Navigation and Robotic-Assisted Single-Position Prone Lateral: Technique, Feasibility, Safety, and Case Series


Background:

Single-position prone lateral interbody fusion is a recently introduced technical modification of the minimally invasive retroperitoneal transpsoas approach for lateral lumbar interbody fusion (LLIF). Several technical descriptions of single-position prone LLIF have been published with traditional fluoroscopy for guidance. However, there has been no investigation of either 3-D CT-based navigation for prone LLIF or integration with robotic assistance platforms with the prone lateral technique. This study evaluated the feasibility and safety of spinal navigation and robotic assistance for single-position prone LLIF.


Methods:

Retrospective review of medical records and a prospectively acquired database for a single center was performed to examine immediate and 30-day clinical and radiographic outcomes for consecutive patients undergoing single-position prone LLIF with spinal navigation and/or robotic assistance.


Results:

Nine patients were treated, 4 female and 5 male. Mean age was 65.4 years (range: 46-75 years), and body-mass index was 30.2 kg/m2 (range: 24-38 kg/m2). The most common surgical indication was adjacent segment disease (44.4%), followed by pseudoarthrosis (22.2%), spondylolisthesis (11.1%), degenerative disc disease (11.1%), and recurrent stenosis (11.1%). Postoperative approach-related complications included one patient (11.1%) with pain-limited bilateral hip flexor weakness (4/5) and pain-limited left knee extension weakness (4/5) and one patient (11.1%) with right lateral thigh numbness and dysesthesia. All cages were placed within quarters 2-3, signifying the middle portion of the disc space. There were no instances of misguidance by navigation.


Conclusion:

Integration of spinal navigation and robotic assistance appears feasible, accurate, and safe as an alternative to fluoroscopic guidance for single-position LLIF.


Keywords:

Case series; Lateral lumbar interbody fusion; Robotic assistance; Single-position prone LLIF; Spinal navigation; Three-dimensional computed tomography.

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