Relative Versus Absolute Modulation of Growth in the Fusionless Treatment of Experimental Scoliosis
スポンサーリンク
概要
- 論文の詳細を見る
- 2006-07-15
著者
-
Braun John
Department Of Orthopaedics University Of Utah School Of Medicine
-
HINES Jerod
Department of Orthopaedics, University of Utah, School of Medicine
-
AKYUZ Ephraim
Orthopaedic Research Laboratory, Department of Orthopedics, University of Utah
-
VALLERA Cristianna
Department of Orthopaedics, University of Utah, School of Medicine
-
OGILVIE James
Department of Orthopaedics, University of Utah, School of Medicine
-
Ogilvie James
Department Of Orthopaedics University Of Utah School Of Medicine
-
Ogilvie James
Department Of Orthopaedic Surgery University Of Minnesota
-
Akyuz Ephraim
Orthopaedic Research Laboratory Department Of Orthopedics University Of Utah
-
Hines Jerod
Department Of Orthopaedics University Of Utah School Of Medicine
-
Vallera Cristianna
Department Of Orthopaedics University Of Utah School Of Medicine
関連論文
- Relative Versus Absolute Modulation of Growth in the Fusionless Treatment of Experimental Scoliosis
- Creation of an Experimental Idiopathic-Type Scoliosis in an Immature Goat Model Using a Flexible Posterior Asymmetric Tether
- Mechanical Modulation of Vertebral Growth in the Fusionless Treatment of Progressive Scoliosis in an Experimental Model
- Three-Dimensional Analysis of 2 Fusionless Scoliosis Treatments : A Flexible Ligament Tether Versus a Rigid-Shape Memory Alloy Staple
- The Use of Animal Models in Fusionless Scoliosis Investigations
- Fusionless Scoliosis Correction Using a Shape Memory Alloy Staple in the Anterior Thoracic Spine of the Immature Goat
- Experimental Scoliosis in an Immature Goat Model : A Method That Creates Idiopathic-Type Deformity With Minimal Violation of the Spinal Elements Along the Curve
- Torsional Rigidity of Scoliosis Constructs
- The Effect of Two Clinically Relevant Fusionless Scoliosis Implant Strategies on the Health of the Intervertebral Disc : Analysis in an Immature Goat Model
- Fibronectin and Its Fragments Increase With Degeneration in the Human Intervertebral Disc