John Marshall (eye laser scientist)

John Marshall MBE, FMedSci, PhD, DSc, FRCPath, FRSB, FRCOphth(Hon), FRCOptom(Hon), FARVO (born 1943 in Woking, England) is a British medical scientist and inventor. Currently he is the Frost Professor of Ophthalmology at the Institute of Ophthalmology UCL and Emeritus Professor King's College London.[1] He is a pioneer of laser eye surgery.[2][3]

John Marshall. Master of the Worshipful Company of Spectacle Makers 2011–12

Education

Marshall's earliest years were in war torn London, prior to moving to St Pauls Cray near Orpington in Kent. He had primary tuberculosis as a child and spent some years away from the family in a variety of sanatoria and as a consequence was late starting school at the age of seven. He graduated with a BSc in Zoology from Sir John Cass College, London in 1965 and then began his 50-year career in eye research starting at the Institute of Ophthalmology. In 1968 he was awarded a PhD (Medicine anatomy) from the University of London for a thesis entitled "Laser-induced damage in the retina". His postgraduate supervisor was Kit Pedler, known for creating the cybermen of Doctor Who fame.

Career and research

In 1983 he became Sembal Professor of Experimental Ophthalmology at the Institute of Ophthalmology then based in Judd Street, London. In 1991 he moved to St Thomas' Hospital, UMDS to become the Frost Professor of Ophthalmology, honorary consultant and Head of Department of Ophthalmology. He has published extensively in the field of ophthalmology, on a broad range of ocular problems. This has included age-related, diabetic and inherited retinal disease; lens and intraocular lens design, development of lasers for diagnosis and surgery, light and ageing, refractive surgery and problems of the vitreous and glaucoma. He produced and patented the revolutionary Excimer laser, the grandfather patent for corneal laser refractive surgery[2][4][5][6][7][8][9] He also created the world's first Diode laser for treating eye problems of diabetes, glaucoma and ageing.[3][10][11] He has sat on and chaired many national and international committees* concerned with protecting the public against the possible damaging effects of lasers and other artificial light sources and played a leading role with the ICRC and addressed the United Nations to successfully obtain a Geneva Convention banning the use of anti-personnel laser weapons.[12][13][14][15][16] He is a frequent lecturer at international and national ophthalmology meetings and has successfully supervised 60 candidates for higher doctorate degrees.

  • *World Health Organisation (WHO), Non-ionizing Radiation Committee of the International Radiological Protection Association, International Electro-Technical Commission (IEC), British Standards Institution (BSI) European Community (EC), International Committee of the Red Cross (ICRC), National Radiological Protection Board (NRPB), All Party Parliamentary Group on Refractive Surgery

Marshall is also a past master and on the court of the Worshipful Company of Spectacle Makers, Trustee of the Frost Foundation, Trustee of Retina UK (formerly RP Fighting Blindness), Ambassador for Fight For Sight and Vice-president of the National Eye Research Center.

Industry

He has chaired and served on the Medical Advisory Boards of many companies in the field of ophthalmology, including Avellino, Avedro, Summitt Technology Inc, Intralase, Diomed and Ellex.

  • Inventor of excimer laser technology for refractive surgery which formed basis of patent portfolio for "Summit Technology", acquired by Alcon in 2000. In excess of 50 million procedures now having been undertaken worldwide.[2][17][18]
  • Co-inventor of world's first diode laser for ophthalmology and member of industrial design group that progressed device through to commercialisation (1988)[3]
  • Co-founder of Diomed, a UK company that was the world's largest supplier of diode laser devices for medical use. board member and Chairman of Medical Advisory Board until 1999.
  • Co-inventor and founder member of Odyssey Optical Systems, a company formed to commercially exploit devices to image the interior of the eye.[19]
  • Co-inventor of hardware and optic disc recognition software used in a security-based biometric analysis for Retinal Technologies inc. Founder member of the Company. (2000, Optic disc biometric)[20]
  • Co-inventor Retinal rejuvenation –a new Laser treatment for early age related macular degeneration (AMD) and Diabetic Macular edema (DME) (2008)[21]
  • Co-inventor Diagnostic method and apparatus for predicting potential preserved visual acuity (2009)[22]
  • Co-inventor Eye therapy – the use of cross-linking agents on the cornea (2011)[23]

