Background Recently, increasing number of literature has identified the posterior tibial slope (PTS) as one of the risk factors of primary anterior cruciate ligament (ACL) injury. However, few studies concerning t...Background Recently, increasing number of literature has identified the posterior tibial slope (PTS) as one of the risk factors of primary anterior cruciate ligament (ACL) injury. However, few studies concerning the association between failure of ACL reconstruction (ACLR) and PTS have been published. The objective of this study was to explore the association between the failure of ACLR and PTS at a minimum of two years follow-up. Methods Two hundred and thirty eight eligible patients from June 2009 to October 2010 were identified from our database. A total of 20 failure cases of ACLR and 20 randomly selected controls were included in this retrospective study. The demographic data and the results of manual maximum side-to-side difference with KT-1000 arthrometer at 30°of knee flexion and pivot-shift test before the ACLR and at the final follow-up were collected. The medial and lateral PTSs were measured using the magnetic resonance imaging (MRI) scan, based on Hudek's measurement. A comparison of PTS between the two groups was performed. Results The overall failure rate of the present study was 8.4%. Of the 40 participants, the mean medial PTS was 4.1°±3.2°and the mean lateral PTS was 4.6°±2.6°. The medial PTS of the ACLR failure group was significantly steeper than the control group (3.5°±2.5° vs. 6.1°±2.1°, P=0.000). Similarly, the lateral PTS of the ACLR failure group was significantly steeper than the control group (2.9°±2.1 °vs. 5.5°±3.0°, P=0.006). For medial PTS ≥5°, the odds ratio of ACLR failure was 6.8 (P=0.007); for lateral PTS ≥5°, the odds ratio of ACLR failure was 10.8 (P=0.000). Conclusion Both medial and lateral PTS were significantly steeper in failures of ACLR than the control group. Medial or lateral PTS ≥5° was a new risk factor of ACLR failure.展开更多
This paper proposes a laterally graded junctionless transistor taking peak doping concentration near the source and drain region, and a gradual decrease in doping concentration towards the center of the channel to imp...This paper proposes a laterally graded junctionless transistor taking peak doping concentration near the source and drain region, and a gradual decrease in doping concentration towards the center of the channel to improve the I OFF and I ON/I OFF ratio. The decrease of doping concentration in the lateral direction of the channel region depletes a greater number of charge carriers compared to the uniformly doped channel in the OFF-state,which in turn suppresses the OFF state current flowing through the device without greatly affecting the ON state current.展开更多
In this work, we studied the dimensions of stream tube in the vertical as well as inclined bank conditions. Data were collected from both a physical model and a 3-D numerical model(SSIIM 2). Equations for predicting...In this work, we studied the dimensions of stream tube in the vertical as well as inclined bank conditions. Data were collected from both a physical model and a 3-D numerical model(SSIIM 2). Equations for predicting stream tube dimensions were presented and compared with existing formulae. In comparison with vertical bank, it is found that inclining bank causes the bottom stream tube width to be greater than at the surface. The strength of secondary current formed at the entrance of branch channel is reduced. These changes in flow pattern can reduce the amount of sediment delivery into the intake.展开更多
文摘Background Recently, increasing number of literature has identified the posterior tibial slope (PTS) as one of the risk factors of primary anterior cruciate ligament (ACL) injury. However, few studies concerning the association between failure of ACL reconstruction (ACLR) and PTS have been published. The objective of this study was to explore the association between the failure of ACLR and PTS at a minimum of two years follow-up. Methods Two hundred and thirty eight eligible patients from June 2009 to October 2010 were identified from our database. A total of 20 failure cases of ACLR and 20 randomly selected controls were included in this retrospective study. The demographic data and the results of manual maximum side-to-side difference with KT-1000 arthrometer at 30°of knee flexion and pivot-shift test before the ACLR and at the final follow-up were collected. The medial and lateral PTSs were measured using the magnetic resonance imaging (MRI) scan, based on Hudek's measurement. A comparison of PTS between the two groups was performed. Results The overall failure rate of the present study was 8.4%. Of the 40 participants, the mean medial PTS was 4.1°±3.2°and the mean lateral PTS was 4.6°±2.6°. The medial PTS of the ACLR failure group was significantly steeper than the control group (3.5°±2.5° vs. 6.1°±2.1°, P=0.000). Similarly, the lateral PTS of the ACLR failure group was significantly steeper than the control group (2.9°±2.1 °vs. 5.5°±3.0°, P=0.006). For medial PTS ≥5°, the odds ratio of ACLR failure was 6.8 (P=0.007); for lateral PTS ≥5°, the odds ratio of ACLR failure was 10.8 (P=0.000). Conclusion Both medial and lateral PTS were significantly steeper in failures of ACLR than the control group. Medial or lateral PTS ≥5° was a new risk factor of ACLR failure.
文摘This paper proposes a laterally graded junctionless transistor taking peak doping concentration near the source and drain region, and a gradual decrease in doping concentration towards the center of the channel to improve the I OFF and I ON/I OFF ratio. The decrease of doping concentration in the lateral direction of the channel region depletes a greater number of charge carriers compared to the uniformly doped channel in the OFF-state,which in turn suppresses the OFF state current flowing through the device without greatly affecting the ON state current.
文摘In this work, we studied the dimensions of stream tube in the vertical as well as inclined bank conditions. Data were collected from both a physical model and a 3-D numerical model(SSIIM 2). Equations for predicting stream tube dimensions were presented and compared with existing formulae. In comparison with vertical bank, it is found that inclining bank causes the bottom stream tube width to be greater than at the surface. The strength of secondary current formed at the entrance of branch channel is reduced. These changes in flow pattern can reduce the amount of sediment delivery into the intake.
