Page, K.; Gmelich, C.; Thakur, A.; Heyer, J.H.; Hillstrom, H.J.; Groisser, B.; Morse, K.W.; Li, D.; Cunningham, M.E.; Hresko, M.T.;
et al. 3D Surface Topographic Optical Scans Yield Highly Reliable Global Spine Range of Motion Measurements in Scoliotic and Non-Scoliotic Adolescents. Children 2022, 9, 1756.
https://doi.org/10.3390/children9111756
AMA Style
Page K, Gmelich C, Thakur A, Heyer JH, Hillstrom HJ, Groisser B, Morse KW, Li D, Cunningham ME, Hresko MT,
et al. 3D Surface Topographic Optical Scans Yield Highly Reliable Global Spine Range of Motion Measurements in Scoliotic and Non-Scoliotic Adolescents. Children. 2022; 9(11):1756.
https://doi.org/10.3390/children9111756
Chicago/Turabian Style
Page, Kira, Caroline Gmelich, Ankush Thakur, Jessica H. Heyer, Howard J. Hillstrom, Benjamin Groisser, Kyle W. Morse, Don Li, Matthew E. Cunningham, M. Timothy Hresko,
and et al. 2022. "3D Surface Topographic Optical Scans Yield Highly Reliable Global Spine Range of Motion Measurements in Scoliotic and Non-Scoliotic Adolescents" Children 9, no. 11: 1756.
https://doi.org/10.3390/children9111756
APA Style
Page, K., Gmelich, C., Thakur, A., Heyer, J. H., Hillstrom, H. J., Groisser, B., Morse, K. W., Li, D., Cunningham, M. E., Hresko, M. T., & Widmann, R. F.
(2022). 3D Surface Topographic Optical Scans Yield Highly Reliable Global Spine Range of Motion Measurements in Scoliotic and Non-Scoliotic Adolescents. Children, 9(11), 1756.
https://doi.org/10.3390/children9111756
