Effect of Incomplete Blinking on Tear Film Stability

Purpose The purpose of this study is to assess changes in tear film stability caused by incomplete blinking. Methods Eleven subjects (mean age, 21.3 years) participated in this study. All subjects had a visual acuity of 20/20 or better and normal ocular health. The subjects were asked to play a game for 60 min on a personal computer as part of a visual display terminal (VDT) experiment. Each subject’s blinking was observed by a Web camera that was attached to the top of the display. Every 15 min, the VDT experiment was interrupted for measurement. An RT-7000 (Tomey Co., Ltd., Nagoya, Japan) was used to measure ring breakup time as a parameter of tear film stability. An OPD-Scan II ARK-10000 (NIDEK Co., Ltd., Aichi, Japan) was used to measure corneal aberrations. Results Although the total blink rate changed very little, the complete and incomplete blink rates fluctuated during the VDT experiment. Both types were plotted along symmetrical cubic approximation curves. Noninvasive (ring) breakup time at 30 min (4.33 ± 2.57 s) was significantly shorter (p < 0.01) than that at baseline before the VDT experiment (8.62 ± 1.54 s). After 30 min, the incomplete blink rate began decreasing (fewer incomplete blinks), whereas the complete blink rate began increasing. Ring breakup time increased (improved) after 45 min; however, the incomplete blink rate began to increase again after approximately 50 min. Conclusions Even if the total blink rate decreases, the tear film remains stable so long as almost all blinks are complete. The incomplete blinking contributes to tear film instability and is variable with prolonged VDT exposure. Our study indicated that the tear film stability was determined by blinking quality, and the predominance of blinking type relates to tear film stability.

[1]  Murat Dogru,et al.  Prevalence of dry eye disease among Japanese visual display terminal users. , 2008, Ophthalmology.

[2]  William M. Lyle,et al.  Borish???s Clinical Refraction , 1999 .

[3]  Yukihiro Matsumoto,et al.  A new noninvasive tear stability analysis system for the assessment of dry eyes. , 2004, Investigative ophthalmology & visual science.

[4]  T. Schlote,et al.  Marked reduction and distinct patterns of eye blinking in patients with moderately dry eyes during video display terminal use , 2004, Graefe's Archive for Clinical and Experimental Ophthalmology.

[5]  Christophe Baudouin,et al.  Tear film aberration dynamics and vision-related quality of life in patients with dry eye disease. , 2012, Ophthalmology.

[6]  M. Lucarelli,et al.  Functions of the Orbit and Eyelids , 2011 .

[7]  Xiaodong Zheng,et al.  A new method for tear film stability analysis using videokeratography. , 2003, American journal of ophthalmology.

[8]  R. W. Jones The International Telecommunication Union , 1997 .

[9]  W. Charman,et al.  Postblink changes in total and corneal ocular aberrations. , 2004, Ophthalmology.

[10]  P Wolkoff,et al.  The modern office environment desiccates the eyes? , 2006, Indoor air.

[11]  M. Lemp Report of the National Eye Institute/Industry workshop on Clinical Trials in Dry Eyes. , 1995, The CLAO journal : official publication of the Contact Lens Association of Ophthalmologists, Inc.

[12]  D. Dartt Formation and Function of the Tear Film , 2011 .

[13]  Arthur Bradley,et al.  Blinking and Tear Break-Up During Four Visual Tasks , 2009, Optometry and vision science : official publication of the American Academy of Optometry.

[14]  Haruyoshi Toyoda,et al.  [Measurement of spontaneous blinks with a high-speed blink analyzing system]. , 2008, Nippon Ganka Gakkai zasshi.

[15]  M Al-Abdulmunem,et al.  Relation between tear breakup time and spontaneous blink rate. , 1999, International contact lens clinic.

[16]  C. Evinger,et al.  Aging of the trigeminal blink system , 2001, Experimental Brain Research.

[17]  K. Nakamori,et al.  Blinking is controlled primarily by ocular surface conditions. , 1997, American journal of ophthalmology.

[18]  A J Bron,et al.  Functional aspects of the tear film lipid layer. , 2004, Experimental eye research.

[19]  C. Evinger,et al.  Eyelid movements. Mechanisms and normal data. , 1991, Investigative ophthalmology & visual science.

[20]  F Ziemssen,et al.  [Blinking activity during visual display terminal work. 2: reduced blinking and therapeutic approaches]. , 2005, Der Ophthalmologe : Zeitschrift der Deutschen Ophthalmologischen Gesellschaft.

[21]  K. Tsubota,et al.  Dry eyes and video display terminals. , 1993, The New England journal of medicine.

[22]  F. Hendrikse,et al.  Eyeblink Frequency and Type in Relation to 3- and 9-O’Clock Staining and Gas Permeable Contact Lens Variables , 2008, Optometry and vision science : official publication of the American Academy of Optometry.

[23]  Meritxell Vilaseca,et al.  Blink Rate, Blink Amplitude, and Tear Film Integrity during Dynamic Visual Display Terminal Tasks , 2011, Current eye research.

[24]  M. Doughty Consideration of Three Types of Spontaneous Eyeblink Activity in Normal Humans: during Reading and Video Display Terminal Use, in Primary Gaze, and while in Conversation , 2001, Optometry and vision science : official publication of the American Academy of Optometry.

[25]  J. W. Warnicki,et al.  Corneal Topography , 1992, Springer New York.

[26]  D R Korb,et al.  Tear Film Lipid Layer Thickness as a Function of Blinking , 1994, Cornea.

[27]  Takashi Fujikado,et al.  Serial measurements of higher-order aberrations after blinking in patients with dry eye. , 2008, Investigative ophthalmology & visual science.

[28]  Peder Wolkoff,et al.  The effect on human eye blink frequency of exposure to limonene oxidation products and methacrolein. , 2005, Toxicology letters.

[29]  Robert Montés-Micó,et al.  Dynamic changes in the tear film in dry eyes. , 2005, Investigative ophthalmology & visual science.

[30]  James P McCulley,et al.  Meibomian gland function and the tear lipid layer. , 2003, The ocular surface.

[31]  J. Kleinman,et al.  Speaking, thinking, and blinking , 1981, Psychiatry Research.