Efficacy and Tolerability of an Innovative Formulation of BAK-free Latanoprost

Study Description

Brief Summary

This study evaluates the efficacy and tolerability of a new formulation of latanoprost without Benzalkonium Chloride (BAK-free). Patients with open-angle glaucoma who were using BAK-containing latanoprost ophthalmic solution for ≥6 months, switched to BAK-free latanoprost ophthalmic emulsion.

Detailed Description

Latanoprost is a prostaglandin F2alfa analogue that increases the uveoscleral outflow of aqueous humor, resulting in a intraocular pressure (IOP) reduction. Benzalkonium chloride (BAK) is usually employed in formulations of prostaglandin analogues due to its dual action of preservative and adjuvant in the formulation. However, this preservative has known toxic effects on the ocular surface, causing ocular dryness and discomfort on long-term use. Benzalkonium Chloride-free (BAK-free)Latanoprost is a new formulation approved for the use in patients with primary open angle glaucoma /ocular hypertension. In this study, patients that were using BAK-containing latanoprost for ≥6 months, switched to a new formulation of BAK-free latanoprost ophthalmic emulsion to evaluate its hypotensive action and quantify the changes in ocular surface parameters.

Study Design

Outcome Measures

Primary Outcome Measures

1. Intraocular pressure [At the baseline (still on treatment with BAK-containing latanoprost)]

   Intraocular pressure (IOP) is the fluid pressure inside the eye. Tonometry is the method eye care professionals use to determine it. IOP is an important aspect in the evaluation of patients at risk from glaucoma. Most tonometers measure pressure in millimeters of mercury (mmHg).

2. Intraocular pressure [After 4 weeks of treatment with BAK-free latanoprost]

   Intraocular pressure (IOP) is the fluid pressure inside the eye. Tonometry is the method eye care professionals use to determine it. IOP is an important aspect in the evaluation of patients at risk from glaucoma. Most tonometers measure pressure in millimeters of mercury (mmHg).

3. Intraocular pressure [After 8 weeks of treatment with BAK-free latanoprost]

   Intraocular pressure (IOP) is the fluid pressure inside the eye. Tonometry is the method eye care professionals use to determine it. IOP is an important aspect in the evaluation of patients at risk from glaucoma. Most tonometers measure pressure in millimeters of mercury (mmHg).

4. Intraocular pressure [After 12 weeks of treatment with BAK-free latanoprost]

   Intraocular pressure (IOP) is the fluid pressure inside the eye. Tonometry is the method eye care professionals use to determine it. IOP is an important aspect in the evaluation of patients at risk from glaucoma. Most tonometers measure pressure in millimeters of mercury (mmHg).

Secondary Outcome Measures

1. Ocular Surface Disease Index (OSDI) [At the baseline (still on treatment with BAK-containing latanoprost)]

   The OSDI score is a valid and reliable instrument for measuring dry eye disease severity (normal, mild to moderate, and sever) and effect on vision related function. It is determined using OSDI questionnaire (score). The OSDI score is assessed on a scale of 0 to 100, with higher scores representing greater disability. The index demonstrates sensitivity and specificity in distinguishing between normal patients and patients with dry eye disease.

2. Ocular Surface Disease Index (OSDI) [After 4 weeks of treatment with BAK-free latanoprost]

   The OSDI score is a valid and reliable instrument for measuring dry eye disease severity (normal, mild to moderate, and sever) and effect on vision related function. It is determined using OSDI questionnaire (score). The OSDI score is assessed on a scale of 0 to 100, with higher scores representing greater disability. The index demonstrates sensitivity and specificity in distinguishing between normal patients and patients with dry eye disease.

3. Ocular Surface Disease Index (OSDI) [After 8 weeks of treatment with BAK-free latanoprost]

   The OSDI score is a valid and reliable instrument for measuring dry eye disease severity (normal, mild to moderate, and sever) and effect on vision related function. It is determined using OSDI questionnaire (score). The OSDI score is assessed on a scale of 0 to 100, with higher scores representing greater disability. The index demonstrates sensitivity and specificity in distinguishing between normal patients and patients with dry eye disease.

4. Ocular Surface Disease Index (OSDI) [After 12 weeks of treatment with BAK-free latanoprost]

   The OSDI score is a valid and reliable instrument for measuring dry eye disease severity (normal, mild to moderate, and sever) and effect on vision related function. It is determined using OSDI questionnaire (score). The OSDI score is assessed on a scale of 0 to 100, with higher scores representing greater disability. The index demonstrates sensitivity and specificity in distinguishing between normal patients and patients with dry eye disease.

