Yuji Kuroyanagi

Ankle and Subtalar Kinematics during Dorsiflexion-Plantarflexion Activities

Background: Understanding the effect of weightbearing on subtalar and ankle joint kinematics is critical for the diagnosis and treatment of foot disorders. However, dynamic in vivo kinematics of these joints are not well studied. The purpose of this study was to compare in vivo kinematics during nonweightbearing and weightbearing activities in healthy subjects. Methods: Seven healthy subjects with a mean age of 32 (range, 23 to 42) years were enrolled. Oblique lateral fluoroscopic images of nonweightbearing and weight-bearing dorsiflexion-plantarflexion activities were recorded. Three dimensional subtalar, ankle, and ankle-subtalar joint complex kinematics were determined using 3D-2D model registration techniques with 3D bone models and single-plane fluoroscopy. Results: During the weightbearing activity from 20 degrees dorsiflexion to 15 degrees plantarflexion, the subtalar joint was significantly more everted, dorsiflexed, and abducted, and the calcaneus showed a significantly more posterior position, than during the nonweightbearing activity. The ankle joint was significantly more plantarflexed and adducted during the weightbearing activity than the nonweightbearing activity. The ankle-subtalar joint complex was significantly more everted, and the calcaneus showed significantly greater posterior position than the nonweightbearing activity. Conclusion: These observations provide basic quantitative descriptions of weightbearing and nonweightbearing kinematics for healthy joints. Clinical Relevance: These data can serve as the basis for comparison with pathologic feet for both diagnostic and therapeutic purposes.

A quantitative assessment of varus thrust in patients with medial knee osteoarthritis

Varus thrust is an abnormal lateral knee motion frequently seen in patients with medial knee osteoarthritis (OA) during gait. It is a worsening of the alignment in the stance phase of the gait cycle and closely relates to disease progression. In this study, we measured the thrust quantitatively using skin markers and examined the relationship to other static and dynamic parameters. Forty-four knees in 32 patients (mean age, 72years; range, 64-81years) who exhibited the radiographic OA at least grade 2 according to the Kellgren-Lawrence (K-L) scale were enrolled. Gait analysis was performed for each patient to measure the amount of thrust and knee adduction moment. The amounts of thrust in subjects with K-L grades 2 (25 knees), 3 (13 knees), and 4 (6 knees) were 2.4°(±1.3°), 2.8°(±1.4°), and 7.2°(±5.3°), respectively and the knee adduction moments were 3.6(±1.5) %BW⁎Ht, 3.9(±1.2) %BW⁎Ht and 6.9(±2.2%) BW⁎Ht, respectively. The amount of thrust also exhibited significant correlation to static radiographic alignment (R=0.47: 95% confidence interval 0.67-0.21, p=0.0038) and showed greater correlation to the knee adduction moment (R=0.73: 95% confidence interval 0.84-0.55, p<0.001), which has been identified as an important dynamic index of the disease. The amount of thrust, which is able to be measured by simple inexpensive equipment, correlated to static and dynamic parameters and may offer an important clinical index for knee OA.

In Vivo Knee Kinematics During Stair and Deep Flexion Activities in Patients With Bicruciate Substituting Total Knee Arthroplasty

Orthopedic surgeons and their patients continue to seek better functional outcomes after total knee arthroplasty. The bicruciate substituting (BCS) total knee arthroplasty design has been introduced to achieve more natural knee mechanics. The purpose of this study was to characterize kinematics in knees with BCS arthroplasty during deep flexion and stair activities using fluoroscopy and model-image registration. In 20 patients with 25 BCS knees, we observed average implant flexion of 128° during kneeling and consistent posterior condylar translations with knee flexion. Tibial rotations were qualitatively similar to those observed in the arthritic natural knee. Knee kinematics with BCS arthroplasty were qualitatively more similar to arthritic natural knees than knees with either posterior cruciate-retaining or posterior-stabilized arthroplasty.

Three-dimensional kinematics of the talocrural and subtalar joints during drop landing.

The bones and soft tissues of the foot act as a shock attenuator and the relative bony motions of the talocrural and subtalar joints are the subject of research interest for their roles in lower extremity pathology. Despite this interest, little information exists on the precise in vivo talocrural and subtalar joint kinematics during dynamic activities. Therefore, the purpose of this study was to quantify the three-dimensional kinematics of the talocrural and subtalar joints during landing by using single-plane fluoroscopic imaging and shape matching techniques. Three-dimensional bone positions for 6 subjects during landing from a 10 cm height were determined by using 3D-2D model-image registration techniques. The primary talocrural joint motion after toe contact was dorsiflexion with rotation ranges averaging 12° ± 7° dorsiflexion, 2° ± 2° eversion, and 3° ± 2° internal rotation. The subtalar joint exhibited similar patterns of increased dorsiflexion, eversion, and external rotation up to 150 ms after landing. The angular changes were 5° ± 3° dorsiflexion, 7° ± 3° eversion, and 6° ± 2° external rotation. This study contributes to the quantitative understanding of the function of the normal talocrural and subtalar joints and can be used for comparison with data obtained from injured feet.

Weight-bearing flexion angle correlates significantly with severity of knee osteoarthritis

This study evaluated flexion angles and mechanical loads at the knee during weight-bearing deep flexion in patients with knee osteoarthritis (OA). Thirty-eight knees of 26 patients (mean age, 73 years; range, 58-81 years) with medial knee OA and 16 knees of 8 healthy volunteers (mean age, 63.4 years; range, 60-65 years) were enrolled. Patients were subdivided into two groups based on Kellgren and Lawrence OA grade: moderate OA (grade 2, 17 knees) or severe OA (grade 3 or 4, 21 knees). Motion analysis was performed while rising from maximal knee flexion with one leg for each subject. Maximum knee flexion angles and net quadriceps moments in the weight-bearing motion were compared among the two OA groups and healthy subjects. Mean maximum flexion angle in patients was 91+/-9 degrees. Angles were about 30% smaller than passive range of motion (ROM). Mean angles in healthy subjects, moderate OA and severe OA were 102.7+/-5.0 degrees, 95.6+/-7.7 degrees and 86.5+/-7.2 degrees, respectively, and net quadriceps moments during motion were 5.5+/-1.2%BW*Ht, 4.5+/-1.7%BW*Ht and 3.9+/-1.3%BW*Ht, respectively. Angles and moments were significantly lower in OA patients than in healthy subjects. Maximum flexion angles during weight-bearing rising correlated significantly with HSS score (r=0.63; 95% confidence interval, 0.40-0.78) and were significantly lower in severe OA patients compared to moderate OA. This measurement may offer an important clinical index for knee OA.