| scholarly article | Q13442814 |
| P356 | DOI | 10.1177/0363546507300821 |
| P698 | PubMed publication ID | 17440197 |
| P2093 | author name string | Russell F Warren | |
| Alexandre Moreau-Gaudry | |||
| Thomas L Wickiewicz | |||
| Andrew D Pearle | |||
| Daniel J Solomon | |||
| Tony Wanich | |||
| Carinne C Granchi | |||
| P2860 | cites work | Physical examination of the knee: A review of the original test description and scientific validity of common orthopedic tests | Q35105002 |
| Potential pitfalls of computer aided orthopedic surgery | Q35796395 | ||
| Computer aided ACL reconstruction | Q35796415 | ||
| Instrumented measurement of anterior knee laxity in patients with acute anterior cruciate ligament disruption | Q36500824 | ||
| Diagnosis of an ACL disruption with KT-1000 arthrometer measurements. | Q36788149 | ||
| The pivot shift phenomenon: results and description of a modified clinical test for anterior cruciate ligament insufficiency | Q44262341 | ||
| Computer assisted navigation in total knee arthroplasty: comparison with conventional methods | Q51341687 | ||
| A new mechanical testing device for measuring anteroposterior knee laxity | Q51596666 | ||
| A combined robotic/universal force sensor approach to determine in situ forces of knee ligaments | Q52295765 | ||
| The use of robotics technology to study human joint kinematics: a new methodology | Q52392796 | ||
| P433 | issue | 8 | |
| P1104 | number of pages | 6 | |
| P304 | page(s) | 1315-1320 | |
| P577 | publication date | 2007-04-17 | |
| P1433 | published in | American Journal of Sports Medicine | Q4744271 |
| P1476 | title | Reliability of navigated knee stability examination: a cadaveric evaluation | |
| P478 | volume | 35 |
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| Q83436954 | A non-invasive device to objectively measure tibial rotation: verification of the device |
| Q35355200 | A novel tool for objective assessment of femorotibial rotation: a cadaver study |
| Q83462622 | Anterior cruciate ligament reconstruction after unicompartmental knee arthroplasty |
| Q38088671 | Applications of computer navigation in sports medicine knee surgery: an evidence-based review |
| Q51582349 | Assessment of the accuracy of infrared and electromagnetic navigation using an industrial robot: Which factors are influencing the accuracy of navigation? |
| Q46988092 | Biomechanical comparison of medial collateral ligament reconstructions using computer-assisted navigation |
| Q46709477 | Changes in the length of virtual anterior cruciate ligament fibers during stability testing: a comparison of conventional single-bundle reconstruction and native anterior cruciate ligament |
| Q45900480 | Comparison of 3-dimensional obliquity and anisometric characteristics of anterior cruciate ligament graft positions using surgical navigation. |
| Q46543305 | Comparison of Posterolateral Corner Reconstructions Using Computer-Assisted Navigation |
| Q84245773 | Comparison of tunnel positions in single-bundle anterior cruciate ligament reconstructions using computer navigation |
| Q26864910 | Current concept in rotational laxity control and evaluation in ACL reconstruction |
| Q38981745 | Current use of navigation system in ACL surgery: a historical review. |
| Q38979129 | Description of an evaluation system for knee kinematics in ligament lesions, by means of optical tracking and 3D tomography |
| Q90022588 | Development and validation of a kinematically-driven discrete element model of the patellofemoral joint |
| Q37860490 | Does computer navigation system really improve early clinical outcomes after anterior cruciate ligament reconstruction? A meta-analysis and systematic review of randomized controlled trials |
| Q37972578 | Dynamic knee laxity measurement devices. |
| Q82788974 | Effect of Single-Bundle and Double-Bundle Anterior Cruciate Ligament Reconstructions on Pivot-Shift Kinematics in Anterior Cruciate Ligament– and Meniscus-Deficient Knees |
| Q84078791 | Effect of meniscal loss on knee stability after single-bundle anterior cruciate ligament reconstruction |
| Q33583658 | Feasibility of a navigated registration technique in FAI surgery |
| Q37245119 | Femoral Aperture Fixation Improves Anterior Cruciate Ligament Graft Function When Added to Cortical Suspensory Fixation: An In Vivo Computer Navigation Study |
| Q33904148 | Human knee laxity in ACL-deficient and physiological contralateral joints: intra-operative measurements using a navigation system |
| Q61439160 | In vivo analysis of the pivot shift phenomenon during computer navigated ACL reconstruction |
| Q83634362 | In vivo laxity of stable versus anterior cruciate ligament-injured knees using a navigation system: a comparative study |
| Q51811612 | Influence of increasing construct constraint in the presence of posterolateral deficiency at knee replacement: A biomechanical study |
| Q44412659 | Instrumented measurements of knee laxity: KT-1000 versus navigation. |
| Q47919607 | Internal femoral component rotation adversely influences load transfer in total knee arthroplasty: a cadaveric navigated study using the Verasense device. |
| Q46574979 | Intraoperative comparisons of knee kinematics of double-bundle versus single-bundle anterior cruciate ligament reconstruction |
| Q37348770 | Isometry of medial collateral ligament reconstruction |
| Q41515340 | Knee laxity modifications after ACL rupture and surgical intra- and extra-articular reconstructions: intra-operative measures in reconstructed and healthy knees |
| Q34019118 | Knee stability assessment on anterior cruciate ligament injury: Clinical and biomechanical approaches. |
| Q87852556 | Measurements of tibial rotation during a simulated pivot shift manoeuvre using a gyroscopic sensor |
| Q82253070 | Mechanized pivot shift test achieves greater accuracy than manual pivot shift test |
| Q84855718 | Navigated knee kinematics after cutting of the ACL and its secondary restraint |
| Q26764942 | Objective measures on knee instability: dynamic tests: a review of devices for assessment of dynamic knee laxity through utilization of the pivot shift test |
| Q33530651 | Open wedge valgus tibial osteotomies: affecting the distinct ACL bundles |
| Q35723127 | Posterior cruciate ligament and posterolateral corner deficiency results in a reverse pivot shift. |
| Q36013959 | Reconstruction of the Posterolateral Corner After Sequential Sectioning Restores Knee Kinematics |
| Q53649806 | Repeatability and accuracy of a non-invasive method of measuring internal and external rotation of the tibia |
| Q33663424 | Rotatory instability of the knee after ACL tear and reconstruction |
| Q47154802 | Segond's fracture: a biomechanical cadaveric study using navigation |
| Q46837802 | Single-bundle anterior cruciate ligament reconstruction: a comparison of conventional, central, and horizontal single-bundle virtual graft positions |
| Q44958575 | Software for compartmental translation analysis and virtual three-dimensional visualization of the pivot shift phenomenon |
| Q49353469 | Suitability of computer-assisted femoral intramedullary nailing for control of torsion and length : Systematic review of clinical studies |
| Q87343922 | The arcuate ligament revisited: role of the posterolateral structures in providing static stability in the knee joint |
| Q45047571 | The effect of lateral opening wedge distal femoral osteotomy on medial knee opening: clinical and biomechanical factors |
| Q53534553 | The role of the deep medial collateral ligament in controlling rotational stability of the knee |
| Q39872976 | Tibiofemoral forces for the native and post-arthroplasty knee: relationship to maximal laxity through a functional arc of motion |
| Q41665703 | Transportal Anterior Cruciate Ligament Reconstruction with Quadrupled Hamstring Tendon Graft: A Prospective Outcome Study |
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