5. Conjunctival hyperemia [At the baseline (still on treatment with BAK-containing latanoprost)]

   Patients on treatment with prostaglandin analogues preserved with BAK suffer from conjunctival hyperemia. It is the most common side effect that leads to discontinuation or non-compliance. It is determined with the slit lamp. It is classified as patients without hyperemia or with mild, moderate, or severe hyperemia.

6. Conjunctival hyperemia [After 4 weeks of treatment with BAK-free latanoprost]

   Patients on treatment with prostaglandin analogues preserved with BAK suffer from conjunctival hyperemia. It is the most common side effect that leads to discontinuation or non-compliance. It is determined with the slit lamp. It is classified as patients without hyperemia or with mild, moderate, or severe hyperemia.

7. Conjunctival hyperemia [After 8 weeks of treatment with BAK-free latanoprost]

   Patients on treatment with prostaglandin analogues preserved with BAK suffer from conjunctival hyperemia. It is the most common side effect that leads to discontinuation or non-compliance. It is determined with the slit lamp. It is classified as patients without hyperemia or with mild, moderate, or severe hyperemia.

8. Conjunctival hyperemia [After 12 weeks of treatment with BAK-free latanoprost]

   Patients on treatment with prostaglandin analogues preserved with BAK suffer from conjunctival hyperemia. It is the most common side effect that leads to discontinuation or non-compliance. It is determined with the slit lamp. It is classified as patients without hyperemia or with mild, moderate, or severe hyperemia.

9. Schirmer I test [At the baseline (still on treatment with BAK-containing latanoprost)]

   Schirmer test measures the production of tears. This test consists of placing a small strip of filter paper inside the lower eyelid (inferior fornix). The eyes are closed for 5 minutes. The paper is then removed and the amount of moisture is measured (millimeter).

10. Schirmer I test [After 4 weeks of treatment with BAK-free latanoprost]

    Schirmer test measures the production of tears. This test consists of placing a small strip of filter paper inside the lower eyelid (inferior fornix). The eyes are closed for 5 minutes. The paper is then removed and the amount of moisture is measured (millimeter).

11. Schirmer I test [After 8 weeks of treatment with BAK-free latanoprost]

    Schirmer test measures the production of tears. This test consists of placing a small strip of filter paper inside the lower eyelid (inferior fornix). The eyes are closed for 5 minutes. The paper is then removed and the amount of moisture is measured (millimeter).

12. Schirmer I test [After 12 weeks of treatment with BAK-free latanoprost]

    Schirmer test measures the production of tears. This test consists of placing a small strip of filter paper inside the lower eyelid (inferior fornix). The eyes are closed for 5 minutes. The paper is then removed and the amount of moisture is measured (millimeter).

13. Break up time (BUT) [At the baseline (still on treatment with BAK-containing latanoprost)]

    Tear film break-up time (TBUT) is a method for determining the stability of the tear film and checking evaporative dry eye. In testing for TBUT, sodium fluorescein dye is added to the eye and the tear film is observed under the slit lamp while the patient avoids blinking until tiny dry spots develop. The BUT is recorded as the number of seconds that elapse between the last blink and the appearance of the first dry spot in the tear film.

14. Break up time (BUT) [After 4 weeks of treatment with BAK-free latanoprost]

    Tear film break-up time (TBUT) is a method for determining the stability of the tear film and checking evaporative dry eye. In testing for TBUT, sodium fluorescein dye is added to the eye and the tear film is observed under the slit lamp while the patient avoids blinking until tiny dry spots develop. The BUT is recorded as the number of seconds that elapse between the last blink and the appearance of the first dry spot in the tear film.

15. Break up time (BUT) [After 8 weeks of treatment with BAK-free latanoprost]

    Tear film break-up time (TBUT) is a method for determining the stability of the tear film and checking evaporative dry eye. In testing for TBUT, sodium fluorescein dye is added to the eye and the tear film is observed under the slit lamp while the patient avoids blinking until tiny dry spots develop. The BUT is recorded as the number of seconds that elapse between the last blink and the appearance of the first dry spot in the tear film.

16. Break up time (BUT) [After 12 weeks of treatment with BAK-free latanoprost]

    Tear film break-up time (TBUT) is a method for determining the stability of the tear film and checking evaporative dry eye. In testing for TBUT, sodium fluorescein dye is added to the eye and the tear film is observed under the slit lamp while the patient avoids blinking until tiny dry spots develop. The BUT is recorded as the number of seconds that elapse between the last blink and the appearance of the first dry spot in the tear film.

