Kinematics of the ACL‐deficient canine knee during gait: Serial changes over two years

Tashman, Scott; Anderst, William; Kolowich, Patricia A.; Havstad, Suzanne; Arnoczky, Steven P.

doi:10.1016/j.orthres.2004.01.008

Cited by 161 publications

(218 citation statements)

References 22 publications

(6 reference statements)

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“…In another kinematic report, CTT increased from 0.4 mm to 10.1 mm after the CCL was severed. 150 This CTT remained uncontrolled throughout the 2 year study. Additional changes noted after CCL severance were increased stifle flexion (which improved with time), increased stifle adduction, and a small amount of increased medial translation.…”

Section: 41136mentioning

confidence: 93%

Effect of 9 mm Tibial Tuberosity Advancement on Cranial Tibial Translation in the Canine Cranial Cruciate Ligament‐Deficient Stifle

et al. 2007

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Objective-To assess the effect of 9 mm tibial tuberosity advancement (TTA) on cranial tibial translation (CTT) in cranial cruciate ligament (CCL) deficient canine stifles.Study Design-In vitro cadaveric study. Animals-Twelve canine pelvic limbs.Methods-Each stifle was placed in a jig at 135° with a simulated quadriceps force and tibial axial force, and the distance of CTT was measured with the CCL intact (iCCL), transected (tCCL), and after performing a TTA using a 9 mm cage. In addition, a material testing machine was used to assess the force required to elicit CTT in each scenario.Results-The mean CTT for iCCL was 0.42 mm, 1.58 mm after severing the CCL, and 1.06 mm post TTA. The tCCL CTT measured without any quadriceps force was 2.59 mm. Differences between the intact and tCCL (p<0.0001) and tCCL and TTA (p=0.0003) were significant. The difference between the tCCL with and without the quadriceps force was not significant (p=0.0597). The force required to cause CTT was greater in the TTA than the tCCL up to 6mm (p<0.0001). As axial load increased, the force required to advance the tibia increased in both treatment groups (p value for overall weight effect =0.0002). Conclusions-

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Section: 41136mentioning

confidence: 93%

Effect of 9 mm Tibial Tuberosity Advancement on Cranial Tibial Translation in the Canine Cranial Cruciate Ligament‐Deficient Stifle

et al. 2007

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“…To determine the anatomical positions of the markers, two orthogonal radiographs are obtained simultaneously. This tridimensional technique has a precision of 0.1 mm [20] and is not influenced by skin movement artifacts [21]. It is however invasive.…”

Section: Introductionmentioning

confidence: 99%

Objective measurements of static anterior and rotational knee laxity

Mouton

Theisen

Seil

2016

Curr Rev Musculoskelet Med

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Several devices allow to measure anterior and rotational static knee laxity. To date, the use of rotational laxity measurements in the daily clinical practice however remains to be improved. These measurements may be systematically integrated to the follow-up of knee injuries. Physiologic laxity measurements may particularly be of interest for the identification of risk factors in athletes. Furthermore, knee laxity measurements help to improve the diagnosis of knee soft tissue injuries and to follow up reconstructions. Further prospective follow-ups of knee laxity in the injured/reconstructed knees are however required to conclude on the best treatment strategy for knee soft tissue injuries.

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“…The kinematic data of slow cruciate hounds were measured and the results were compared with those of joints and ligaments Injury-related factors, the establishment of a ligament injury and the relationship between the kinematics. Tokuda et al [11] proposed a method to estimate fragile footholds using the foot's center of force and pressure changes. Although their quadruped robot could detect when a foothold was collapsing, they did not propose how to make the robot walk on fragile terrain without stumbling.…”

Section: Introductionmentioning

confidence: 99%

Development of agricultural bionic mechanisms: investigation of the effect of joint angle and pressure on the stability of goats moving on sloping lands

Zhang

Li-min

Wang

et al. 2018

International Journal of Agricultural and Biological Engineering

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Abstract:The use of small-scale agricultural machinery becomes prevalent as it provides the stability of agricultural machinery research ideas. To lay the theoretical foundation for the research and design of agriculture walking mechanism, the Phantom Camera Control software was used to measure the anterior and posterior joint angle of a goat walking on different slopes. Foot pressure was measured by the film pressure sensor. The result of joint motion sequence, range of motion, and change of range showed that the fitting degree of the measured value was accurate. As the goat walking speed increased, the level of the hind limb angle changed to ensure itself stability. When the goat is walking, the forelimbs bear more weight than the hind limbs due to the different static and physiological structures of the front and rear legs. The key parameters of gait on different slopes were analyzed. The curve of angle change of legs was measured and analyzed when the goat is walking in slope. The results showed that, with the increase of the slope gradient, the anterior hip angle ranges from 83.3° to 117.1°, the posterior hip angle ranges at 120.3°-173.1°, the left knee angle ranges from 91.3° to 170.1°, the right knee angle is roughly the same as its range of variation. When the slope increased, the pressure change of left hind foot was consistent with that of the right anterior foot, and the pressure change of right hind foot was consistent with that of the left anterior foot. This demonstrated the theory of diagonal gait. Meanwhile, with the change of the slope, the plantar pressure of the limbs changes periodically. The research results verified the rationality of the four-legged bionic mechanism under various parameters, which can provide a theoretical basis for the design of agricultural walking mechanism to adapt different slopes in the hilly and mountainous areas.

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Kinematics of the ACL‐deficient canine knee during gait: Serial changes over two years

Cited by 161 publications

References 22 publications

Effect of 9 mm Tibial Tuberosity Advancement on Cranial Tibial Translation in the Canine Cranial Cruciate Ligament‐Deficient Stifle

Effect of 9 mm Tibial Tuberosity Advancement on Cranial Tibial Translation in the Canine Cranial Cruciate Ligament‐Deficient Stifle

Objective measurements of static anterior and rotational knee laxity

Development of agricultural bionic mechanisms: investigation of the effect of joint angle and pressure on the stability of goats moving on sloping lands

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