Caracterización y manejo de una disfunción oculomotoraa propósito de un caso
- Carmen Bilbao Porta 1
- David p. Piñero Llorens 1
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1
Universitat d'Alacant
info
ISSN: 2173-9366
Año de publicación: 2020
Número: 561
Páginas: 40-51
Tipo: Artículo
Otras publicaciones en: Gaceta de optometría y óptica oftálmica
Resumen
Un niño de 11 años derivado de la Unidad Infantil por pérdidas de fijación en la lectura, saltos de línea, un control anómalo de los saltos de palabra, lectura lenta y dolores de cabeza al final del día, para una valoración de la visión binocular acomodativa y oculomotora. Tras esta valoración se encuentra una disfunción oculomotora y se procede a evaluar y hacer el seguimiento mediante Eye Tracking y el software Clinical Eye Tracker que permite analizar la oculomotricidad en lectura y mediante estímulos visuales determinados y programados previamente. En este caso se analiza la eficacia de la subjetividad en las diferentes pruebas que valoran la oculomotricidad
Referencias bibliográficas
- Reingold EM, Stampe DM. Saccadic inhibition in voluntary and reflexive saccades. J Cogn Neurosci 2002; 14: 371-88.
- Heick J, Bay C, McLeod TV. Evaluation of vertical and horizontal saccades using the developmental eye movement test compared to the king-devick test. Int J Sports Phys Ther 2018; 13: 808-18.
- Khan MQ, Sukhan L. Gaze and eye tracking: techniques and applications in ADAS. Sensor (Basel) 2019; 19: 5540.
- Bilbao C, Piñero DP. Diagnosis of oculomotor anomalies in children with learning disorders. Clin Exp Optom 2019 Dec 23. doi: 10.1111/cxo.13024. Online ahead of print.
- van Renswoude DR, Raijmakers MEJ, Koornneef A, Johnson SP, Hunnius S, Visser I. Gazepath: An eye-tracking analysis tool that accounts for individual differences and data quality. Behav Res Methods 2018; 50:834-52.
- Jafarlou F, Jarollahi F, Ahadi M, Sadeghi-Firoozabadi V, Haghani H. Oculomotor rehabilitation in children with dyslexia. Med J Islam Repub Iran 2017; 31: 125.
- Blignaut P, van Rensburg EJ, Oberholzer M. Visualization and quantification of eye tracking data for the evaluation of oculomotor function. Heliyon 2019; 5: e01127.
- Nilsson Benfatto M, Öqvist Seimyr G, Ygge J, Pansell T, Rydberg A, Jacobson C. Screening for dyslexia using eye tracking during reading. PLoS One 2016; 11: e0165508.
- Hessels RS, Hooge ITC. Eye tracking in developmental cognitive neuroscience - The good, the bad and the ugly. Dev Cogn Neurosci 2019; 40: 100710.
- Heick JD, Bay C, Valovich McLeod TC. Evaluation of vertical and horizontal saccades using the Developmental Eye Movement test compared to the King-Devick test. Int J Sports Phys Ther 2018; 13: 808-18.
- Moiroud L, Gerard CL, Peyre H, Bucci MP. Developmental Eye Movement test and dyslexic children: a pilot study with eye movement recordings. PLoS One 2018; 13:e0200907.
- Niehorster DC, Cornelissen THW, Holmqvist K, Hooge ITC, Hessels RS. What to expect from your remote eye-tracker when participants are unrestrained. Behav Res Methods 2018; 50: 213-27.
- Gibaldi A, Vanegas M, Bex PJ, Maiello G. Evaluation of the Tobii EyeX Eye tracking controller and Matlab toolkit for research. Behav Res Methods 2017; 49: 923-46.
- Walline JJ, Mutti DO, Zadnik, Jones LA. Development of phoria in children. Optom Vis Sci 1998; 75: 605-10.
- Jiménez R, Pérez MA, García JA, González MD. Statistical normal values of visual parameters that characterize binocular function in children. Ophthalmic Physiol Opt 2004; 24: 528‐42.
- Antona B, Barrio A, Barra F, Gonzalez E, Sanchez I. Repeatability and agreement in the measurement of horizontal fusional vergences. Ophthalmic Physiol Opt 2008; 28: 475-91.
- Walker K, Redman-Bentley D, Remick-Waltman K, Armstrong DC. Differences in oculomotor function between children with sensory processing disorder and typical development. Optom Vis Sci 2019; 96: 172-9.
- Hashemi H, Saatchi M, Yekta A, Ali B, Ostadimoghaddam H, Nabovati P, Aghamirsalim M, Khabazkhoob M. High prevalence of asthenopia among a population of university students. J Ophthalmic Vis Res 2019; 14: 474-82.
- Abu KE, Ocansey S, Yennu J, ASirifi I, Marfo R. Comparing different methods of measuring accommodative amplitude with Hofstetter’s normative values in a Ghanaian population. Curr Eye Res 2018; 43: 1145-50.
- Scheiman M, Wick B. Clinical management of binocular vision-heterophoric, accommodative, and eye movement disorders. Philadelphia, PA: Lippincott; 1994.
- Niehorster DC, Siu WW, Li L. Manual tracking enhances smooth pursuit eye movements. J Vis 2015; 15: 11.
- Yokoi K, Tomita T, Saida S. Improvement of Reading Speed and Eye Movements. Iperception 2011; 2: 263.
- Shandiz JH, Riazi A, Khorasani AA, Yazdani N, Torab Mostaedi M, Zohourian B. Impact of vision therapy on eyehand coordination skills in students with visual impairment. J Ophthalmic Vis Res 2018; 13: 301-6.
- Raghuram A, Gowrisankaran S, Swanson E, Zurakowski D, Hunter DG, Waber DP. Frequency of Visual Deficits in Children With Developmental Dyslexia. JAMA Ophthalmol 2018; 136: 1089-95.
- Coetzee D, Pienaar AE. The effect of visual therapy on the ocular motor control of seven- to eight-year-old children with Developmental Coordination Disorder (DCD). Res Des Disabil 2013; 34: 4073-84.
- Russell-Giller S, Toto D, Heitzman M, Naematullah M,Shumko J. Correlating the King-Devick test with vestibular/ ocular motor screening in adolescent patients with concussion: a pilot study. Sports Health 2018; 10: 334-9.
- Galetta KM, Liu M, Leong DF, Ventura RE, Galetta SL, Balcer L. The King-Devick test of rapid number naming for concussion detection: meta-analysis and systematic review of the literature. Conclussion 2015; 1(2): CNC8.
- Moiroud L, Gerard CL, Peyre H, Bucci MP. Developmental Eye Movement test and dyslexic children: a pilot study with eye movement recordings. PLoS One 2018; 13: e0200907.
- Al-Rahayfeh A, Faezipour M. Eye Tracking and Head Movement Detection: A State-of-Art Survey. IEEE J Transl Eng Health Med. 2013 Nov 6;1:2100212. doi: 10.1109/JTEHM.2013.2289879. PMID: 27170851; PMCID: PMC4839304.