Martin Knight MD FRCS MBBS

The Spinal Foundation

Mr Knight trained in London and is an internationally acknowledged leader in Endoscopic Minimal Invasive Lumbar Spine Surgery (EMISS).

He has pioneered aware state spinal diagnosis, spinal endoscopic equipment and techniques including Transforaminal Endoscopic Lumbar Decompression & Foraminoplasty (TELDF), Laser Disc Decompression and Endoscopic Intradiscal, Annuloplasty, Combination EMISS and polymer disc reconstruction, Endoscopic Interlaminar Lumbar Decompression and has a particular interest in treating Cluneal Nerve pain.

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Indications and long-term outcomes for Transforaminal Endoscopic Lumbar Decompression and Foraminoplasty (TELDF)

The rationale for aware state feedback driven TELDF is based upon the importance of the exiting root as the major cause of back buttock and limb pain. The adjustment for variance of dermatomal reference, preservation of near physiological movement and the panoply of conditions that can be treated by TELDF has resulted in a 72% success rate at 10 years with minimal complications.

EVEN MORE SEMINARS

  • Prof W.Gedroyc: Speaking at the European Neurological Convention

    Prof W.Gedroyc
    Imperial College Healthcare NHS Trust

    Brain MR guided focussed ultrasound

  • Dr Nicholas Silver: Speaking at the European Neurological Convention

    Dr Nicholas Silver
    The Walton Centre for Neurology and Neurosurgery, Liverpool; The Brain Charity

    More than just a headache, more than just prescribing drugs

  • Martin Knight MD FRCS MBBS: Speaking at the European Neurological Convention

    Martin Knight MD FRCS MBBS
    The Spinal Foundation

    Cluneal Nerve Diagnosis and a Radiofrequency Treatment Protocol

  • Dr Yaara Erez: Speaking at the European Neurological Convention

    Dr Yaara Erez
    University of Cambridge

    Cognitive mapping during awake surgeries for patients with brain tumours

  • Dr Michael J. Grey: Speaking at the European Neurological Convention

    Dr Michael J. Grey
    University of East Anglia

    Effecting neuroplasticity with virtual rehabilitation