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In Vitro Biomechanical Analysis of Knee Rotational Stability
Pages 3-14
This book is designed to equip the reader with the knowledge and tools required for provision of individualized ACL treatment based on the best available evidence. All major aspects of the assessment of rotatory knee instability are addressed in depth. A historical overview of arthrometers, both invasive and non-invasive, is provided, and newly developed devices for the measurement of rotatory knee laxity are considered. Recent advances with respect to the pivot shift test are explained and evidence offered to support a standardized pivot shift test and non-invasive quantification of the pivot shift. Specific surgical techniques for rotatory laxity are described, with presentation of the experience from several world-renowned centers. In addition, functional rehabilitation and “return to play” are discussed. In keeping with the emphasis on an individualized approach, the book highlights individualization of surgical reconstruction techniques in accordance with the specific injury pattern and grade of rotatory knee laxity as well as the use of individualized rehabilitation techniques. Numerous high-quality images illustrate key points and clear take-home messages are provided.
In Vitro Biomechanical Analysis of Knee Rotational Stability
Pages 3-14
Anatomy and Function of the Anterolateral Capsule Structures
Pages 15-25
ACL Injury Mechanisms: Lessons Learned from Video Analysis
Pages 27-36
In Vivo Biomechanics: Laxity Versus Dynamic Stability
Pages 37-48
MRI Laxity Assessment
Pages 49-61
Software Applications
Pages 63-72
Knee Rotation: The Swiss School
Pages 75-86
Knee Rotation: The Lyon School
Pages 87-94
Knee Rotation: The Torg School
Pages 95-102
Knee Rotation: The HSS School
Pages 103-113
Development of Arthrometry
Pages 115-129
Development of the IKDC Forms
Pages 131-146
Static Rotational Knee Laxity Measurements
Pages 149-163
The Use of Stress X-Rays in the Evaluation of ACL Deficiency
Pages 165-174
Classification, Diagnostics and Anatomical Considerations in Knee Dislocations
Pages 175-189
The KneeKG System
Pages 191-198
A Robotic System for Measuring the Relative Motion Between the Femur and the Tibia
Pages 199-220
The Envelope of Laxity of the Pivot Shift Test
Pages 223-234
Pivot Shift Test: An Evidence-Based Outcome Tool
Pages 235-243
Navigating the Pivot-Shift Test
Pages 245-254
Mechanizing the Pivot Shift Test
Pages 255-268
Development of Electromagnetic Tracking for the Pivot Shift
Pages 269-276
Quantifying the “Feel” of the Pivot Shift
Pages 277-287
Quantifying “the Look” of the Pivot Shift
Pages 289-297
Use of Inertial Sensors for Quantifying the Pivot Shift Maneuver
Pages 299-307
The MacIntosh Procedure
Pages 311-318
Surgery for Rotatory Knee Instability: Experience from the Hughston Clinic
Pages 319-329
“Over the Top” Single-Bundle ACL Reconstruction with Extra-articular Plasty
Pages 331-340
ACL and Extra-articular Tenodesis
Pages 341-352
ACL and Hidden Meniscus Lesions
Pages 353-364
Double-Bundle Anterior Cruciate Ligament Reconstruction
Pages 365-377
ACL and Posterolateral Instability
Pages 379-393
Criterion-Based Approach for Returning to Sport After ACL Reconstruction
Pages 397-411
Return to Sport following ACL Reconstruction: The Australian Experience
Pages 413-426
Return to Sport following ACL Reconstruction: The MOON Experience
Pages 427-432
Quantifying the Forces During the Pivot Shift Test
Pages 435-440
How Can We Identify Copers?
Pages 441-451
Experience with Computer Navigation: Present and Future
Pages 453-464
How Do We Eliminate Risk Factors for ACL Injury?
Pages 465-472
The Dynamic Interplay Between Active and Passive Knee Stability: Implications for Management of the High ACL Injury Risk Athlete
Pages 473-490
Evidence-Based Medicine for Rotary Knee Instability
Pages 491-496
Outcomes Based on Surgery and Rehabilitation
Pages 497-512
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