Automated Spine Segmentation and Identification

Displaying 1 - 15 of 15CSV
Chan, A. K., Upadhyayula, P. S., Tang, A. J., & Chou, D. (2025). Minimally invasive transforaminal lumbar interbody fusion for scoliosis: surgical technique for focal treatment of the lumbosacral fractional curve. Journal of Spine Surgery, 11(1), 125–134. https://doi.org/10.21037/jss-24-127
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Christopher, M., Gonzalez, R., Huynh, J., Walker, E., Radha Saseendrakumar, B., Bowd, C., Belghith, A., Goldbaum, M. H., Fazio, M. A., Girkin, C. A., De Moraes, C. G., Liebmann, J. M., Weinreb, R. N., Baxter, S. L., & Zangwill, L. M. (2024). Proactive Decision Support for Glaucoma Treatment: Predicting Surgical Interventions with Clinically Available Data. Bioengineering, 11(2), 140. https://doi.org/10.3390/bioengineering11020140
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Byvaltsev, V. A., Kalinin, A. A., Shepelev, V. V., Pestryakov, Y. Y., Biryuchkov, M. Y., Jubaeva, B. A., Boddapati, V., Lehman, R. A., & Riew, K. D. (2022). The Relationship of Radiographic Parameters and Morphological Changes at Various Stages of Degeneration of the Lumbar Facet Joints: Cadaver Study. Global Spine Journal, 14(1), 195–203. https://doi.org/10.1177/21925682221099471
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Rayn, K., Gupta, V., Mulinti, S., Clark, R., Magliari, A., Chaudhari, S., Gokhroo, G., & Beriwal, S. (2023). Evaluation of a Deep Image to Image Network (DI2IN) Auto-Segmentation Algorithm across a Network of Cancer Centers. International Journal of Radiation Oncology*Biology*Physics, 117(2), e711. https://doi.org/10.1016/j.ijrobp.2023.06.2209
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Viraraghavan, G., Cahill, P. J., Vitale, M. G., Williams, B. A., & Balasubramanian, S. (2023). Automated Clustering Technique (ACT) for Early Onset Scoliosis: A preliminary report. Spine Deformity, 11(3), 723–731. https://doi.org/10.1007/s43390-022-00634-1
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Lee, N. J., Leung, E., Buchanan, I. A., Geiselmann, M., Coury, J. R., Simhon, M. E., Zuckerman, S., Buchholz, A. L., Pollina, J., Jazini, E., Haines, C., Schuler, T. C., Good, C. R., Lombardi, J., & Lehman, R. A. (2022). A multicenter study of the 5-year trends in robot-assisted spine surgery outcomes and complications. Journal of Spine Surgery, 8(1), 9–20. https://doi.org/10.21037/jss-21-102
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Lee, N. J., Buchanan, I., Zuckerman, S. L., Boddapati, V., Leung, E., Park, P., Mathew, J., Buchholz, A. L., Pollina, J., Mullin, J. P., Khan, A., Jazini, E., Haines, C. M., Schuler, T. C., Good, C. R., Lombardi, J. M., & Lehman, R. A. (2021). P17. What clinical advantage does the Mazor X have over the renaissance in robot assisted spine surgery: A multicenter propensity matched analysis of 2,671 screws and 400 patients with a 1 year minimum follow-up. The Spine Journal, 21(9), S148. https://doi.org/10.1016/j.spinee.2021.05.225
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Zuckerman, S. L., Lai, C., Shen, Y., Ha, A., Cerpa, M., Kerolus, M., Buchanan, I., Lee, N. J., Leung, E., Lehman, R. A., & Lenke, L. G. (2021). 69. The lumbosacral fractional curve vs maximum coronal Cobb angle in adult spinal deformity patients: Which matters more? The Spine Journal, 21(9), S34. https://doi.org/10.1016/j.spinee.2021.05.094
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Zuckerman, S. L., Lai, C., Shen, Y., Kerolus, M., Buchanan, I., Cerpa, M., Ha, A., Sardar, Z., Lehman, R. A., & Lenke, L. G. (2021). 191. Establishing a threshold of impairment to define coronal malalignment in adult spinal deformity patients. The Spine Journal, 21(9), S97. https://doi.org/10.1016/j.spinee.2021.05.398
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Lee, N. J., Buchanan, I., Zuckerman, S. L., Leung, E., Buchholz, A. L., Pollina, J., Jazini, E., Haines, C. M., Schuler, T. C., Khan, A., Mullin, J. P., Good, C. R., Lombardi, J. M., & Lehman, R. A. (2021). 43. The trends in robot related complications, operative efficiency, radiation exposure, and clinical outcomes after robot-assisted spine surgery: a multicenter study of 722 patients and 5,005 screws from 2015 to 2019. The Spine Journal, 21(9), S21–S22. https://doi.org/10.1016/j.spinee.2021.05.068
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Cerpa, M., Lenke, L. G., Zuckerman, S. L., Kelly, M. P., Line, B., Smith, J. S., Shaffrey, C. I., Kebaish, K. M., Klineberg, E. O., Kim, H. J., Schwab, F. J., Gupta, M. C., Protopsaltis, T. S., Passias, P. G., Daniels, A. H., Lafage, V., Lafage, R., Burton, D. C., Bess, S., & International Spine Study Group. (2021). 188. Prospective analysis of adult spinal deformity patients demonstrates radically different preop demographic, radiographic and quality of life parameters for primary vs revision patients. The Spine Journal, 21(9), S95–S96. https://doi.org/10.1016/j.spinee.2021.05.395
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Ha, A., Mathew, J., Zuckerman, S. L., Buchanan, I., Kerolus, M., Cerpa, M., Lombardi, J. M., Dyrszka, M., Sardar, Z., Lehman, R. A., & Lenke, L. G. (2021). 190. C2 pelvic angle (C2PA) is a useful radiographic parameter that correlates with clinical outcomes of symptomatic proximal junctional kyphosis. The Spine Journal, 21(9), S96–S97. https://doi.org/10.1016/j.spinee.2021.05.397
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Lee, N. J., Zuckerman, S. L., Buchanan, I., Boddapati, V., Park, P., Leung, E., Mathew, J., Buchholz, A. L., Pollina, J., Khan, A., Mullin, J. P., Jazini, E., Haines, C. M., Schuler, T. C., Good, C. R., Lombardi, J. M., & Lehman, R. A. (2021). P132. How does the Mazor X stealth edition compare with the Mazor X for robot-assisted spine surgery? A multicenter, propensity matched analysis of 2,800 screws and 372 patients. The Spine Journal, 21(9), S205–S206. https://doi.org/10.1016/j.spinee.2021.05.340
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Lee, N. J., Buchanan, I., Boddapati, V., Mathew, J., Marciano, G., Lakomkin, N., Zuckerman, S. L., Park, P., Leung, E., Lombardi, J. M., & Lehman, R. A. (2021). P16. Is there a difference in screw accuracy, robot time per screw, robot abandonment, and radiation exposure between the Mazor X and the renaissance? A propensity-matched analysis of 1,179 robot-assisted screws. The Spine Journal, 21(9), S147–S148. https://doi.org/10.1016/j.spinee.2021.05.224
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