Benzalkonium Chloride-Preserved Anti-Glaucomatous Eye Drops and Their Effect on Human Conjunctival Goblet Cells in vitro

Department of Drug Design and Pharmacology

Benzalkonium Chloride-Preserved Anti-Glaucomatous Eye Drops and Their Effect on Human Conjunctival Goblet Cells in vitro

Research output: Contribution to journal › Journal article › Research › peer-review

Standard

Benzalkonium Chloride-Preserved Anti-Glaucomatous Eye Drops and Their Effect on Human Conjunctival Goblet Cells in vitro. / Hedengran, Anne; Begun, Xenia; Müllertz, Olivia; Mouhammad, Zaynab; Vohra, Rupali; Bair, Jeffrey; Dartt, Darlene A; Cvenkel, Barbara; Heegaard, Steffen; Petrovski, Goran; Kolko, Miriam.

In: Biomedicine Hub, Vol. 6, No. 2, 2021, p. 69-75.

Research output: Contribution to journal › Journal article › Research › peer-review

Harvard

Hedengran, A, Begun, X, Müllertz, O, Mouhammad, Z, Vohra, R, Bair, J, Dartt, DA, Cvenkel, B, Heegaard, S, Petrovski, G & Kolko, M 2021, 'Benzalkonium Chloride-Preserved Anti-Glaucomatous Eye Drops and Their Effect on Human Conjunctival Goblet Cells in vitro', Biomedicine Hub, vol. 6, no. 2, pp. 69-75. https://doi.org/10.1159/000517845

APA

Hedengran, A., Begun, X., Müllertz, O., Mouhammad, Z., Vohra, R., Bair, J., Dartt, D. A., Cvenkel, B., Heegaard, S., Petrovski, G., & Kolko, M. (2021). Benzalkonium Chloride-Preserved Anti-Glaucomatous Eye Drops and Their Effect on Human Conjunctival Goblet Cells in vitro. Biomedicine Hub, 6(2), 69-75. https://doi.org/10.1159/000517845

Vancouver

Hedengran A, Begun X, Müllertz O, Mouhammad Z, Vohra R, Bair J et al. Benzalkonium Chloride-Preserved Anti-Glaucomatous Eye Drops and Their Effect on Human Conjunctival Goblet Cells in vitro. Biomedicine Hub. 2021;6(2):69-75. https://doi.org/10.1159/000517845

Author

Hedengran, Anne ; Begun, Xenia ; Müllertz, Olivia ; Mouhammad, Zaynab ; Vohra, Rupali ; Bair, Jeffrey ; Dartt, Darlene A ; Cvenkel, Barbara ; Heegaard, Steffen ; Petrovski, Goran ; Kolko, Miriam. / Benzalkonium Chloride-Preserved Anti-Glaucomatous Eye Drops and Their Effect on Human Conjunctival Goblet Cells in vitro. In: Biomedicine Hub. 2021 ; Vol. 6, No. 2. pp. 69-75.

Bibtex

@article{9a421bd60c7544708d33540fed9c4443,

title = "Benzalkonium Chloride-Preserved Anti-Glaucomatous Eye Drops and Their Effect on Human Conjunctival Goblet Cells in vitro",

abstract = "Introduction: Most intraocular pressure (IOP)-lowering eye drops are preserved with benzalkonium chloride (BAK). This can increase side effects and decrease adherence. Particularly, damage to the mucin-producing conjunctival goblet cells may be an issue due to instability of the tear film. We aimed to investigate the effect of IOP-lowering eye drops preserved with BAK on cultured human conjunctival goblet cells.Methods: Eye drops Brimonidine Tartrate Teva (BT) with 0.005% BAK, Dorzolamide Stada (DS) with 0.0075% BAK, Optimol{\textregistered} (OP) with 0.01% BAK, and Latanoprost Teva (LT) with 0.02% BAK were included. Human primary cultured goblet cell survival was evaluated using a lactate dehydrogenase assay on human goblet cells after treatment for 30 min and 6 h with the different anti-glaucoma drug formulations.Results: All eye drops examined, except BT, reduced goblet cell survival. The impact of eye drops on goblet cell viability was correlated with the time of exposure as well as to the concentration of BAK. After 30 min of exposure, cell viability was 93% for BT (0.005% BAK; p = 0.93), 71% for DS (0.0075% BAK; p = 0.067), 70% for OP (0.01% BAK; p = 0.054), and 69% for LT (0.02% BAK; p = 0.022), and exposure for 6 h reduced cell survival to 74% for BT (p = 0.217), 52% for DS (p = 0.011), 34% for OP (p = 0.017), and 31% for LT (p = 0.0007).Conclusion: LT, OP, and DS reduced human goblet cell survival in a time-dependent manner. BT did not affect goblet cell survival. Cell survival was correlated with the BAK concentration in the eye drops making 0.02% BAK-preserved LT most toxic and 0.005% BAK-preserved BT least toxic. Based on the present study, decreasing BAK in eye drops for chronic use seems important to reduce damage to the goblet cells. However, future studies are needed to further explore this finding.",

author = "Anne Hedengran and Xenia Begun and Olivia M{\"u}llertz and Zaynab Mouhammad and Rupali Vohra and Jeffrey Bair and Dartt, {Darlene A} and Barbara Cvenkel and Steffen Heegaard and Goran Petrovski and Miriam Kolko",

note = "Copyright {\textcopyright} 2021 by S. Karger AG, Basel.",

year = "2021",

doi = "10.1159/000517845",

language = "English",

volume = "6",

pages = "69--75",

journal = "Biomedicine Hub",

issn = "2296-6870",

publisher = "S Karger AG",

number = "2",

}

RIS

TY - JOUR

T1 - Benzalkonium Chloride-Preserved Anti-Glaucomatous Eye Drops and Their Effect on Human Conjunctival Goblet Cells in vitro

