Abstract
To implement an emerging noninvasive approach for assessing the dynamic tear film (TF) homeostasis.
The video records of dynamic TF from 12 healthy orthokeratology lens wearers were obtained by a clinically available TF analyzer and decomposed as image sequences. The trajectories of TF particles were analyzed by two tracking models, the full-span model (FSM) and the fixed-duration model (FDM). FSM tracked a particle for a complete opening blink cycle, while FDM tracked 1 second of the same cycle. A power-law fitting operation [Formula: see text] was used to extract homeostasis markers based on the tracking model for each subject.
Comparing two tracking models ( = 6), only one subject had statistical difference in averaged momentary moving speed (MMS; = 0.0488), while none had significant difference in averaged momentary moving direction (MMD). However, both models showed good correlations in average MMS (ρ = 0.94, = 0.0048) and MMD (ρ = 1.00, < 0.0001) and all extracted homeostasis markers [α, β, MMS(0.1), and MMS(2.0)]. Assessing interblink reliability in these markers under FDM tracking ( = 12), only one subject in the MMS (0.1) and another subject in the MMS (2.0) were outside 95% limits of agreement, respectively.
FDM is a good alternative to FSM and has tracking properties of higher efficiency and easier implementation. The homeostasis markers under FDM tracking showed a good interblink consistence; therefore this approach will be a promising method for analyzing dynamic TF homeostasis in future practice.
FDM analytical architecture can practice the past experimental platform on a TF analyzer to obtain homeostasis markers of TF.
Original language | American English |
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Pages (from-to) | 32 |
Journal | Translational vision science & technology |
Volume | 8 |
Issue number | 3 |
DOIs | |
State | Published - 2019 |