while the passive reference frame and StealthStation are positioned at the head of the bed. To save space, the O-Arm and Navigation station remain outside the room during C-Arm usage. If the surgeries are scheduled at different times, multiple surgeons can share a single O-arm.
Instruments Equipped With Tracking Technology And The Reference Frame
Reflective spheres are attached to instruments used during the navigated part of the procedure, allowing for optical tracking. The standard instrument set includes a navigated drill and ball-tip probe, with the option to incorporate additional instruments if required. Accurate tracking relies on ensuring the spheres are properly seated, while any interference such as blood or tools can disrupt the tracking process.
To ensure accurate alignment, it is recommended to register the instruments and frame to the StealthStation before attaching the frame. This registration process establishes the spatial relationship between the instruments and frame. It is preferable to perform this registration prior to making the incision to avoid any potential inaccuracies caused by accidental movement when the frame is already attached to the Mayfield head holder.
For optimal use of space during anterior spine exposure, it is suggested to firmly attach the reference array to the Mayfield within a range of 6 to 8 inches from the operative field. This ensures a stable reference position while keeping it away from the surgical area.
To maintain sterility, the non-sterile post is covered with transparent plastic draping, and a small opening is created using scissors to allow for frame insertion. The scissors are subsequently removed from the sterile field.
Method And In-Surgery Spin
Once the frame is attached, the surgical team proceeds with the Smith-Robinson surgical approach. The location of the pathology is confirmed visually and through fluoroscopy. Caspar pins are carefully placed, and distraction is applied. Subsequently, an imaging scan is performed following the approach and Caspar pin distraction.
To prevent tissue desiccation and enhance image quality, the wound is irrigated and left undisturbed. Retracting the soft tissues is essential for accurate imaging. The frame is shielded with surgical drapes, and a sterile towel safeguards it during O-arm closure. Positioning the O-Arm correctly, the green towel is removed before image acquisition commences.
Direct Referencing and Localization
To maintain accuracy, precautions must be taken when removing the protective drape due to the frame’s vulnerability to unintended movement. It is recommended to verify instrument positioning by aligning it with referenced images using a probe on a bony landmark.
If accuracy declines, alternatives include re-registering the system, employing fluoroscopy, or opting for a free-hand technique. Once the imaging scan is completed, the microscope is introduced into the field and remains present throughout the case. Discectomy is performed at both the cranial and caudal levels to aid in subsequent corpectomy.
Screens display images of instruments and the targeted area for the surgeon’s monitoring, while the StealthStation monitor offers supplementary views and trajectory projections managed by the O-arm operator. The corpectomy commences at a designated point, typically the mid-portion of the vertebral body, using a burr. The remaining course of the procedure is determined based on the surgeon’s preference.
Limitations
Although intraoperative stereotactic navigation may not be indispensable or cost-effective for routine procedures, it can offer significant value and dependability for patients with intricate anatomy, severe pathology, or worrisome characteristics.
It is essential to avoid excessive confidence or complacency when utilizing navigation assistance, and regular accuracy checks should be conducted throughout the case. The cervical spine’s flexibility makes it vulnerable to even minor movements that can result in accuracy loss, highlighting the need for verification through anatomical landmarks or fluoroscopy.
The potential drawbacks of this technique, including increased operative time, a learning curve, and disruptions to workflow, should be taken into consideration. However, with an increase in the number of cases and adaptability, these disadvantages can be overcome, as is typical with the introduction of any new technology.
The use of navigation-assisted spine surgery is a developing technology that provides valuable support in a range of spine procedures. This guide is designed to enhance the precision and efficiency of complex anterior cervical spinal surgery. The described technique has been demonstrated to be trustworthy and successful, empowering cervical spine surgeons to undertake more intricate or minimally invasive procedures with heightened levels of safety and accuracy.
Do you have more questions?
How does stereotactic intraoperative imaging work?
Stereotactic intraoperative imaging provides real-time, three-dimensional images during surgery, helping surgeons navigate complex anatomical structures and place instruments accurately.
What conditions might necessitate the use of stereotactic navigation in spine surgery?
