Development of an ultrasonic controlled growing rod system for spinal implants

[1]  S. Servaes,et al.  Age- and gender-related changes in pediatric thoracic vertebral morphology. , 2015, The spine journal : official journal of the North American Spine Society.

[2]  A. Diméglio,et al.  Normal and abnormal spine and thoracic cage development. , 2013, World journal of orthopedics.

[3]  Todd A. Johnson,et al.  Identification of a Susceptibility Locus for Severe Adolescent Idiopathic Scoliosis on Chromosome 17q24.3 , 2013, PloS one.

[4]  Dino Samartzis,et al.  Magnetically controlled growing rods for severe spinal curvature in young children: a prospective case series , 2012, The Lancet.

[5]  Y. Nohara The History & State of Art in the Treatment of Scoliosis , 2012 .

[6]  E. Shin,et al.  Exposure to Extremely Low Frequency Magnetic Fields Induces Fos-Related Antigen-Immunoreactivity Via Activation of Dopaminergic D1 Receptor , 2011, Experimental neurobiology.

[7]  K. Yarema,et al.  Moderate strength (0.23–0.28 T) static magnetic fields (SMF) modulate signaling and differentiation in human embryonic cells , 2009, BMC Genomics.

[8]  Katsushi Takeshita,et al.  Surgical treatment of scoliosis: a review of techniques currently applied , 2008, Scoliosis.

[9]  N. Nakamichi,et al.  Activator protein-1 complex expressed by magnetism in cultured rat hippocampal neurons. , 2002, Biochemical and biophysical research communications.

[10]  D Wartenberg,et al.  Residential magnetic fields and childhood leukemia: a meta-analysis. , 1998, American journal of public health.

[11]  M. Edgar,et al.  Posterior spinal fusion and instrumentation in the treatment of adolescent idiopathic scoliosis. , 1985, Annals of the Royal College of Surgeons of England.