Recognition, honours and awards

  • 1980 Nettleship Medal of the Ophthalmological Society of the United Kingdom
  • 1985 Mackenzie Medal (Tennant Institute of Ophthalmology, Glasgow)
  • 1988 Rayner Medal (UKISCRS)
  • 1989 Life Fellow of the Royal Society of Arts
  • 1990 Ridley Medal ESCRS
  • 1991 Fellow of the Royal Society of Medicine
  • 1993 Pecs Retinal Award
  • 1993 Ashton Medal (Royal College of Ophthalmologists)
  • 1993 Parker Heath Award, American Academy of Ophthalmology
  • 1997 Elected Honorary Fellow of College of Optometrists
  • 1998 Honorary Fellow of the Portuguese Ophthalmological Society
  • 1998 Owen Aves Memorial Medal (Bradford, Yorkshire)
  • 1999 Wilkening Award, Laser Society of America
  • 2000 Distinguished Service Medal, Swedish Medical Society
  • 2000 Ida Mann Medal (Oxford)
  • 2001 Lord Crook Gold Medal, Worshipful Company of Spectacle Makers
  • 2001 Doyne Medal (Oxford Congress)
  • 2001 Barraquer Medal, International Society of Refractive Surgeons
  • 2003 Elected Fellow of the Laser Institute of America (LIA)
  • 2003 EURETINA Award, European Society of Retinal Surgeons (Hamburg)
  • 2003 Buckingham Palace Reception, October 2003, for pioneers
  • 2004 Charles D Kelman Innovator's Award and medal, ASCRS (San Diego)
  • 2004 Lim Medal of the Singapore National Eye Centre (Singapore)
  • 2004 Elected Fellow of the European Academy of Ophthalmology
  • 2005 Elected Honorary Fellow of Royal College of Ophthalmologists
  • 2005 Elected Honorary Fellow of Cardiff University
  • 2005 Senior Achievement Award (American Academy of Ophthalmology)
  • 2007 Fellow of the Royal College of Pathologists (by publications)
  • 2009 Fellow of the Association for Research in Vision and Ophthalmology
  • 2009 Elected Fellow of the Academy of Medical Sciences
  • 2009 Fellow of the Royal Society of Biology
  • 2009 Lifetime Achievement Award, ISCRS & the American Academy of Ophthalmologists
  • 2012 Junius-Kuhnt-Award award for AMD Research (Düsseldorf)
  • 2013 MBE for services to Ophthalmology
  • 2013 D.Sc. (Hon) Glasgow Caledonian University
  • 2014 International Congress of German Ophthalmic Surgeons (DOC) Bronze medal.
  • 2014 Bowman Medal, Royal College of Ophthalmologists
  • 2014 Zivojnovic Award, European VitreoRetinal Society
  • 2014 Lifetime Achievement Award, UKISCRS
  • 2015 D.Sc. (Hon) London Metropolitan University
gollark: For what purpose? This seems interesting.
gollark: Heav's computer is temporally unanchored right now.
gollark: Yes.
gollark: I can pay you in *imaginary* lc only.
gollark: Thank you for this suggestion. It will only be used for purposes.

References

  1. "Iris View Profile".
  2. Surface erosion using lasers / EU0224322B1 1986
  3. Photocoagulation apparatus / EU 0293126 (1988)
  4. Marshall, J., Trokel, S., Rothery, S., & Schubert, H. (1985). An Ultrastructural-Study of Corneal Incisions Induced by an Excimer Laser at 193 Nm. Ophthalmology, 92(6), 749–758.
  5. S. Trokel, S. Rothery R. R. Krueger & J Marshall.(1986) Photoablative reprofiling of the cornea using an Excimer Laser: Photorefractive keratectomy.. Lasers in Ophthalmology, 1: 1, 21–48.
  6. T. Seiler, S. Rothery and J. Wollensak & J Marshall. (1986) The Potential of an Infrared Hydrogen Fluoride (HF) Laser (3.0nm) for Corneal Surgery (with).Lasers in Ophthalmology, 1: 1, 49–60.
  7. Tuft S, Marshall J, Rothery S. (1987) Stromal remodelling following photorefractive keratectomy. Lasers in Ophthalmology 1:177–183.
  8. Munnerlyn, C. R., Koons, S. J., & Marshall, J. (1988). Photorefractive keratectomy: a technique for laser refractive surgery.. J Cataract Refract Surg, 14(1), 46–52.
  9. Marshall, J. (1988). The potential of lasers in refractive surgery. Journal of the British Contact Lens Association, 1988(5), 43–51.
  10. McHugh, J.D.A., Marshall, J., Capon, M., Rothery, S., Raven, A. and Naylor, P.R. (1988) Transpupillary Retinal Photocoagulation in the eyes of Rabbit and Human using a Diode Laser. Lasers and Light in Ophthalmology 2: 125 143.
  11. Moriarty AP, McHugh JDA, Marshall J, ffytche, TJ, and Hamilton AMP.(1993) Long-term follow-up of diode laser tabeculoplasty for open-angle glaucoma and ocular hypertension. Ophthalmology 100:11; 1614–1618
  12. Marshall, J. (1997). Blinding laser weapons. Still available on the battlefield. British Medical Journal, 315(7120), 1392.
  13. Environmental Health Criteria 23, Lasers and Optical Radiation (with D. H. Sliney and M. Farber) World Health Organisation. Geneva 1982. ISBN 9241540834
  14. Hazards of Light: Myths and Realities, Eye and Skin (with J. Cronly Dillon and E.S. Rosen) Pergamon Press, Oxford 1986. ISBN 0080320147
  15. IRPA Guidelines on Protection against Non-Ionizing Radiation. The Collected Publications of The IRPA Non-Ionizing Radiation Committee. Eds AS Duchene, JRA Lakey, MH Repacholi. Pergamon Press, 1991. ISBN 0-08-036097-1.
  16. (15) Marshall, J. (1983). The radiation hazards of lasers and a guide to their control in the laboratory. In R. J. H. Clark, & R. E. Hester (Eds.), Advances in Infrared and Raman Spectroscopy (Vol. 10, pp. 147–217). John Wiley & Sons.
  17. Surface shaping using lasers / EU 0261193B1 (1991)
  18. Laser corneal surgery (1995)
  19. Portable laser scanning ophthalmoscope
  20. Method for generating a unique consistent signal pattern for identification of an individual (Optic disc biometric)
  21. Retinal regeneration WO 2008049164 Regeneration
  22. Diagnostic method and apparatus for predicting potential preserved visual acuity
  23. Patents Eye therapy /Eye therapy system
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