2001 |
Fritton SP, Rubin CT. Dense bone tissue as a molecular composite. In: Cowin SC, ed. Bone Mechanics Handbook. 2nd ed. Boca Raton, FL: CRC Press; 2001:8-1–8-41. |
1 |
1 |
1990 |
Rubin CT, McLeod KJ. Biologic modulation of mechanical influences in bone remodeling. In: Mow VC, Ratcliffe A, Woo SL-Y, eds. Biomechanics of Diarthrodial Joints. Vol 2. New York, NY: Springer-Verlag; 1990:97-118. |
7 |
5 |
1994 |
Guilak F, Donahue HJ, Zell RA, Grande D, McLeod KJ, Rubin CT. Deformation-induced calcium signaling in articular chondrocytes. In: Mow VC, Tran-Son-Tay R, Guilak F, Hochmuth RM, eds. Cell Mechanics and Cellular Engineering. Symposium on Cell Mechanics and Cellular Engineering; July 10-15, 1994. New York, NY: Springer-Verlag; 1994:380-397. |
15 |
10 |
1997 |
Fritton JC, Rubin CT, Qin Y-X, McLeod KJ. Whole-body vibration in the skeleton: development of a resonance-based testing device. Ann Biomed Eng. September–October 1997;25(5):831-839. |
17 |
7 |
2002 |
Qin Y-X, Lin W, Rubin C. The pathway of bone fluid flow as defined by in vivo intramedullary pressure and streaming potential measurements. Ann Biomed Eng. May 2002;30(5):693-702. |
25 |
21 |
2003 |
Judex S, Boyd S, Qin Y-X, Turner S, Ye K, Müller R, Rubin C. Adaptations of trabecular bone to low magnitude vibrations result in more uniform stress and strain under load. Ann Biomed Eng. January 2003;31(1):12-20. |
26 |
12 |
2002 |
Rubin C, Turner AS, Mallinckrodt C, Jerome C, Mcleod K, Bain S. Mechanical strain, induced noninvasively in the high-frequency domain, is anabolic to cancellous bone, but not cortical bone. Bone. March 2002;30(3):445-452. |
43 |
33 |
2006 |
Xie L, Jacobson JM, Choi ES, Busa B, Donahue LR, Miller LM, Rubin CT, Judex S. Low-level mechanical vibrations can influence bone resorption and bone formation in the growing skeleton. Bone. November 2006;39(5):1059-1066. |
33 |
20 |
2021 |
Pagnotti GM, Thompson WR, Guise TA, Rubin CT. Suppression of cancer-associated bone loss through dynamic mechanical loading. Bone. September 2021;150:115998. |
0 |
0 |
1984 |
Rubin CT. Skeletal strain and the functional significance of bone architecture. Calcif Tiss Int. March 1984;36(suppl 1):S11-S18. |
74 |
67 |
1985 |
Rubin CT, Lanyon LE. Regulation of bone mass by mechanical strain magnitude. Calcif Tiss Int. 1985;37(4):411-417. |
271 |
218 |
1986 |
Lanyon LE, Rubin CT, Baust G. Modulation of bone loss during calcium insufficiency by controlled dynamic loading. Calcif Tiss Int. July 1986;38(4):209-216. |
23 |
12 |
1992 |
Rubin CT, Bain SD, McLeod KJ. Suppression of the osteogenic response in the aging skeleton. Calcif Tiss Int. April 1992;50(4):306-313. |
50 |
46 |
2005 |
Busa B, Miller LM, Rubin CT, Qin Y-X, Judex S. Rapid establishment of chemical and mechanical properties during lamellar bone formation. Calcif Tiss Int. December 2005;77(6):386-394. |
25 |
18 |
1994 |
Rubin CT, McLeod KJ. Promotion of bony ingrowth by frequency-specific, low-amplitude mechanical strain. Clin Orthop Relat Res. January 1994;298:165-174. |
55 |
43 |
2003 |
Judex S, Boyd S, Qin Y-X, Miller L, Müller R, Rubin C. Combining high-resolution micro-computed tomography with material composition to define the quality of bone tissue. Curr Osteoporos Rep. June 2003;1(1):11-19. |
31 |
16 |
1989 |
Jones BH, Harris JM, Vinh TN, Rubin C. Exercise-induced stress fractures and stress reactions of bone: epidemiology, etiology, and classification. Exerc Sport Sci Rev. January 1989;17(1):379-422. |
35 |
32 |
2001 |
Rubin C, Xu G, Judex S. The anabolic activity of bone tissue, suppressed by disuse, is normalized by brief exposure to extremely low‐magnitude mechanical stimuli. FASEB J. October 2001;15(12):2225-2229. |
