1. Judex, S., Boyd, S., Qin, Y-X, Miller, L., Müller, R., Rubin, C. (2003) Combining high-resolution microct with material composition to define the quality of bone tissue. Current Osteoporosis Reports 1(1). 11-19.
  2. Judex, S., Garman, R.A., Squire, M.E., Donahue, L.R., Rubin, C.T. (2004) Genetically based influences on the site-specific regulation of trabecular and cortical bone morphology. Journal of Bone and Mineral Research 19(4), 600-606.
  3. Judex, S., Garman, R.A., Squire, M.E., Busa, B., Donahue, L.R., Rubin, C.T. (2004) Genetically linked site-specificity of disuse osteoporosis. Journal of Bone and Mineral Research 19(4), 607-613.c
  4. Squire, M., Donahue, L.R., Rubin, C.T., Judex, S. (2004) Genetic variations that regulate bone morphology in the male skeleton do not influence its susceptibility to mechanical unloading. Bone 35(6), 1353-1360.
  5. Judex, S., Lei, X., Han, D., Rubin, C. (2007) Low-magnitude mechanical signals that stimulate bone formation in the ovariectomized rat are dependent on the applied frequency but not on the strain magnitude. Journal of Biomechanics 40, 1333-1339.
  6. Miller, L.M, Little, W.B., Schirmer, A., Busa, B., Judex, S. (2007) Accretion of bone quantity and quality in the developing mouse skeleton. Journal of Bone and Mineral Research 22(7), 1037-1045.
  7. Garman, R., Rubin, C., Judex, S. (2007) Small oscillatory accelerations, independent of matrix deformations, increase osteoblast activity and enhance bone morphology. PLoS ONE 2(7), e653. doi:10.1371/journal.pone.0000653.
  8. Ozcivici, E., Garman, R., Judex, S. (2007) High-frequency oscillatory motions enhance the simulated mechanical properties of non-weight bearing trabecular bone. Journal of Biomechanics 40(15), 3404-3011.
  9. Karlson, K.J., Judex. S. (2007) Increased non-linear locomotion alters diaphyseal bone shape. The Journal of Experimental Biology 210, 3117-3125.
  10. Lublinsky, S., Ozcivici, E., Judex. S. (2007) An automated algorithm to detect the trabecular-cortical bone interface in microCT images. Calcified Tissue International 81(4), 285-293.
  11. Rubin, C.T., Capilla, E., Luu, Y.K., Busa, B., Crawford, H., Nolan, D.J., Mittal, V., Rosen, C., Pessin, J.E., Judex, S. (2007) Adipogenesis is inhibited by brief, daily exposure to high-frequency, extremely low-magnitude mechanical signals. Proceedings of the National Academy of Sciences 104(45), 17879-17884.
  12. Squire, M., Brazin, A., Keng, Y., Judex, S. (2008) The influence of baseline bone morphometry on the gender- and site-specific dependency of disuse osteopenia. Bone 42(2):341-349.
  13. Xie, L., Rubin, C., Judex, S. (2008) Enhancement of the adolescent murine musculoskeletal system using low-level mechanical vibrations. Journal of Applied Physiology 104(4):1056-62.
  14. Luu, Y.K., Lublinsky, S., Ozcivici, E., Capilla, E., Pessin, J.E., Rubin, C.T., Judex, S. (in press) In vivo quantification of subcutaneous and visceral adiposity by micro computed tomography in a small animal model. Medical Engineering and Physics.
  15. Carlson, K.J., Lublinsky, S., Judex, S. (in press) Do different locomotor modes during growth modulate trabecular architecture in the murine hind limb? Integrative and Comparative Biology.
  16. Hwang, S.J., Lublinsky, S., Seo, Y.K., Kim, I.S., Judex, S. (in press) Extremely small-magnitude accelerations enhance bone regeneration. Clinical Orthopaedics and Related Research.
  17. Lublinsky, S., Luu, Y.K., Rubin, C., Judex, S. (in press) An automated algorithm to separate visceral from subcutaneous fat in micro computed tomographies. Journal of Digital Imaging.
  18. Luu, Y.K., Capilla, E., Pessin, J.E., Rosen, C.J., Judex, S., Rubin, C.T. (in press) Suppression of dietary induced obesity by low mechanical signals is paralleled by an increase in bone formation and mesenchymal stem cell proliferation. Journal of Bone and Mineral Research.