Medicine:Irlen syndrome

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Short description: Postulated disorder of vision or image-processing


Irlen Syndrome, also referred to as scotopic sensitivity syndrome (SSS), visual stress, or Meares–Irlen syndrome,[1] is a type of visual or perceptual processing disorder. Someone with a visual or perceptual processing disorder has difficulty making sense of visual information. This is different from problems involving sight or vision. When an individual suffers from Irlen Syndrome, their brain has difficulty processing certain wavelengths of light. In this way, light – especially bright and fluorescent lighting – becomes a stressor on the brain. This stress causes certain parts of the brain (e.g. the visual cortex) to become overactive. It is this over-activity and inability to effectively process visual stimuli that creates a variety of visual, physical, cognitive, emotional, and neurological symptoms.

Many mainstream professionals are skeptical of the concept;[2][3] however, current neuroscience research has successfully documented differences in brain function among this population versus those without the condition.[4][5] Early research on Irlen syndrome produced mixed results;[6] however, the overwhelming majority of studies conducted over the last 40 years have documented the benefits of using precision-tinted colored lenses to address a variety of related symptomology, including: reduction in physical symptoms that include headaches, migraines, eye strain, fatigue, and light sensitivity;[7][8][9] and improved functioning and success in both academia and the workplace.[10][11][12][13][14][15][16][17][18]

History

In 1980, New Zealand teacher Olive Meares described the visual distortions some individuals reported when reading from white paper. In 1983, while working under a federal research grant at the California State University of Long Beach, American psychologist, Helen Irlen, discovered that filtering the visual information before reaching the brain through the use of either colored overlays or spectral filters (worn as glasses), could allow the brain to correctly process the visual information it received. In doing so, these colored overlays and spectral filters could eliminate symptoms associated with Irlen Syndrome. Similar symptoms were separately described by Meares and Irlen, each unaware of the other's work. Irlen, who was the first to systematically define the condition, named the condition "scotopic sensitivity syndrome," though in years following, some referred to it as Meares-Irlen syndrome, Irlen Syndrome, and visual stress.

Colored overlays and/or colored filters are recognized as a standard accommodation for standardized testing in many states in America, including California, Arkansas, Florida, Oklahoma, Nevada, Massachusetts, New Mexico, and Washington. The SAT, LSAT, ACT, Learning Ally, Illinois Department of Rehabilitation, Indiana Office of Vocational Rehabilitation, Michigan Rehabilitation Services, Texas Commission for the Blind, Nevada Vocational Rehabilitation Services, and Wisconsin Vocational Rehabilitation all officially recognize Irlen Syndrome. In Australia, the following are a sampling of agencies which have officially recognized Irlen Syndrome: Department of Employment, Education & Training, Departments of Army, Navy, and Air Force, Board of Studies – NSW, Board of Secondary Education – WA, Department of Children's Services – WA, Commonwealth Employment Service (CES), Department of Rehabilitation, Geelong Medical Fund, and Technical and Further Education (TAFE).

Basic testing for Irlen Syndrome was tried by optometrists, opticians and orthoptists in UK hospitals, and by optometrists and opticians in private practice employing a technique that used the Intuitive Colorimeter, developed under Medical Research Council license. An alternative approach to correct Irlen syndrome was tried by Orthoscopics franchise in the UK, with wide color coverage and tints manufactured by Hoyato match. Other commercial organizations have produced sets of therapeutic tints, although most have not received scientific evaluation.[19]

Early studies investigating Irlen' Syndrome as a treatable condition have been criticized for having a biased and subjective approach to their research;[20] however, the most current research on Irlen Syndrome has established a hereditary component of the disorder,[21][22] a number of biochemical markers for problems associated with Irlen Syndrome,[23] and differences in brain function for individuals with Irlen Syndrome.[24][4]

Classifications

Irlen divides Irlen syndromes into six types: photophobia, distortion of the fundus, graphical distortions during reading, decreased visual field, difficulty in ocular fixation during reading and change in depth perception.[25]

Research

In Australia, Irlen syndrome was researched by Paul Whiting at the University of Sydney. Whiting set up the first Irlen Dyslexia Centre in Australia, which operated in the Children's Centre at Sydney University for more than 15 years.[26] Irlen syndrome was also studied in Australia by Greg Robinson (1944–2008) at the University of Newcastle. He was director of the Special Education Centre at the School of Education.[27]

While the occasional study has suggested there is inconclusive evidence for the efficacy of colored lenses specifically to address reading performance deficits,[6] the broader literature base encompassing the efficacy of the treatment to address physical symptoms, migraines,[28] attention challenges, depth perception, ocular movement, and light sensitivity, among a variety of populations, including those diagnosed with conditions such as autism,[29] ADHD,[30] brain injury,[31] stroke, learning disabilities, and the general population, provides a strong foundation for future research on the topic.[citation needed]

