Feasibility of using orthogonal fluoroscopic images to measure in vivo joint kinematics.
about
High-speed X-ray video demonstrates significant skin movement errors with standard optical kinematics during rat locomotion.Image based weighted center of proximity versus directly measured knee contact location during simulated gaitIn-vivo time-dependent articular cartilage contact behavior of the tibiofemoral jointIn vivo function of the posterior cruciate ligament during weightbearing knee flexion.Validation of a new model-based tracking technique for measuring three-dimensional, in vivo glenohumeral joint kinematicsBarriers to predicting the mechanisms and risk factors of non-contact anterior cruciate ligament injury.In vivo length change patterns of the medial and lateral collateral ligaments along the flexion path of the kneeThe biomechanical function of the patellar tendon during in-vivo weight-bearing flexion.Meniscus Injuries Alter the Kinematics of Knees With Anterior Cruciate Ligament DeficiencyIn-vivo glenohumeral translation and ligament elongation during abduction and abduction with internal and external rotation.Statistical modeling to characterize relationships between knee anatomy and kinematicsBiomechanics and anterior cruciate ligament reconstruction.Establishing a Customized Guide Plate for Osteotomy in Total Knee Arthroplasty Using Lower-extremity X-ray and Knee Computed Tomography Images.In vivo kinematics of the knee during weight bearing high flexion.In vivo cartilage contact deformation in the healthy human tibiofemoral joint.In vivo Kinematics of the Knee after a Posterior Cruciate-Substituting Total Knee Arthroplasty: A Comparison between Caucasian and South Korean Patients.In vivo kinematics of the extensor mechanism of the knee during deep flexionKinematic characteristics of the tibiofemoral joint during a step-up activity.Posterolateral structures of the knee in posterior cruciate ligament deficiency.The contralateral knee joint in cruciate ligament deficiency.In vivo patellar tracking: clinical motions and patellofemoral indicesIn vivo anterior cruciate ligament elongation in response to axial tibial loads.An automatic 2D-3D image matching method for reproducing spatial knee joint positions using single or dual fluoroscopic images.The effect of anterior cruciate ligament deficiency and reconstruction on the patellofemoral joint.Analysis of tibiofemoral cartilage deformation in the posterior cruciate ligament-deficient kneeFunction of anterior talofibular and calcaneofibular ligaments during in-vivo motion of the ankle joint complexValidation of three-dimensional model-based tibio-femoral tracking during runningNew fluoroscopic imaging technique for investigation of 6DOF knee kinematics during treadmill gaitGender differences in trochlear groove orientation and rotational kinematics of human kneesElbow position affects distal radioulnar joint kinematics.Prediction of in vivo knee joint kinematics using a combined dual fluoroscopy imaging and statistical shape modeling technique.Biomechanics of intervertebral disk degeneration.An in Vivo Simulation of Isometry of the Anterolateral Aspect of the Healthy Knee.Kinematic characteristics of anterior cruciate ligament deficient knees with concomitant meniscus deficiency during ascending stairs.In Vivo Anterolateral Ligament Length Change in the Healthy Knee During Functional Activities-A Combined Magnetic Resonance and Dual Fluoroscopic Imaging Analysis.Three-dimensional kinematics of an unconstrained ankle arthroplasty: a preliminary in vivo videofluoroscopic feasibility study.In-vivo patellar tendon kinematics during weight-bearing deep knee flexion.Future trends in the use of X-ray fluoroscopy for the measurement and modelling of joint motion.In vivo kinematics of the knee after anterior cruciate ligament reconstruction: a clinical and functional evaluation.The 6 degrees of freedom kinematics of the knee after anterior cruciate ligament deficiency: an in vivo imaging analysis.
