Hip, knee, and ankle kinematics of high range of motion activities of daily living

Hemmerich, Andrea; Brown, Heather E.; Smith, Samuel O.; Marthandam, S. S. K; Wyss, Urs P.

doi:10.1002/jor.20114

Cited by 239 publications

(167 citation statements)

References 33 publications

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“…Although some studies have examined joint motion in kneeling activity (Mulholland and Wyss, 2001), there have been few studies which have assessed kinematics of the knee, hip, and ankle joints simultaneously, and even fewer studies looking at the kinematics of kneeling activity at these joints in the three axial planes (Hemmerich et al, 2006). To our knowledge, most studies have solely focused on kneeling activity at the knee joint (Ahlberg et al, 1988;Baltzopoulos, 1995;Hefzy et al, 1998;Nakagawa et al, 2000;Kanekasu et al, 2004;Moro-Oka et al, 2008), and the kinematics of knee having total knee arthroplasty (Coughlin et al, 2007;Hamai et al, 2008;Nakamura et al, 2010).…”

Section: Introductionmentioning

confidence: 99%

Kinematics of hip, knee, ankle of the young and elderly Chinese people during kneeling activity

Zhou

Wang

Liu

et al. 2012

J. Zhejiang Univ. Sci. B

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Abstract:Objective: The purpose of this study was to measure the kinematics of the lower limbs of Chinese people during normal kneeling activity, as such data could be valuable in designing joint prosthesis and arthroplasty that meet the needs of Chinese citizens' daily activities. Methods: Thirty young and twenty elderly Chinese participants with no personal history of joint diseases were recruited, and matched by age (average age: 23.8 years for the young group, 60.8 years for the elderly group). Each participant performed six trials during which three-dimensional (3D) kinematics data were collected and the means of the 3D angles of the ankle, knee, and hip joints of two groups were calculated. Results: There were no obvious differences between the two groups in the knee and ankle joints. The mean range of knee flexion was 139.6° for the young group and 140.9° for the elderly group. The mean range of ankle flexion was 35.7° for the young group and 37.6° for the elderly group. The maximal eccentric flexion at the hip joint was 67.5° for the young group compared to 100.5° for the elderly group. Conclusions: The elderly uses more hip flexion angles than the young when assuming the kneeling posture. The ranges of motion obtained during kneeling activity are greater than the reported mean ranges of motion achieved following joint arthroplasty. The data could be valuable in establishing criteria for lower limb prosthetics and rehabilitation protocol for the Chinese population.

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Section: Introductionmentioning

confidence: 99%

Kinematics of hip, knee, ankle of the young and elderly Chinese people during kneeling activity

Zhou

Wang

Liu

et al. 2012

J. Zhejiang Univ. Sci. B

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“…[27][28][29] The provision of varus-valgus rotation at the ankle was indicated in a study of crouching in high flexion. 23 The reduced forces in our tests represent about 20% of actual forces, based on in vivo data from an instrumented TKR. 30 High flexion activities are performed less frequently than walking and with the most difficulty, but are important to many patients.…”

Section: Discussionmentioning

confidence: 95%

“…The distal tibia was hinged at the ankle joint, but the ankle was attached to the machine's frame by flexible polyurethane blocks to allow for a few degrees of varus-valgus rotations as in everyday activities. 23 The hip joint was simulated with a spherical bearing attached to a plate that was allowed to slide vertically along a smooth rail so the knee could flex to 135 8. The total vertical force at the hip was 73.4N.…”

Section: Methodsmentioning

confidence: 99%

Total knees designed for normal kinematics evaluated in an up‐and‐down crouching machine

Yildirim

Walker

Boyer

2009

Journal Orthopaedic Research

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We constructed a crouching machine to study the motion of the knee joint, in which a motor was used to wind the quadriceps tendon so as to move the knee from high flexion to extension and back into flexion, while springs simulated hamstrings forces. Seven human cadaveric knees were tested intact and then after anterior cruciate ligament (ACL) resection. Motions of the femur, tibia, and patella were recorded by an optical tracking system. We then inserted plastic models representing commonly used total condylar and posterior stabilized knee replacement designs. Femoral motion was described by successive positions of the transverse axis of the femur projected onto the tibial surface. In the knee replacements, motions were similar to that of an ACL-deficient knee. We then tested two new designs with features intended to prevent anterior paradoxical sliding and to promote a medial pivot motion with femoral rollback primarily on the lateral side. The motion path more closely followed that of the normal intact knee. We concluded that motion guiding features in a total knee replacement could reproduce a normal neutral path that might result in functional improvements for the patient. ß

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“…Although the possible range of motion of flexion in the supine position has been stated to be 120° [14,15], there is no reported study of the hip flexion range in a sitting posture for performing functional activities. Previous kinematic studies have demonstrated that high hip flexion, i.e., 95-114°, occurs in daily activities such as sitting with legs crossed, squatting, and putting on socks, in asymptomatic subjects [16,27,28]. Thus, we selected a target bar position of 20°hip flexion from a sitting posture.…”

Section: Discussionmentioning

confidence: 99%

“…The normal angle of hip flexion is 120°in healthy people performing functional activities [14,15], and hip flexion flexibility is required to perform many daily activities, such as squatting, putting on shoes and socks, and riding a bicycle [16][17][18][19]. Since the hip joint and lumbar spine are both adjacent to the pelvis, the hip joint moves in cooperation with the lumbar spine to provide functional movement [20][21][22].…”

Section: Introductionmentioning

confidence: 99%

Lumbopelvic motion during seated hip flexion in subjects with low-back pain accompanying limited hip flexion

Kim

Cynn

et al. 2013

Eur Spine J

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Purpose Limited hip flexion may lead to a poor lumbopelvic motion during seated active hip flexion in people with low-back pain (LBP). The purpose of this study was to compare lumbopelvic motion during seated hip flexion between subjects with and without LBP accompanying limited hip flexion. Methods Fifteen patients with LBP accompanying limited hip flexion and 16 healthy subjects were recruited. The subjects performed seated hip flexion with the dominant leg three times. A three-dimensional motion-analysis system was used to measure lumbopelvic motion during seated hip flexion. Results During seated active hip flexion, the angle of hip flexion was significantly lower in patients with LBP accompanying limited hip flexion (17.4 ± 4.4 in the LBP group, 20.8 ± 2.6 in the healthy group; t = 2.63, p = 0.014). The angle of the lumbar flexion (4.8 ± 2.2 in the LBP group, 2.6 ± 2.0 in the healthy group; t = -2.96, p = 0.006) and posterior pelvic tilting (5.0 ± 2.6 in the LBP group, 2.9 ± 2.0 in the healthy group; t = 2.48 p = 0.019), however, were significantly greater in patients with this condition. Conclusions The results of this study suggest that limited hip flexion in LBP can contribute to excessive lumbar flexion and posterior pelvic tilting during hip flexion in the sitting position. Further studies are required to confirm whether improving the hip flexion range of motion can reduce excessive lumbar flexion in patients with LBP accompanying limited hip flexion.

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Hip, knee, and ankle kinematics of high range of motion activities of daily living

Cited by 239 publications

References 33 publications

Kinematics of hip, knee, ankle of the young and elderly Chinese people during kneeling activity

Kinematics of hip, knee, ankle of the young and elderly Chinese people during kneeling activity

Total knees designed for normal kinematics evaluated in an up‐and‐down crouching machine

Lumbopelvic motion during seated hip flexion in subjects with low-back pain accompanying limited hip flexion

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