Electrical stimulation for fracture healing: current evidence.
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Electromagnetic fields act via activation of voltage-gated calcium channels to produce beneficial or adverse effectsElectrical polarization of titanium surfaces for the enhancement of osteoblast differentiation.Adipose-derived stem cells in functional bone tissue engineering: lessons from bone mechanobiology.A new piezoelectric actuator induces bone formation in vivo: a preliminary studyRap system of stress stimulation can promote bone union after lower tibial bone fracture: a clinical research.Reconstructive Effects of Percutaneous Electrical Stimulation Combined with GGT Composite on Large Bone Defect in RatsTranscutaneous electrical nerve stimulation for the management of painful conditions: focus on neuropathic pain.Therapeutic effects of whole-body devices applying pulsed electromagnetic fields (PEMF): a systematic literature review.Cochrane in CORR (®): Ultrasound and Shockwave Therapy for Acute Fractures in Adults (Review).Efficacy of Electrical Stimulators for Bone Healing: A Meta-Analysis of Randomized Sham-Controlled Trials.Nanoscale stimulation of osteoblastogenesis from mesenchymal stem cells: nanotopography and nanokicking.Combined effects of direct current stimulation and immobilized BMP-2 for enhancement of osteogenesis.Electrically conductive surface modifications of three-dimensional polypropylene fumarate scaffolds.Modulation of cell function by electric field: a high-resolution analysis.Magnetically induced electrostimulation of human osteoblasts results in enhanced cell viability and osteogenic differentiation.A new device for improving dental implants anchorage: a histological and micro-computed tomography study in the rabbit.Development of a co-culture device for the study of human tenocytes in response to the combined stimulation of electric field and platelet rich plasma (PRP).Electrical stimulation of adipose-derived mesenchymal stem cells and endothelial cells co-cultured in a conductive scaffold for potential orthopaedic applications.[Pseudarthroses of the long bones].Effects of electric fields on human mesenchymal stem cell behaviour and morphology using a novel multichannel device.Combined treatment with electrical stimulation and insulin-like growth factor-1 promotes bone regeneration in vitro.Control of Mesenchymal Stem-Cell Fate by Engineering the NanoenvironmentLow Frequency Pulsed Electromagnetic Field Affects Proliferation, Tissue-Specific Gene Expression, and Cytokines Release of Human Tendon Cells
P2860
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P2860
Electrical stimulation for fracture healing: current evidence.
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article científic
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article scientifique
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articolo scientifico
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artigo científico
@pt
bilimsel makale
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scientific article published on March 2010
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vedecký článok
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vetenskaplig artikel
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videnskabelig artikel
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vědecký článek
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name
Electrical stimulation for fracture healing: current evidence.
@en
Electrical stimulation for fracture healing: current evidence.
@nl
type
label
Electrical stimulation for fracture healing: current evidence.
@en
Electrical stimulation for fracture healing: current evidence.
@nl
prefLabel
Electrical stimulation for fracture healing: current evidence.
@en
Electrical stimulation for fracture healing: current evidence.
@nl
P2093
P1476
Electrical stimulation for fracture healing: current evidence.
@en
P2093
Bradley A Petrisor
Christina Goldstein
Sheila Sprague
P356
10.1097/BOT.0B013E3181CDDE1B
P478
24 Suppl 1
P577
2010-03-01T00:00:00Z