AU - Hedengran, Anne

AU - Begun, Xenia

AU - Müllertz, Olivia

AU - Mouhammad, Zaynab

AU - Vohra, Rupali

AU - Bair, Jeffrey

AU - Dartt, Darlene A

AU - Cvenkel, Barbara

AU - Heegaard, Steffen

AU - Petrovski, Goran

AU - Kolko, Miriam

PY - 2021

Y1 - 2021

N2 - Introduction: Most intraocular pressure (IOP)-lowering eye drops are preserved with benzalkonium chloride (BAK). This can increase side effects and decrease adherence. Particularly, damage to the mucin-producing conjunctival goblet cells may be an issue due to instability of the tear film. We aimed to investigate the effect of IOP-lowering eye drops preserved with BAK on cultured human conjunctival goblet cells.Methods: Eye drops Brimonidine Tartrate Teva (BT) with 0.005% BAK, Dorzolamide Stada (DS) with 0.0075% BAK, Optimol® (OP) with 0.01% BAK, and Latanoprost Teva (LT) with 0.02% BAK were included. Human primary cultured goblet cell survival was evaluated using a lactate dehydrogenase assay on human goblet cells after treatment for 30 min and 6 h with the different anti-glaucoma drug formulations.Results: All eye drops examined, except BT, reduced goblet cell survival. The impact of eye drops on goblet cell viability was correlated with the time of exposure as well as to the concentration of BAK. After 30 min of exposure, cell viability was 93% for BT (0.005% BAK; p = 0.93), 71% for DS (0.0075% BAK; p = 0.067), 70% for OP (0.01% BAK; p = 0.054), and 69% for LT (0.02% BAK; p = 0.022), and exposure for 6 h reduced cell survival to 74% for BT (p = 0.217), 52% for DS (p = 0.011), 34% for OP (p = 0.017), and 31% for LT (p = 0.0007).Conclusion: LT, OP, and DS reduced human goblet cell survival in a time-dependent manner. BT did not affect goblet cell survival. Cell survival was correlated with the BAK concentration in the eye drops making 0.02% BAK-preserved LT most toxic and 0.005% BAK-preserved BT least toxic. Based on the present study, decreasing BAK in eye drops for chronic use seems important to reduce damage to the goblet cells. However, future studies are needed to further explore this finding.

AB - Introduction: Most intraocular pressure (IOP)-lowering eye drops are preserved with benzalkonium chloride (BAK). This can increase side effects and decrease adherence. Particularly, damage to the mucin-producing conjunctival goblet cells may be an issue due to instability of the tear film. We aimed to investigate the effect of IOP-lowering eye drops preserved with BAK on cultured human conjunctival goblet cells.Methods: Eye drops Brimonidine Tartrate Teva (BT) with 0.005% BAK, Dorzolamide Stada (DS) with 0.0075% BAK, Optimol® (OP) with 0.01% BAK, and Latanoprost Teva (LT) with 0.02% BAK were included. Human primary cultured goblet cell survival was evaluated using a lactate dehydrogenase assay on human goblet cells after treatment for 30 min and 6 h with the different anti-glaucoma drug formulations.Results: All eye drops examined, except BT, reduced goblet cell survival. The impact of eye drops on goblet cell viability was correlated with the time of exposure as well as to the concentration of BAK. After 30 min of exposure, cell viability was 93% for BT (0.005% BAK; p = 0.93), 71% for DS (0.0075% BAK; p = 0.067), 70% for OP (0.01% BAK; p = 0.054), and 69% for LT (0.02% BAK; p = 0.022), and exposure for 6 h reduced cell survival to 74% for BT (p = 0.217), 52% for DS (p = 0.011), 34% for OP (p = 0.017), and 31% for LT (p = 0.0007).Conclusion: LT, OP, and DS reduced human goblet cell survival in a time-dependent manner. BT did not affect goblet cell survival. Cell survival was correlated with the BAK concentration in the eye drops making 0.02% BAK-preserved LT most toxic and 0.005% BAK-preserved BT least toxic. Based on the present study, decreasing BAK in eye drops for chronic use seems important to reduce damage to the goblet cells. However, future studies are needed to further explore this finding.

U2 - 10.1159/000517845

DO - 10.1159/000517845

M3 - Journal article

C2 - 34616748

VL - 6

SP - 69

EP - 75

JO - Biomedicine Hub

JF - Biomedicine Hub

SN - 2296-6870

IS - 2

ER -

ID: 283022200