40 |
20 |
2002 |
Judex S, Donahue L, Rubin C. Genetic predisposition to low bone mass is paralleled by an enhanced sensitivity to signals anabolic to the skeleton. FASEB J. August 2002;16(10):1280-1282. |
36 |
16 |
2006 |
Rubin J, Rubin C, Jacobs CR. Molecular pathways mediating mechanical signaling in bone. Gene. February 15, 2006;367:1-16. |
42 |
35 |
2012 |
Thompson WR, Rubin CT, Rubin J. Mechanical regulation of signaling pathways in bone. Gene. July 25, 2012;503(2):179-193. |
32 |
28 |
1984 |
Lanyon LE, Rubin CT. Static vs dynamic loads as an influence on bone remodelling. J Biomech. 1984;17(12):897-905. |
167 |
144 |
1990 |
Rubin CT, McLeod KJ, Bain SD. Functional strains and cortical bone adaptation: epigenetic assurance of skeletal integrity. J Biomech. 1990;23(suppl 1):43-54. |
35 |
31 |
1990 |
Brown TD, Pedersen DR, Gray ML, Brand RA, Rubin CT. Toward an identification of mechanical parameters initiating periosteal remodeling: a combined experimental and analytic approach. J Biomech. 1990;23(9):893-905. |
47 |
33 |
1992 |
Gross TS, McLeod KJ, Rubin CT. Characterizing bone strain distributions in vivo using three triple rosette strain gages. J Biomech. September 1992;25(9):1081-1087. |
53 |
44 |
1997 |
Adams DJ, Spirt AA, Brown TD, Fritton SP, Rubin CT, Brand RA. Testing the daily stress stimulus theory of bone adaptation with natural and experimentally controlled strain histories. J Biomech. July 1997;30(7):671-678. |
25 |
16 |
2000 |
Fritton SP, McLeod KJ, Rubin CT. Quantifying the strain history of bone: spatial uniformity and self-similarity of low-magnitude strains. J Biomech. March 2000;33(3):317-325. |
84 |
64 |
2003 |
Qin Y-X, Kaplan T, Saldanha A, Rubin C. Fluid pressure gradients, arising from oscillations in intramedullary pressure, is correlated with the formation of bone and inhibition of intracortical porosity. J Biomech. October 2003;36(10):1427-1437. |
48 |
36 |
2005 |
Mittra E, Rubin C, Qin Y-X. Interrelationship of trabecular mechanical and microstructural properties in sheep trabecular bone. J Biomech. June 2005;38(6):1229-1237. |
34 |
33 |
2007 |
Judex S, Lei X, Han D, Rubin C. Low-magnitude mechanical signals that stimulate bone formation in the ovariectomized rat are dependent on the applied frequency but not on the strain magnitude. J Biomech. 2007;40(6):1333-1339. |
31 |
21 |
2008 |
Mittra E, Rubin C, Gruber B, Qin Y-X. Evaluation of trabecular mechanical and microstructural properties in human calcaneal bone of advanced age using mechanical testing, μCT, and DXA. J Biomech. 2008;41(2):368-375. |
13 |
12 |
2011 |
Sen B, Xie Z, Case N, Styner M, Rubin CT, Rubin J. Mechanical signal influence on mesenchymal stem cell fate is enhanced by incorporation of refractory periods into the loading regimen. J Biomech. February 24, 2011;44(4):593-599. |
14 |
7 |
1984 |
Rubin CT, Lanyon LE. Regulation of bone formation by applied dynamic loads. J Bone Joint Surg. March 1984;66A(3):397-402. |
307 |
254 |
1996 |
Rubin C, Gross T, Qin Y-X, Fritton S, Guilak F, McLeod K. Differentiation of the bone-tissue remodeling response to axial and torsional loading in the turkey ulna. J Bone Joint Surg. October 1996;78A(11):1665-1676. |
15 |
13 |
1995 |
Rubin CT, Gross TS, McLeod KJ, Bain SD. Morphologie stages in lamellar bone formation stimulated by a potent mechanical stimulus. J Bone Miner Res. March 1995;10(3):488-495. |
30 |
21 |
1995 |
Donahue HJ, McLeod KJ, Rubin CT, Andersen J, Grine EA, Hertzberg EL, Brink PR. Cell-to-cell communication in osteoblastic networks: cell line–dependent hormonal regulation of gap junction function. J Bone Miner Res. June 1995;10(6):881-889. |