Conditions include spinal deformities, trauma, revision surgeries, morbid obesity, and ossification of the posterior longitudinal ligament, where typical anatomical landmarks may be altered.
Why is a thorough understanding of surgical anatomy still important if using stereotactic imaging?
While imaging aids precision, a surgeonās knowledge of anatomy is crucial for interpreting images accurately and making informed decisions during surgery, ensuring patient safety.
How does intraoperative imaging enhance surgical outcomes?
It improves accuracy in instrument placement, reduces the likelihood of complications, and assists in complex procedures by providing detailed anatomical visuals.
What is the O-arm and how is it used in surgery?
The O-arm is a surgical imaging system that provides multi-dimensional images, facilitating precise instrument placement and minimizing radiation exposure during spine surgeries.
What are Caspar pins and their role in surgery?
Caspar pins are used to distract and stabilize the vertebrae during cervical spine surgery, creating space for the surgeon to work on the affected area.
How does the Mayfield 360 head holder assist in surgery?
It secures the patientās head in a neutral position, preventing movement and providing a stable platform for precise surgical interventions.
What precautions are taken to maintain sterility during surgery?
The surgical team uses sterile drapes, covers non-sterile posts with transparent plastic, and ensures instruments are sterile. Any breaches in sterility are promptly addressed.
What happens if the navigation system loses accuracy during surgery?
If accuracy declines, the system can be re-registered, fluoroscopy can be used, or the surgeon may proceed with a free-hand technique, always cross-referencing anatomical landmarks.
Why might navigation-assisted spine surgery not be cost-effective for routine procedures?
Routine procedures may not require the advanced imaging and precision that navigation systems provide, making their use less economically justified compared to complex cases.
How does stereotactic imaging minimize radiation exposure for surgeons?
The technology allows for precise instrument placement with fewer repeated imaging scans, thus reducing overall radiation exposure during the procedure.
What is the learning curve associated with navigation-assisted spine surgery?
Surgeons must become proficient with the technology, which may initially increase operative time and require adjustments in workflow until they are familiar with the system.
How does the use of a microscope during surgery benefit the procedure?
A microscope provides magnification and illumination, enhancing the surgeonās ability to see fine details and perform precise surgical actions.
What is the Smith-Robinson surgical approach?
It is a standard technique for anterior cervical spine surgery, involving an incision in the neck to access the cervical vertebrae and perform the necessary surgical intervention.
What are the potential drawbacks of using intraoperative navigation technology?
Drawbacks include increased operative time, a learning curve for surgeons, potential disruptions to workflow, and initial higher costs.
How can surgeons verify instrument positioning during surgery?
Surgeons can align instruments with referenced images using a probe on a bony landmark and perform regular accuracy checks throughout the procedure.
What measures are taken to ensure accurate alignment of instruments and frames?
Instruments and frames are registered to the navigation system before attachment, and any interference is minimized to maintain tracking accuracy.
What are reflective spheres, and how are they used in surgery?
Reflective spheres are attached to surgical instruments, allowing for optical tracking by the navigation system, ensuring accurate instrument placement.
What role does the StealthStation play in surgery?
The StealthStation is a navigation system providing real-time tracking and imaging, aiding in precise surgical instrument placement and trajectory projection.
Why is it essential to maintain a neutral neck position during surgery?
A neutral neck position prevents additional strain or injury to the cervical spine and ensures optimal access and visibility for the surgeon.
Can stereotactic intraoperative imaging replace traditional surgical methods?
No, it complements traditional methods but does not replace the need for a surgeonās expertise and thorough knowledge of anatomy.
What advancements have been made in computer-assisted navigation since its inception?
Advancements include the transition from frame-based stereotaxis to frameless registration and the development of intraoperative imaging systems like the O-arm.
How does real-time imaging during surgery help in dealing with complex anatomy?
Real-time imaging provides detailed views of anatomical structures, helping surgeons navigate and operate with greater precision in challenging cases.
I am Vedant Vaksha, Fellowship trained Spine, Sports and Arthroscopic Surgeon at Complete Orthopedics. I take care of patients with ailments of the neck, back, shoulder, knee, elbow and ankle. I personally approve this content and have written most of it myself.
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