Publicações Professor Chin-Jen Wang - Taiwan

Importante

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Index

Musculoskeletal Shock Waves and Tissue Regeneration (Introdution)

ESW promote healing of collagenase-induced Achilles Tendinitis and increase TGF-β1 and IGF-I expression (Last Publication)

Overview of ESW-T in Musculoskeletal Disorders (chapter 01)

Treatment of Painful Heels using ESW-T (chapter 02)

Effect of ESW-T on Acute Fractures of the Tibia - a Study in a Dog Model (chapter 03)

Treatment of Nonunions of Long Bone Fractures with ESW-T (chapter 04)

Treatment of Calcifying Tendinitis of the Shoulder with ESW-T (chapter 05)

Treatment of Lateral Epicondylitis of the Elbow with ESW-T (chapter 06)

Treatment of Painful Heels Syndrome with ESW-T (chapter 07)

Physical Shock Wave mediates Membrane Hyperpolarization and Ras Activation for Osteogenesis (chapter 08)

Human Bone Marrow Stromal Cells (chapter 09)

ESW-T for Patients with Lateral Epicondylitis of the Elbow - a One to Two Year Follow-up Study  (chapter 10)

ESW-T for Patients with Plantar Fasciitis a One Year Follow-up Study (chapter 11)

Pathomechanism of Shock Wave Injuries on Femoral Artery, Vein and Nerve - an Experimental Study in Dogs (chapter 12)

Shock Wave-Enhanced Neovascularization at the Tendon-Bone Junction - an Experiment in Dogs (chapter 13)

ESW-T promotes Growth and Differentiation of Bone-Marrow Stromal cells towards Osteoprogenitors associated with Induction of TGF-b1 (chapter 14)

Superoxide mediates Shock Wave Induction of ERK-dependent Osteogenic Transcription Facotr (CBFA1) and Mesenchymal Cell Differentiation toward Osteoprogenitors (chapter 15)

ESW-T for Calcific Tendinitis of the Shoulder - a Prospective Clinical Study with Two-Year Follow-up (chapter 16)

Shock Wave Application enhances Pertussis Toxin Protein-Sensitive Bone Formation of Segmental Femoral Defect in Rats (chapter 17)

Temporal and Spatial Expression of Bone Morphogenetic Proteins in ESW-promoted Healing of Segmental Defect (chapter 18)

Shock Wave Therapy induces Neovascularization at the Tendon-Bone Junction - a Study in Rabbits (chapter 19)

Enhancing Mechanical Strength during Early Fracture Healing via Shock Wave Treatment - an Animal Study (chapter 20)

Pertussis Toxin-Sensitive Gai Protein and ERK-dependent pathways mediate Ultrasound Promotion of Osteogenic Transcription in Human Osteoblasts (chapter 21)

Shock Wave Treatment shows Dose-dependent Enhancement of Bone Mass and Bone Strength after Fracture of the Femur (chapter 22)

Effect of Shock Wave Therapy on Patellar Tendinopathy in a Rabbit Model (chapter 23)

Activation of Extracellular Signal-regulated Kinase (ERK) and p38 Kinase in Shockwave-promoted Bone Formation of Segmental Defect in Rats (chapter 24)

Recruitment of Mesenchymal Stem Cells and Expression of TGF-b1 and VEGF in the early stage of Shock Wave-promoted Bone Regeneration of Segmental Defect in Rats (chapter 25)

Extracorporeal Shock Waves promote Healing of Collagenase-induced Achilles Tendinitis and increase TGF-b1 and IGF-I Expression (chapter 26)

Ras Modulation of Superoxide activates ERK-dependent Angiogenic Transcription (HIF-1a) and VEGF-A Expression in Shock Wave-stimulated Osteoblasts (chapter 27)

Shock Wave stimulates Oxygen Radical-mediated Osteogenesis of the Mesenchymal Cells from Human Umbilical Cord Blood (chapter 28)