SurgiSTUD™ Awards & Publications
Bohl M, Mooney M, Repp G, Nakaji P, Chang S, Turner J, Kakarla U. The Barrow Biomimetic Spine: Fluoroscopic analysis of a synthetic spine model of variable 3D-printed materials and print parameters. Spine (Phila Pa 1976). 2018 May 10. PMID: 29750754
Bohl M, Mooney M, Repp G, Cavallo C, Nakaji P, Chang S, Turner J, Kakarla U. The Barrow Biomimetic Spine: Comparative testing of a 3D-Printed L4-L5 Schwab grade 2 osteotomy model to a cadaveric model. Cureus. 2018.10(4): e2491. PMID: 29922532
Bohl M, Hlubek R, Mooney M, Chapple K, Preul M, Chang S, Turner J, Kakarla U. Disc geometry is an accurate predictor of lordotic correction in the thoracolumbar spine following Schwab grade-2 osteotomy: A cadaveric study and biomechanical analysis of disc space changes following lordotic correction. Oper Neurosurg (Hagerstown). 2018 Dec 13. PMID: 30544146
Bohl M, Mauria R, Zhou J, Mooney M, DiDomenico J, McBryan S, Cavallo C, Nakaji P, Chang S, Uribe J, Turner J, Kakarla U. The Barrow Biomimetic Spine: Face, content, and construct validity of a 3D-printed spine model for freehand and minimally invasive pedicle screw insertion. Global Spine J. 2019 Sep;9(6):635-641. PMID: 31448198
Bohl M, Morgan CD, Mooney MA, Repp GJ, Lehrman JN, Kelly BP, Chang SW, Turner JD, Kakarla UK. Biomechanical testing of a 3D-printed L5 vertebral body model. Cureus. 2019 Jan 15;11(1):e3893. PMID: 30911450
Bohl M, Zhou JJ, Mooney MA, Repp GJ, Cavallo C, Nakaji P, Chang SW, Turner JD,Kakarla UK. The Barrow Biomimetic Spine: Effect of a 3-dimensional–printed spinal osteotomy model on performance of spinal osteotomies by medical students and interns. J Spine Surg. 2019 Mar;5(1):58-65. PMID: 31032439
Mooney M, Cavallo C, Zhou J, Bohl M, Belykh E, Ghandi S, McBryan S, Stevens S, Lawton M, Almefty K, Nakaji P. Three-dimensional printed models for lateral skull base surgical training: Anatomy and simulation of the transtemporal approaches. Oper Neurosurg (Hagerstown). 2019 Jun 7. pii: opz120. PMID: 31172189
Bohl MA, McBryan S, Spear C, Pais Hs D, Preul MC, Wilhelmi B, Yeskel A, Turner JD, Kakarla UK, Nakaji P. Evaluation of a novel surgical skills training course: are cadavers still the gold standard for surgical skills training? World Neurosurg. 2019 Mar 28. pii: S1878-8750(19)30910-6. PMID: 30930320
Bohl M, McBryan S, Newcomb A, Lehrman J, Kelly B, Nakaji P, Chang S, Uribe J, Turner J, Kakarla U. Range of Motion Testing of a Novel 3-D Printed Synthetic Spine Model.
Bohl M, McBryan S, Kakarla U, Leveque JC, Sethi R. Utility of a Novel Biomimetic Spine Model in Surgical Education: Case Series of Three Cervicothoracic Kyphotic Deformities.
Bohl M, McBryan S, Nakaji P, Chang S, Turner J, Kakarla U. Development and First Clinical Use of a Novel Anatomical and Biomechanical Testing Platform for Scoliosis. J Spine Surg. 2019 Sep;5(3):329-336. PMID: 31663044
Bohl M, McBryan S, Pais D, Chang S, Turner J, Nakaji P, Kakarla U. The Living Spine Model: A Biomimetic Surgical Training and Education Tool. Oper Neurosurg (Hagerstown). 2019 Nov 19. pii: opz326. PMID: 31740969
Bohl MA, Kakarla UK, In Reply: The Living Spine Model: A Biomimetic Surgical Trianing and Educational Tool. Oper Neurosurg (Hagerstown). 2020 Sep 1;19(3): E332. PMID: 3251009
2018 Joint Section on Disorders of the Spine and Peripheral Nerves Presented By: Bohl M… Kakarla U. Presentation: The Barrow Biomimetic Spine: Fluoroscopic analysis of a synthetic spine model made of variable 3D-printed materials and print parameters
2019: Honorable Mention – A Novel Biomimetic Spine Model for Improving the Safety and Efficacy of Surgical Education Awarded at the 4th Annual Safety in Spine Surgery Summit