Satoshi Hakukawa scite author profile

Background For knee osteoarthritis (OA) treatment, it is important to correct the lower limb alignment including the foot. However, in the upright position, lower limb alignment is generally assessed from the body surface or radiographs, and it is a challenge to capture the exact characteristics of three-dimensional lower limb alignment. The purpose of the study was to measure lower limb alignment in patients with knee OA using upright computed tomography (CT) and radiography, and to identify features of knee joint deformity. Methods A total of 45 limbs in 25 patients with knee OA were enrolled. The subjects underwent both upright CT and radiography for the whole lower limb in the standing position. The joint angles were calculated on both images. The degree of knee OA was classified according to Kellgren-Lawrence (KL) grade by referring to radiography, which is mainly based on the degree of articular cartilage loss and severity of osteophytes, and the characteristics or correlation between knee and ankle joint in each group was investigated. Results In KL-I, there was an association between varus of the knee joint and internal rotation of the talocrural joint (r = 0.76, P < 0.05). In KL-II, there was an association between varus of the knee joint and eversion of the subtalar joint (r = 0.63, P < 0.05) and talocrural joint (r = − 0.65, P < 0.05). In KL-III, there was an association between varus of the knee joint and internal rotation of the subtalar joint (r = − 0.62, P < 0.05), and in KL-IV, there was an association between varus of the knee joint and internal rotation of the subtalar joint (r = − 0.58, P < 0.05). Conclusions The lower limb alignment of patients with knee OA in the standing position was found that as knee OA worsened, it became apparent that compensatory knee joint alignment depended on the ankle joint rather than the subtalar joint. The results may help in the rehabilitation of patients with knee OA, since the ankle joint alignment has a significant impact on the knee joint during coarse movements involving load.

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Effects of foot progression angle on kinematics and kinetics of a cutting movement

Nishizawa

Hashimoto

Hakukawa

et al. 2022

J EXP ORTOP

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Purpose Foot progression angle is a key factor for biomechanical knee load, which is associated with noncontact anterior cruciate ligament (ACL) injury during sports-specific tasks. The purpose of the present study was to assess the biomechanics of trunk, pelvis, and lower extremities during a cutting maneuver under different foot progression angles. Methods Nineteen male collegiate athletes (ages 18–24) participated in the present study. Cutting motion was analyzed using eight infrared cameras (250 Hz), two force plates (1250 Hz), and 44 reflective markers. Subjects performed 45-degree side cutting maneuvers under three foot progression angles, including 20 degrees (toe-out: TO), 0 degrees (neutral: TN), and − 20 degrees (toe-in: TI). Peak values of each biomechanical parameters in trunk, pelvis, hip, and knee within a first 40% stance phase and each parameter at the timing of the peak vertical ground reaction force were assessed. A statistical analysis was performed to compare data among the three-foot progression angles using the Friedman test. Results Peak angles of knee abduction, tibial internal rotation, hip internal rotation, and hip adduction were significantly greater for TI position than for TO position (p < 0.01). Peak moments of knee abduction and tibial internal rotation under TI position were also significantly larger than TO position (p < 0.01). Moreover, greater peak pelvis-trunk rotation was found for TI position than for TN and TO positions (p < 0.01). Conclusion From the present study, TI position could lead to an increased risk of ACL injury during a pre-planned cut maneuver, compared to TO position.

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Footsteps required for reliable and valid in-shoe plantar pressure assessment during gait per foot region in people with hallux valgus

et al. 2022

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The Assosiation Between Progression of Flat Foot and Knee Deformity in Patients With Knee Osteoarthritis -a Study With Three-Dimensional Upright Computed Tomography-

Hakukawa

Kaneda

Yamada

et al. 2022

Osteoarthritis and Cartilage

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Biomechanical Correlation Between Trunk and Foot Kinematics During Golf Swing Movement Before and After Fatigue

Hakukawa

Harato

Morita

et al. 2021

Preprint

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BackgroundKinematic chain of whole body is important during golf swing. Moreover, it was suggested that kinematics of golf swing was affected by fatigue. The purpose of the present study was to investigate the golf swing before and after fatigue of trunk muscles, and to assess the effect of the fatigue on kinematics of trunk as well as lower extremity. A total of 11 healthy adults participated in the current study. Golf swing motion in each subject was measured with a 7-iron on a grass plate using motion capture system. Three-dimensional kinematics of trunk and lower extremity on the lead side were evaluated.ResultsSagittal trunk instability was observed after fatigue. Regarding the kinematic chain, range of motion of trunk rotation (r = -0.76, p < 0.01) and knee rotation (r = 0.82, p < 0.01) were significantly correlated with the hindfoot rotation before the fatigue task. However, after the fatigue task, the hindfoot rotation was significantly correlated only with the knee rotation (r = 0.76, p <0.01). ConclusionsAs fatigue of trunk muscles will alter swing movement and kinematic chain, trunk muscle training can be one of key strategies to maintain swing performance. Trial registrationOur study was registered to UMIN (No. 000037037, date; 01/07/2019).

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