PURPOSE: To analyze the relationship between tear volume and tear film lipid layer (TFLL) spread. METHODS: Twenty-nine eyes from 22 subjects, including normal eyes and eyes with aqueous tear-deficient dry eye, were enrolled in this study. In all eyes, the radius of curvature (R: mm) of the central lower tear meniscus was measured with a video-meniscometer, and interference images from the TFLL were recorded with a video-interferometer. Interference images were captured as still images every 0.05 second, and the relationship between the acquisition time for each image after a blink and the averaged heights of the spreading TFLL in the upstroke of the blink were calculated. RESULTS: In all cases, the time-dependent changes in TFLL spread could be described by the expression H(t) - H(0) = rho[1 - exp(-t/lambda)], where H(t) is the averaged height in millimeters at time t, H(0) is the averaged height at t = 0, rho is a constant, t is time in seconds, and lambda is the characteristic time in seconds. A statistically significant correlation was found between those changes and the initial upward velocity of the spreading TFLL [H'(0) = dH(0)/dt] and R (r = 0.573; P = 0.003). CONCLUSIONS: This study demonstrated that the time-dependent changes of TFLL spread are compatible with the Voigt model of viscoelasticity and that the initial velocity of TFLL spread after a blink decreased in proportion to the decrease of tear volume. There is potential interest in using this parameter to diagnose and evaluate the severity of aqueous tear deficiency.
PURPOSE: To analyze the relationship between tear volume and tear film lipid layer (TFLL) spread. METHODS: Twenty-nine eyes from 22 subjects, including normal eyes and eyes with aqueous tear-deficient dry eye, were enrolled in this study. In all eyes, the radius of curvature (R: mm) of the central lower tear meniscus was measured with a video-meniscometer, and interference images from the TFLL were recorded with a video-interferometer. Interference images were captured as still images every 0.05 second, and the relationship between the acquisition time for each image after a blink and the averaged heights of the spreading TFLL in the upstroke of the blink were calculated. RESULTS: In all cases, the time-dependent changes in TFLL spread could be described by the expression H(t) - H(0) = rho[1 - exp(-t/lambda)], where H(t) is the averaged height in millimeters at time t, H(0) is the averaged height at t = 0, rho is a constant, t is time in seconds, and lambda is the characteristic time in seconds. A statistically significant correlation was found between those changes and the initial upward velocity of the spreading TFLL [H'(0) = dH(0)/dt] and R (r = 0.573; P = 0.003). CONCLUSIONS: This study demonstrated that the time-dependent changes of TFLL spread are compatible with the Voigt model of viscoelasticity and that the initial velocity of TFLL spread after a blink decreased in proportion to the decrease of tear volume. There is potential interest in using this parameter to diagnose and evaluate the severity of aqueous tear deficiency.
Authors: Alan Tomlinson; Anthony J Bron; Donald R Korb; Shiro Amano; Jerry R Paugh; E Ian Pearce; Richard Yee; Norihiko Yokoi; Reiko Arita; Murat Dogru Journal: Invest Ophthalmol Vis Sci Date: 2011-03-30 Impact factor: 4.799
Authors: Mark D P Willcox; Pablo Argüeso; Georgi A Georgiev; Juha M Holopainen; Gordon W Laurie; Tom J Millar; Eric B Papas; Jannick P Rolland; Tannin A Schmidt; Ulrike Stahl; Tatiana Suarez; Lakshman N Subbaraman; Omür Ö Uçakhan; Lyndon Jones Journal: Ocul Surf Date: 2017-07-20 Impact factor: 5.033
Authors: Mark S Milner; Kenneth A Beckman; Jodi I Luchs; Quentin B Allen; Richard M Awdeh; John Berdahl; Thomas S Boland; Carlos Buznego; Joseph P Gira; Damien F Goldberg; David Goldman; Raj K Goyal; Mitchell A Jackson; James Katz; Terry Kim; Parag A Majmudar; Ranjan P Malhotra; Marguerite B McDonald; Rajesh K Rajpal; Tal Raviv; Sheri Rowen; Neda Shamie; Jonathan D Solomon; Karl Stonecipher; Shachar Tauber; William Trattler; Keith A Walter; George O Waring; Robert J Weinstock; William F Wiley; Elizabeth Yeu Journal: Curr Opin Ophthalmol Date: 2017-01 Impact factor: 3.761
Authors: Danielle Leiske; Danielle L Leiske; Christopher Leiske; Christopher I Leiske; Daniel Leiske; Daniel R Leiske; Michael Toney; Michael F Toney; Michelle Senchyna; Howard Ketelson; Howard A Ketelson; David Meadows; David L Meadows; Gerald G Fuller Journal: Biophys J Date: 2012-01-18 Impact factor: 4.033
Authors: Sin Man Lam; Louis Tong; Bastien Reux; Xinrui Duan; Andrea Petznick; Siew Sian Yong; Cynthia Boo Shiao Khee; Martin J Lear; Markus R Wenk; Guanghou Shui Journal: J Lipid Res Date: 2013-11-28 Impact factor: 5.922