23 |
19 |
1997 |
Gross TS, Edwards JL, Mcleod KJ, Rubin CT. Strain gradients correlate with sites of periosteal bone formation. J Bone Miner Res. June 1997;12(6):982-988. |
59 |
51 |
2002 |
Rubin C, Turner AS, Müller R, Mittra E, McLeod K, Lin W, Qin Y. Quantity and quality of trabecular bone in the femur are enhanced by a strongly anabolic, noninvasive mechanical intervention. J Bone Miner Res. February 2002;17(2):349-357. |
57 |
37 |
2004 |
Rubin C, Recker R, Cullen D, Ryaby J, McCabe J, McLeod K. Prevention of postmenopausal bone loss by a low‐magnitude, high‐frequency mechanical stimuli: a clinical trial assessing compliance, efficacy, and safety. J Bone Miner Res. March 2004;19(3):343-351. |
53 |
38 |
2004 |
Ward K, Alsop C, Caulton J, Rubin C, Adams J, Mughal Z. Low magnitude mechanical loading is osteogenic in children with disabling conditions. J Bone Miner Res. March 2004;19(3):360-369. |
36 |
23 |
2004 |
Judex S, Garman R, Squire M, Donahue L, Rubin C. Genetically based influences on the site‐specific regulation of trabecular and cortical bone morphology. J Bone Miner Res. April 2004;19(4):600-606. |
34 |
20 |
2004 |
Judex S, Garman R, Squire M, Busa B, Donahue L-R, Rubin C. Genetically linked site-specificity of disuse osteoporosis. J Bone Miner Res. April 2004;19(4):607-613. |
33 |
26 |
2006 |
Gilsanz V, Wren TAL, Sanchez M, Dorey F, Judex S, Rubin C. Low‐level, high‐frequency mechanical signals enhance musculoskeletal development of young women with low bmd. J Bone Miner Res. September 2006;21(9):1464-1474. |
29 |
16 |
2009 |
Luu YK, Capilla E, Rosen CJ, Gilsanz V, Pessin JE, Judex S, Rubin CT. Mechanical stimulation of mesenchymal stem cell proliferation and differentiation promotes osteogenesis while preventing dietary-induced obesity. J Bone Miner Res. January 2009;24(1):50-61. |
25 |
10 |
1982 |
Rubin CT, Lanyon LE. Limb mechanics as a function of speed and gait: a study of functional strains in the radius and tibia of horse and dog. J Exp Biol. December 1982;101:187-211. |
136 |
118 |
1987 |
Rubin CT, Lanyon LE. Osteoregulatory nature of mechanical stimuli: function as a determinant for adaptive remodeling in bone. J Orthop Res. 1987;5(2):300-310. |
113 |
96 |
1995 |
Gross TS, Rubin CT. Uniformity of resorptive bone loss induced by disuse. J Orthop Res. September 1995;13(5):708-714. |
14 |
8 |
1998 |
Qin Y, Rubin CT, McLeod KJ. Nonlinear dependence of loading intensity and cycle number in the maintenance of bone mass and morphology. J Orthop Res. July 1998;16(4):482-489. |
50 |
28 |
1999 |
Guilak F, Zell RA, Erickson GR, Grande DA, Rubin CT, McLeod KJ, Donahue HJ. Mechanically induced calcium waves in articular chondrocytes are inhibited by gadolinium and amiloride. J Orthop Res. May 1999;17(3):421-429. |
26 |
20 |
2007 |
Garman R, Gaudette G, Donahue L-R, Rubin C, Judex S. Low-level accelerations applied in the absence of weight bearing can enhance trabecular bone formation. J Orthop Res. June 2007;25(6):732-740. |
18 |
11 |
1984 |
Rubin CT, Lanyon LE. Dynamic strain similarity in vertebrates: an alternative to allometric limb bone scaling. J Theo Biol. March 21, 1984;107(2):321-327. |
93 |
67 |
2010 |
Ozcivici E, Luu YK, Adler B, Qin Y-X, Rubin J, Judex S, Rubin CT. Mechanical signals as anabolic agents in bone. Nat Rev Rheumatol. January 2010;6(1):50-59. |
34 |
25 |
2001 |
Rubin C, Turner AS, Bain S, Mallinckrodt C, McLeod K. Low mechanical signals strengthen long bones. Nature. August 9, 2001;412(6847):603-604. |
75 |
53 |
1990 |
Bain SD, Impeduglia TM, Rubin CT. Cement line staining in undecalcified thin sections of cortical bone. Stain Tech. 1990;65(4):159-163. |
8 |
5 |