Doreen Schmidl1, Ahmed M Bata1, Stephan Szegedi1, Valentin Aranha Dos Santos2, Hannes Stegmann2, Klemens Fondi1, Sonja Krösser3, René M Werkmeister2, Leopold Schmetterer1,2,4,5,6, Gerhard Garhöfer1. 1. Department of Clinical Pharmacology and Medical University of Vienna, Vienna, Austria. 2. Center for Medical Physics and Biomedical Engineering, Medical University of Vienna, Vienna, Austria. 3. Department of Clinical Development, Novaliq GmbH, Heidelberg, Germany. 4. Singapore Eye Research Institute, Singapore, Singapore. 5. Lee Kong Chian School of Medicine, Nanyang Technological University, Singapore, Singapore. 6. Ophthalmology and Visual Sciences Academic Clinical Program, Duke-NUS Medical School, Singapore, Singapore.
Abstract
Purpose: The aim of this mechanistic clinical study was to explore the effect of water-free perfluorohexyloctane eye drops on tear film thickness (TFT) in patients with dry eye disease (DED). Methods:Forty-eight patients with mild to moderate DED participated in this randomized, single-masked, observer-blinded parallel group study in a 1:1 ratio to receive either perfluorohexyloctane or unpreserved 0.9% saline solution (Hydrabak®, Thea, France) eye drops 4 times daily in both eyes for 4 weeks. A custom-built ultrahigh-resolution optical coherence tomography system was used to measure TFT. Furthermore, evaluation of lipid layer thickness (LLT) and noninvasive tear film breakup time, as well as standard clinical tests for signs and symptoms of DED were performed. Results:Mean TFT and LLT at baseline were comparable between the 2 treatment groups. After a single drop instillation, perfluorohexyloctane eye drops temporarily increased TFT immediately. After multiple dosing, perfluorohexyloctane eye drops gradually increased TFT over time with a maximum effect at the end of the study (least square mean difference: 6.42%; P = 0.0142 at week 4). LLT values measured before drop instillation showed a more prominent increase in LLT for perfluorohexyloctane eye drops (13.36% ± 26.33% vs. 3.21% ± 28.65%). All other parameters got better in both treatment groups with no statistical difference between groups. Conclusions: These results demonstrate that perfluorohexyloctane eye drops increase TFT as well as LLT over time. These tear film reestablishing attributes are in line with the mode of action of perfluorohexyloctane eye drops to avoid evaporation through stabilization of the lipid layer.
RCT Entities:
Purpose: The aim of this mechanistic clinical study was to explore the effect of water-free perfluorohexyloctane eye drops on tear film thickness (TFT) in patients with dry eye disease (DED). Methods: Forty-eight patients with mild to moderate DED participated in this randomized, single-masked, observer-blinded parallel group study in a 1:1 ratio to receive either perfluorohexyloctane or unpreserved 0.9% saline solution (Hydrabak®, Thea, France) eye drops 4 times daily in both eyes for 4 weeks. A custom-built ultrahigh-resolution optical coherence tomography system was used to measure TFT. Furthermore, evaluation of lipid layer thickness (LLT) and noninvasive tear film breakup time, as well as standard clinical tests for signs and symptoms of DED were performed. Results: Mean TFT and LLT at baseline were comparable between the 2 treatment groups. After a single drop instillation, perfluorohexyloctane eye drops temporarily increased TFT immediately. After multiple dosing, perfluorohexyloctane eye drops gradually increased TFT over time with a maximum effect at the end of the study (least square mean difference: 6.42%; P = 0.0142 at week 4). LLT values measured before drop instillation showed a more prominent increase in LLT for perfluorohexyloctane eye drops (13.36% ± 26.33% vs. 3.21% ± 28.65%). All other parameters got better in both treatment groups with no statistical difference between groups. Conclusions: These results demonstrate that perfluorohexyloctane eye drops increase TFT as well as LLT over time. These tear film reestablishing attributes are in line with the mode of action of perfluorohexyloctane eye drops to avoid evaporation through stabilization of the lipid layer.