Role of Hyperosmolarity in the Pathogenesis and Management of Dry Eye Disease: Proceedings of the OCEAN Group Meeting

Role of Hyperosmolarity in the Pathogenesis and Management of Dry Eye Disease: Proceedings of the OCEAN Group Meeting

Abstract Dry eye disease (DED), a multifactorial disease of the tears and ocular surface, is common and has a significant impact on quality of life. Reduced aqueous tear flow and/or increased evaporation of the aqueous tear phase leads to tear hyperosmolarity, a key step in the vicious circle of DED...

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Veröffentlicht in:The ocular surface 2013-10, Vol.11 (4), p.246-258
Hauptverfasser: Baudouin, Christophe, MD, PhD, Aragona, Pasquale, MD, PhD, Messmer, Elisabeth M., MD, PhD, FEBO, Tomlinson, Alan, PhD, DSc, FCOptom, Calonge, Margarita, MD, PhD, Boboridis, Kostas G., MD, PhD, FEBO, Akova, Yonca A., MD, Geerling, Gerd, MD, PhD, FEBO, Labetoulle, Marc, MD, PhD, Rolando, Maurizio, MD
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Sprache:eng
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compatible solutes
dry eye disease
Dry Eye Syndromes - etiology
Dry Eye Syndromes - physiopathology
Dry Eye Syndromes - therapy
erythritol
Goblet Cells - metabolism
Goblet Cells - pathology
Humans
L-carnitine
Ophthalmology
Osmolar Concentration
osmoprotection
osmoregulation
Osmoregulation - physiology
tear film instability
tear hyperosmolarity
Tears - physiology
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container_end_page 258
container_issue 4
container_start_page 246
container_title The ocular surface
container_volume 11
creator Baudouin, Christophe, MD, PhD
Aragona, Pasquale, MD, PhD
Messmer, Elisabeth M., MD, PhD, FEBO
Tomlinson, Alan, PhD, DSc, FCOptom
Calonge, Margarita, MD, PhD
Boboridis, Kostas G., MD, PhD, FEBO
Akova, Yonca A., MD
Geerling, Gerd, MD, PhD, FEBO
Labetoulle, Marc, MD, PhD
Rolando, Maurizio, MD
description Abstract Dry eye disease (DED), a multifactorial disease of the tears and ocular surface, is common and has a significant impact on quality of life. Reduced aqueous tear flow and/or increased evaporation of the aqueous tear phase leads to tear hyperosmolarity, a key step in the vicious circle of DED pathology. Tear hyperosmolarity gives rise to morphological changes such as apoptosis of cells of the conjunctiva and cornea, and triggers inflammatory cascades that contribute to further cell death, including loss of mucin-producing goblet cells. This exacerbates tear film instability and drives the cycle of events that perpetuate the condition. Traditional approaches to counteracting tear hyperosmolarity in DED include use of hypotonic tear substitutes, which have relatively short persistence in the eye. More recent attempts to counteract tear hyperosmolarity in DED have included osmoprotectants, small organic molecules that are used in many cell types throughout the natural world to restore cell volume and stabilize protein function, allowing adaptation to hyperosmolarity. There is now an expanding pool of clinical data on the efficacy of DED therapies that include osmoprotectants such as erythritol, taurine, trehalose and L-carnitine. Osmoprotectants in DED may directly protect cells against hyperosmolarity and thereby promote exit from the vicious circle of DED physiopathology.
doi_str_mv 10.1016/j.jtos.2013.07.003
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Reduced aqueous tear flow and/or increased evaporation of the aqueous tear phase leads to tear hyperosmolarity, a key step in the vicious circle of DED pathology. Tear hyperosmolarity gives rise to morphological changes such as apoptosis of cells of the conjunctiva and cornea, and triggers inflammatory cascades that contribute to further cell death, including loss of mucin-producing goblet cells. This exacerbates tear film instability and drives the cycle of events that perpetuate the condition. Traditional approaches to counteracting tear hyperosmolarity in DED include use of hypotonic tear substitutes, which have relatively short persistence in the eye. More recent attempts to counteract tear hyperosmolarity in DED have included osmoprotectants, small organic molecules that are used in many cell types throughout the natural world to restore cell volume and stabilize protein function, allowing adaptation to hyperosmolarity. There is now an expanding pool of clinical data on the efficacy of DED therapies that include osmoprotectants such as erythritol, taurine, trehalose and L-carnitine. 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There is now an expanding pool of clinical data on the efficacy of DED therapies that include osmoprotectants such as erythritol, taurine, trehalose and L-carnitine. 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There is now an expanding pool of clinical data on the efficacy of DED therapies that include osmoprotectants such as erythritol, taurine, trehalose and L-carnitine. Osmoprotectants in DED may directly protect cells against hyperosmolarity and thereby promote exit from the vicious circle of DED physiopathology.</abstract><cop>United States</cop><pub>Elsevier Inc</pub><pmid>24112228</pmid><doi>10.1016/j.jtos.2013.07.003</doi><tpages>13</tpages><oa>free_for_read</oa></addata></record>
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subjects compatible solutes
dry eye disease
Dry Eye Syndromes - etiology
Dry Eye Syndromes - physiopathology
Dry Eye Syndromes - therapy
erythritol
Goblet Cells - metabolism
Goblet Cells - pathology
Humans
L-carnitine
Ophthalmology
Osmolar Concentration
osmoprotection
osmoregulation
Osmoregulation - physiology
tear film instability
tear hyperosmolarity
Tears - physiology
title Role of Hyperosmolarity in the Pathogenesis and Management of Dry Eye Disease: Proceedings of the OCEAN Group Meeting
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