P2860
Q30492971-8B41B161-AF01-4096-BE91-66DB8BE1E589Q33756406-89BF1A65-6064-4BEB-9922-688502C6096CQ33976769-1E51CD4A-6C51-4070-B7C3-E90A7597692FQ34372352-ACCF948A-6966-462A-8D7B-697D0D4BAE9FQ34771591-E9B009B4-B765-4C23-BF8E-5F9DC6DE7FD3Q35008088-1A29EC91-7ADE-470A-8D57-B272D6C2C989Q35202467-F6CB6844-D3DF-4A1A-8536-508461BA96DDQ35933458-A50798E0-9671-4871-AD01-0109229C4880Q36013831-C8E5E52D-82A5-4E8D-B89D-5FBD1F14426BQ36112686-4107222F-EC25-4CF2-A9A2-8A36CBFD4B1CQ36113224-B5DDDD36-E6BC-40B9-9014-D18A2E40B9BEQ36675581-AB0A0F93-1DD4-41B8-AC5D-53793727120FQ36709348-752F349D-7A59-4365-A958-EBD16FBCB285Q36864036-3EA2BB8A-7E0B-48EF-81B1-931B60487DF3Q36940937-0F54F917-7F3E-44DD-BB42-658B849F1CB6Q36974155-AD6C766A-86EC-4565-BDAC-EAD17423F26DQ36995805-4FC61128-D009-408D-AFB1-F77D692799CCQ37042821-0FAB28C9-B526-40DA-A460-93C8433C5FDEQ37087285-43D5E0FD-474E-40E9-B0C3-593C08792602Q37087354-057ACBC2-E576-40E7-8D6D-666B763D8424Q37087371-DE4F8534-CD17-420B-9530-29AD71942A09Q37087403-CBCF93C7-E782-46AB-8A4C-861EA60A2683Q37087431-C854CD72-2B53-4835-84E8-1E1F029EA302Q37087440-C4DA644D-ADB8-4DFB-B747-5F0043F08999Q37145434-25441F65-818D-44BD-AE1C-9AB95A8BCA99Q37152961-ADAE1DE7-B23D-4608-A5CB-B9F017EB808FQ37156346-8AEDD4F3-D43A-4350-BC42-645F5BB4B588Q37158474-B64909AD-796F-4EB4-B16D-588F8DA50653Q37276034-377D7961-CC02-4C8E-834C-14C752D3ED16Q37316112-1D668DF9-4638-4DD5-877C-D931F56D8221Q37401768-3549BFDF-7B6A-48C5-89BE-57FE4C8F0688Q37938106-F4044917-7407-4512-9012-0574F87C6178Q38693163-C5F3242F-9452-431B-AA52-16E140610225Q38888394-68D51FE2-BAF7-4693-94B5-76277593B440Q39356972-16949768-5A12-4AD3-9231-FC5DA1DC9D6CQ39539365-82B34B70-7202-48D5-8B14-D8D82EB70CB2Q39630564-CE29D6B1-076A-4789-B7FB-B595CC2A4413Q39654416-7B6ADAC2-CA78-43B2-B58D-B5E6C7E199C7Q40301206-AEFF7E17-08D5-4339-ABCA-0AE2DA9946A2Q40331154-4775894E-28E4-4EFB-B6FA-31FE4B08B8BD
P2860
Feasibility of using orthogonal fluoroscopic images to measure in vivo joint kinematics.
description
2004 nî lūn-bûn
@nan
2004年の論文
@ja
2004年学术文章
@wuu
2004年学术文章
@zh-cn
2004年学术文章
@zh-hans
2004年学术文章
@zh-my
2004年学术文章
@zh-sg
2004年學術文章
@yue
2004年學術文章
@zh
2004年學術文章
@zh-hant
name
Feasibility of using orthogonal fluoroscopic images to measure in vivo joint kinematics.
@en
Feasibility of using orthogonal fluoroscopic images to measure in vivo joint kinematics.
@nl
type
label
Feasibility of using orthogonal fluoroscopic images to measure in vivo joint kinematics.
@en
Feasibility of using orthogonal fluoroscopic images to measure in vivo joint kinematics.
@nl
prefLabel
Feasibility of using orthogonal fluoroscopic images to measure in vivo joint kinematics.
@en
Feasibility of using orthogonal fluoroscopic images to measure in vivo joint kinematics.
@nl
P2093
P356
P1476
Feasibility of using orthogonal fluoroscopic images to measure in vivo joint kinematics.
@en
P2093
Louis E DeFrate
Thomas H Wuerz
P304
P356
10.1115/1.1691448
P577
2004-04-01T00:00:00Z