Treatment

The College of Optometrists (UK) has specified guidelines for optometrists who use the colorimeter system. This system differs from the system of colour selection developed by Helen Irlen, and prescribed tints will vary from those obtained via other methods. A society for coloured lens prescribers has been established to provide a list of eye-care practitioners with expertise in the provision of coloured lenses for the treatment of visual stress.[32]

Irlen Method

The Irlen Method uses colored overlays and individualized, precision tinted lenses in the form of glasses or contact lenses. The method is intended to correct visual processing problems; it is claimed the resultant retiming of visual signals in the brain improves symptoms associated with Irlen Syndrome.[33]

See also


References

  1. "Irlen Syndrome vs. Visual Stress: Simple Semantics or Something More". https://irlen.com/irlen-syndrome-vs-visual-stress-simple-semantics-or-something-more/. 
  2. "A review of the use of Irlen (tinted) lenses". Australian and New Zealand Journal of Ophthalmology 18 (3): 307–12. 1990. doi:10.1111/j.1442-9071.1990.tb00625.x. PMID 2261178. 
  3. Miyasaka, Jordan Da Silva; Vieira, Raphael V. Gonzaga; Novalo-Goto, Elaine Shizue; Montagna, Erik; Wajnsztejn, Rubens (March 2019). "Irlen syndrome: systematic review and level of evidence analysis". Arquivos de Neuro-Psiquiatria 77 (3): 194–207. doi:10.1590/0004-282X20190014. PMID 30970133. 
  4. 4.0 4.1 Riddell, P.M.; Wilkins, A.; Hainline, L. (2006). "The effect of colored lenses on the visual evoked response in children with visual stress.". Optom Vis Sci 83 (5): 299–305. doi:10.1097/01.opx.0000216125.83236.af. PMID 16699442. 
  5. Chouinard, B.D.; Zhou, C.I.; Hrybousky, S.; Kim, E.S.; Cummine, J. (2012). "A functional neuroimaging case study of Meares-Irlen syndrome/visual stress (MISViS)". Brain Topography 25 (3): 293–307. doi:10.1007/s10548-011-0212-z. PMID 22124535. 
  6. 6.0 6.1 "Irlen colored overlays do not alleviate reading difficulties". Pediatrics 128 (4): e932–8. October 2011. doi:10.1542/peds.2011-0314. PMID 21930551. http://pediatrics.aappublications.org/content/128/4/e932.full.pdf+html?sid=82d7d5e2-781c-4be5-b436-fd13cf352531. 
  7. Huang, J.; Zong, X.; Wilkins, A.; Jenkins, B.; Bozoki, A.; Cao, Y. (2011). "fMRI evidence that precision opthalmic tints reduce cortical hyperactivation in migraine.". Cephalalgia 31 (8): 925–36. doi:10.1177/0333102411409076. PMID 21622479. 
  8. Barbolini, G.; Lazzerini, A.; Pini, L.A.; Steiner, F.; Del Vecchio, G.; Migaldi, M.; Cavalllini, G.M. (2009). "Malfunctioning cones and remedial tinted filters.". Ophta 2 (209): 101–105. 
  9. Chronicle, E.P.; Wilkins, A. (1991). "Colour and visual discomfort in migraineurs.". The Lancet 338 (8771): 890. doi:10.1016/0140-6736(91)91549-A. PMID 1681246. 
  10. Bouldoukian, J.; Wilkins, A.; Evans, B.J.W. (2002). "Randomised controlled trial of the effect of coloured overlays on the rate of reading of people with specific learning difficulties.". Ophthalmological and Physiological Optics 22 (1): 55–60. doi:10.1046/j.1475-1313.2002.00002.x. PMID 11829008. 
  11. Kim, J. H.; Seo, H. J.; Ha, S. G.; Kim, S. H. (2015). "Functional Magnetic Resonance Imaging Findings in Meares-Irlen Syndrome: A Pilot Study.". Korean Journal of Ophthalmology 29 (2): 121–125. doi:10.3341/kjo.2015.29.2.121. PMID 25829829. 
  12. Noble, J.; Orton, M.; Irlen, S.; Robinson, G. (2004). "A controlled field study of the use of colored overlays on reading achievement.". Australian Journal of Learning Disabilities 9 (2): 14–22. doi:10.1080/19404150409546760. 
  13. Park, S.H.; Kim, S.; Cho, Y.A.; Joo, C. (2012). "The Effect of Colored Filters in Patients with Meares-Irlen Syndrome.". J Korean Ophthalmol Soc. 53 (3): 452–459. doi:10.3341/jkos.2012.53.3.452. 
  14. Robinson, G. L.; Foreman, P. J. (1999). "A long-term placebo controlled and masked study of reading achievement and perception of ability.". Perceptual and Motor Skills 89 (1): 83–113. doi:10.2466/pms.1999.89.1.83. PMID 10544403. 
