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. Author manuscript; available in PMC: 2016 Jul 16.

Published in final edited form as: J Biomech. 2015 May 29;48(10):1745–1751. doi: 10.1016/j.jbiomech.2015.05.017

Table 1.

Regression coefficients for univariate linear regression models.

Variables		Loading	Model Coefficients

Dependent	Independent		^*β	t	R²	⁺p-value
Coupled Valgus Rotation	Internal tibial rotation	20 N-m of Internal Tibial Torque	0.34 (0.12–0.55)	3.31	0.39	0.004
Coupled Valgus Rotation	Lateral Tibial Slope (LTS)	20 N-m of Internal Tibial Torque	0.74 (0.26–1.22)	3.25	0.38	0.005
Coupled Valgus Rotation	Medial Tibial Slope (MTS)	20 N-m of Internal Tibial Torque	1.29 (0.69–1.88)	4.55	0.55	<0.001
Coupled Valgus Rotation	Medial Tibial Depth (MTD)	20 N-m of Internal Tibial Torque	−2.24 (−3.91 – −0.58)	−2.85	0.32	0.011
Coupled Internal Tibial Rotation	Valgus Rotation	50 N-m of Knee Valgus Torque	0.02 (−0.36 – 0.40)	0.11	0.00	0.917
Coupled Internal Tibial Rotation	Lateral Tibial Slope (LTS)	50 N-m of Knee Valgus Torque	0.03 (−0.33 – 0.39)	0.19	0.00	0.854
Coupled Internal Tibial Rotation	Medial Tibial Slope (MTS)	50 N-m of Knee Valgus Torque	0.05 (−0.47 – 0.58)	0.21	0.00	0.839
Coupled Internal Tibial Rotation	Medial Tibial Depth (MTD)	50 N-m of Knee Valgus Torque	−0.25 (−1.43 – 0.94)	−0.43	0.01	0.670

^*

Slope (95% confidence intervals).

⁺

Significant correlations are presented in bold.