2016, Number 4
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Medisur 2016; 14 (4)
Risk factors for eye diseases. Importance of prevention
Milanés AAR, Molina CK, Milanés MM, Ojeda LÁM, González DA
Language: Spanish
References: 33
Page: 421-429
PDF size: 233.18 Kb.
ABSTRACT
The increased incidence of eye diseases is
multifactorial in origin since risk factors related to
the individual, environment, and solar radiation
contribute to their development. The retina absorbs
millions of photons of ultraviolet and blue light,
which cause greater phototoxicity and irreversible
damage. It is essential to study the pathogenesis of
eye diseases and analyze the interaction of light
with the eyes in depth. Eye disease prevention
based on a personalized approach is critical to
provide correct information, contribute to
self-monitoring, and conduct a frequent medical
follow-up. Continuous development of technology in
the field of ophthalmic optics offers new
perspectives for prevention. The aim of this review is
to provide an update on this topic that can be used
for training medical students and primary care
physicians.
REFERENCES
Marshall J. La fototoxicidad: Comprender los riesgos para la vista. Points de Vue. 2014 ; 71: 10-4.
Barrau C, Cohen T, Villette T. Un nuevo reto científico: la prevención personalizada del riesgo. Points de Vue. 2014 ; 71: 15-22.
Kerkenezov N. A pterigium survery of the far north coast of New South Wales. Trans Ophthalmol Soc Aust. 1956 ; 16: 110-9.
Coroneo M. Ultraviolet radiation and the anterior eye. Eye Contact Lens. 2011 ; 37 (4): 214-24.
Noell WK, Walker VS, Kang BS, Berman S. Retinal damage by light in rats. Invest Ophthalmol. 1966 ; 5 (5): 450-73.
van Norren D, Gorgels TG. The action spectrum of photochemical damage to the retina: a Review of monochromatic threshold data. Photochem Photobiol. 2011 ; 87 (4): 747-53.
Davies S, Elliott MH, Floor E, Truscott TG, Zareba M, Sarna T, et al. Photocytotoxicity of lipofuscin in human retinal pigment epithelial cells. Free Radic Biol Med. 2001 ; 31 (2): 256-65.
Rozanowska M, Sarna T. Light- induced damage to the retina, role of rhodopsin chromophore revisited. Photochem Photobiol. 2005 ; 81 (6): 1305-30.
Fletcher AE, Bentham GC, Agnew M, Young IS, Augood C, Chakravarthy U, et al. Sunlight Exposure, Antioxidants, and Age-Related Macular Degeneration FREE. Ophthalmol. 2008 ; 126 (10): 1396-403.
Butt AL, Lee ET, Klein R, Russell D, Ogola G, Warn A, et al. Prevalence and risks factors of age –related macular degeneration in Oklahoma Indians: the Vision Keepers Study. Ophthalmology. 2011 ; 118 (7): 1380-5.
Kim SR, Nakanishi K, Itagaki Y, Sparrow JR. Photooxidation of A2- PE, a photoreceptor outer segment fluorope, and protection by lutein and zeaxanthin. Exp Eye Res. 2006 ; 82 (5): 828-39.
Boveris A, Navarro A. Brain mitocondrial dysfunction in again. IUBMB Life. 2008 ; 60 (5): 308-14.
Osborne NN, Kamalden TA, Majid AS, del Olmo Aguado S, Manso A. Light effects on mithochondrial photosensitizers in relation to retinal degeneration. Neurochem Res. 2010 ; 35 (12): 2027-34.
Andre B, Beckanhan R, Chou BR, Gutstein W, Sliney D, Thomas R, Tsubota K. ¿Qué papel deberia jugar la ciencia y/o la práctica clínica en la prevención de los problemas oculares causados por los rayos ultravioletas y la luz azul violeta?. Points de Vue. 2014 ; 71: 8-9.
Parker RL. Medicina aplicada a las lentes: La importancia del bloqueo de los rayos ultravioletas y la luz azul. Points de Vue. 2014 ; 71: 66-9.
Martinsons C. Health effects of LEDs and SSL. Sydney: SPARC; 2015.
Jaadane I, Boulenguez P, Chahory S, Carré S, Savoldelli M, Jonet L, et al. Retinal damage induced by commercial light emitting diodes (LEDs). Free Radical Biology and Medicine. 2015 ; 84: 373-84.
Behar-Cohen F, Martinsons C, Viénot F, Zissis G, Barlier-Salsi A, Cesarini JP, et al. Light-emitting diodes (LED) for domestic lighting: any risks for the eye?. Prog Retin Eye Res. 2011 ; 30 (4): 239-57.
Haimovici R, Owen SL, Fitzke FW, Bird AC. Dark adaptation in age-related macular degeneration: relationship to the fellow eye. Graefes Arch Clin Exp Ophthalmol. 2002 ; 240 (2): 90-5.
Berthemy S. Luz y patologías oculares: La prevención de riesgos en oftalmología. Points de Vue. 2014 ; 71: 30-2.
Oudghiri R. La prevención de la salud ocular en el mundo: costumbres y particularidades. Points de Vue. 2014 ; 71: 56-9.
Safady M. Prevención de las patologías oculares en oftalmología. Points de Vue. 2014 ; 71: 49-50.
Zagouri P, Green J. El bienestar del “ver bien”- ¿Por qué las mujeres y los mayores de 50 años se preocupan más por la salud de sus ojos?. Points de Vue. 2014 ; 71: 60-4.
Bouvier L. Proteger los ojos de los niños cada dia con Crizal R Prevencia R Version Junior. Points de Vue. 2014 ; 71: 70-6.
Sagnieres H. DMAE: Protocolo clínico, prevención y perspectivas. Points de Vue. 2014 ; 71: 33-8.
Crizal R Prevencia R:les premiers verres preventifs de port quotidian. Points de Vue. 2013 ; 69: 45-9.
Mainster MA. Violet and blue light blocking introcular lenses, photoprotection versus photoreception. Br J Ophthalmol. 2006 ; 90 (6): 784-92.
Age-Related Eye Disease Study 2(AREDS 2): Research Group. Secondary analyses of the effects of lutein/xeaxanthin on age- related macular degeneration progression: AREDS 2 report No.3. Jama Ophthalmol. 2014 ; 132 (2): 149-2.
Ministerio de Salud. Guía Clínica: Trauma ocular grave. Santiago: Minsal; 2009.
Cariello AJ, Moraes NS, Mitne S, Oita CS, Fontes BM, Melo LA. Epidemiological findings of ocular trauma in childhood. Arq Bras Oftalmol. 2007 ; 70 (2): 271-5.
Apjit K, Ajai A. Pediatric ocular trauma. Current Science. 2005 ; 89: 43-6.
Tariq Farooq B, Muhammad Tariq K, Mir Zaman M, Shafqat Ali S, Yasir M, Mohammad Daud K. Patterns of ocular trauma. JCPSP. 2007 ; 17: 148-53.
Sánchez R, Pivcevic D, León A, Ojeda M. Trauma ocular. Cuad. Cir. 2008 ; 22: 91-7.