  15. Wilkins, A.J.; Evans, B.J.W.; Brown, J.A.; Busby, A.E.; Wingfield, A.E.; Jeanes, R.J.; Bald, J. (1994). "Double-masked placebo-controlled trial of precision spectral filters in children who use colored overlays.". Ophthalmological & Physiological Optics 14 (4): 365–370. doi:10.1111/j.1475-1313.1994.tb00126.x. 
  16. Irlen, H.; Robinson, G. (1996). "The effect of Irlen coloured filters on adult perception of workplace performance: a preliminary survey.". Australian Journal of Remedial Education 1: 7–17. 
  17. Guimarães, M. R.; Vilhena, D. D. A.; Loew, S. J.; Guimarães, R. Q. (2019). "Spectral Overlays for Reading Difficulties: Oculomotor Function and Reading Efficiency Among Children and Adolescents With Visual Stress.". Perceptual and Motor Skills 127 (2): 490–509. doi:10.1177/0031512519889772. PMID 31766945. 
  18. de Araújo Vilhena, D.; Guimarães, M.R.; Guimarães, R.Q. (2019). "Improved reading performance using spectral slides: systematic review and meta-analysis.". Psychology Argument 36 (93): 343–361. 
  19. American Academy Of Pediatrics, Section on Ophthalmology; American Academy of Ophthalmology; American Association for Pediatric Ophthalmology Strabismus; American Association of Certified Orthoptists (August 2009). "Joint statement—Learning disabilities, dyslexia, and vision". Pediatrics 124 (2): 837–44. doi:10.1542/peds.2009-1445. PMID 19651597. http://pediatrics.aappublications.org/content/124/2/837.full.pdf. 
  20. "Irlen Syndrome | Science-Based Medicine". 7 August 2013. https://sciencebasedmedicine.org/irlen-syndrome/. 
  21. Loew, S.J.; Watson, K. (2012). "A prospective genetic marker of the visual perception disorder Meares–Irlen syndrome.". Perceptual and Motor Skills 114 (3): 870–882. doi:10.2466/24.10.11.27.PMS.114.3.870-882. PMID 22913027. 
  22. Robinson, G.L.; Foreman, P.J.; Dear, K.G.B. (2000). "The familial incidence of symptoms of Scotopic sensitivity/Irlen syndrome: comparison of referred and mass-screened groups.". Perceptual and Motor Skills 91 (3 Pt 1): 707–724. doi:10.2466/pms.2000.91.3.707. PMID 11153837. 
  23. Soares, FA; Gontijo, LS (2018). "Knowledge production: genetic, biochemical and immunological bases of the Meares-Irlen syndrome.". Brazilian Journal of Ophthalmology 75 (5): 412–415. 
  24. Chouinard, B.D.; Zhou, C.l.; Hrybousky, S.; Kim, E.S.; Cummine, J. (2012). "A functional neuroimaging case study of Meares-Irlen syndrome/visual stress (MISViS).". Brain Topography 25 (3): 293–307. doi:10.1007/s10548-011-0212-z. PMID 22124535. 
  25. Irlen, HL. "Scotopic sensitivity? Irlen syndrome: hypothesis and explanation of the syndrome". Journal of Behavioral Optometry 5 (62): 65–66. 
  26. "Association Founder". http://www.aaic.org.au/Founder_OV.htm. 
  27. "Conference Papers". http://www.aaic.org.au/Conference_Papers.htm. 
  28. Huang, J.; Zong, X.; Wilkins, A.; Jenkins, B.; Bozoki, A.; Cao, Y. (2011). "fMRI evidence that precision opthalmic tints reduce cortical hyperactivation in migraine.". Cephalalgia 31 (8): 925–936. doi:10.1177/0333102411409076. PMID 21622479. 
  29. Ludlow, A. K.; Giannadou, A.; Franklin, A.; Allen, P.M.; Simmons, D.R.; Wilkins, A. (2020). "The possible use of precision tinted lenses to improve social cognition in children with Autism Spectrum Disorders.". Vision Research 170: 53–59. doi:10.1016/j.visres.2020.03.007. PMID 32259647. 
  30. Loew, S. J.; Watson, K. (2013). "The prevalence of symptoms of scotopic sensitivity/Meares-Irlen syndrome in subjects diagnosed with ADHD: Does misdiagnosis play a significant role?". Croatian Review of Rehabilitation Research 49: 64–72. 
  31. Tosta, S.; Anderson, A. (2019). "Precision-Tinted Spectral Filters Reduce TBI-Related Migraines and Visual Cortical Sensitivity.". Brain Injury 33: 162. 
  32. "Society for Coloured Lens Prescribers". http://www.s4clp.org/. 
  33. "The University of Newcastle, Australia". 13 November 2015. https://www.newcastle.edu.au/. 

Further reading