RT Journal Article SR Electronic T1 Biomechanical Assessment of a Novel Sharp-Tipped Screw for 1-Step Minimally Invasive Pedicle Screw Placement Under Navigation JF International Journal of Spine Surgery JO Int J Spine Surg FD International Society for the Advancement of Spine Surgery SP 484 OP 491 DO 10.14444/8470 VO 17 IS 4 A1 de Andrada Pereira, Bernardo A1 O’Neill, Luke K. A1 Sawa, Anna G.U. A1 Zhou, James J. A1 Wangsawatwong, Piyanat A1 Lehrman, Jennifer N. A1 Godzik, Jakub A1 Oldham, Alton J. A1 Turner, Jay D. A1 Kelly, Brian P. A1 Uribe, Juan S. YR 2023 UL https://www.ijssurgery.com/content/17/4/484.abstract AB Background The objective of this study was to assess the pullout force of a novel sharp-tipped screw developed for single-step, minimally invasive pedicle screw placement guided by neuronavigation compared with the pullout force for traditional screws.Methods A total of 60 human cadaveric lumbar pedicles were studied. Three different screw insertion techniques were compared: (A) Jamshidi needle and Kirschner wire without tapping; (B) Jamshidi needle and Kirschner wire with tapping; and (C) sharp-tipped screw insertion. Pullout tests were performed at a displacement rate of 10 mm/min recorded at 20 Hz. Mean values of these parameters were compared using paired t tests (left vs right in the same specimen): A vs B, A vs C, and B vs C. Additionally, 3 L1-L5 spine models were used for timing each screw insertion technique for a total of 10 screw insertions for each technique. Insertion times were compared using 1-way analysis of variance.Results The mean pullout force for insertion technique A was 1462.3 (597.5) N; for technique B, it was 1693.5 (805.0) N; and for technique C, it was 1319.0 (735.7) N. There was no statistically significant difference in pullout force between techniques (P > 0.08). The average insertion time for condition C was significantly less than that for conditions A and B (P < 0.001).Conclusions The pullout force of the novel sharp-tipped screw placement technique is equivalent to that of traditional techniques. The sharp-tipped screw placement technique appears biomechanically viable and has the advantage of saving time during insertion.Clinical Relevance Single-step screw placement using high resolution 3-dimensional navigation has the potential to streamline workflow and reduce operative time.Level of Evidence 5.