17. Corneal epithelial fluorescein staining [At the baseline (still on treatment with BAK-containing latanoprost)]

    This is a test that uses orange dye (fluorescein) and a blue light to detect damage to the cornea. Fluorescein does not stain intact corneal epithelium but does stain corneal stroma, thus demarcating the area of the epithelial loss. Number of patients with corneal epithelial defects classified as inferior punctata keratitis or central corneal keratitis.

18. Corneal epithelial fluorescein staining [After 4 weeks of treatment with BAK-free latanoprost]

    This is a test that uses orange dye (fluorescein) and a blue light to detect damage to the cornea. Fluorescein does not stain intact corneal epithelium but does stain corneal stroma, thus demarcating the area of the epithelial loss. Number of patients with corneal epithelial defects classified as inferior punctata keratitis or central corneal keratitis.

19. Corneal epithelial fluorescein staining [After 8 weeks of treatment with BAK-free latanoprost]

    This is a test that uses orange dye (fluorescein) and a blue light to detect damage to the cornea. Fluorescein does not stain intact corneal epithelium but does stain corneal stroma, thus demarcating the area of the epithelial loss. Number of patients with corneal epithelial defects classified as inferior punctata keratitis or central corneal keratitis.

20. Corneal epithelial fluorescein staining [After 12 weeks of treatment with BAK-free latanoprost]

    This is a test that uses orange dye (fluorescein) and a blue light to detect damage to the cornea. Fluorescein does not stain intact corneal epithelium but does stain corneal stroma, thus demarcating the area of the epithelial loss. Number of patients with corneal epithelial defects classified as inferior punctata keratitis or central corneal keratitis.

21. Tear meniscus height [At the baseline (still on treatment with BAK-containing latanoprost)]

    The height of the tear meniscus is related to the tear secretion rate and tear stability, and it is a good indicator of the overall tear volume. It is measured with a slit lamp and classified as normal, increased or decreased (millimeter).

22. Tear meniscus height [After 4 weeks of treatment with BAK-free latanoprost]

    The height of the tear meniscus is related to the tear secretion rate and tear stability, and it is a good indicator of the overall tear volume. It is measured with a slit lamp and classified as normal, increased or decreased (millimeter).

23. Tear meniscus height [After 8 weeks of treatment with BAK-free latanoprost]

    The height of the tear meniscus is related to the tear secretion rate and tear stability, and it is a good indicator of the overall tear volume. It is measured with a slit lamp and classified as normal, increased or decreased (millimeter).

24. Tear meniscus height [After 12 weeks of treatment with BAK-free latanoprost]

    The height of the tear meniscus is related to the tear secretion rate and tear stability, and it is a good indicator of the overall tear volume. It is measured with a slit lamp and classified as normal, increased or decreased (millimeter).

Eligibility Criteria

Criteria

Inclusion Criteria:

• Men and women aged ≥ 18 years

• Diagnosed with primary open-angle glaucoma or pseudoexfoliative glaucoma.

• Receiving containing-BAK latanoprost as monotherapy for at least 6 months

• Pachymetry between 520 and 580 microns

• Informed consent given

Exclusion Criteria:

• History of allergic hypersensitivity or poor tolerance to latanoprost or any components of the formula

• Angle closure glaucoma or secondary glaucoma

• History of recent previous glaucoma surgery or trabeculoplasty (less than 1 year of surgery)

• History of cataract surgery during the last 6 months

• History of uveitis or intraocular inflammation

• Corneal alteration

• Pregnant patients, who wish to conceive or who are in the nursing period.

Contacts and Locations

Locations

Sponsors and Collaborators

• Laboratorios Poen

Investigators

• Principal Investigator: Alejo Peyret, PhD, Hospital Durand, Argentina
• Study Chair: Javier Casiraghi, PhD, Hospital de Clínicas "Jose de San Martin"
• Study Director: Daniel Grigera, PhD, Hospital Santa Lucia

Study Documents (Full-Text)

More Information

Publications

• Cucherat M, Stalmans I, Rouland JF. Relative efficacy and safety of preservative-free latanoprost (T2345) for the treatment of open-angle glaucoma and ocular hypertension: an adjusted Indirect comparison meta-analysis of randomized clinical trials. J Glaucoma. 2014 Jan;23(1):e69-75. doi: 10.1097/IJG.0b013e3182a075e6.
• Denis P; Monoprost French Study Group. [Unpreserved latanoprost in the treatment of open-angle glaucoma and ocular hypertension. A multicenter, randomized, controlled study]. J Fr Ophtalmol. 2016 Sep;39(7):622-30. doi: 10.1016/j.jfo.2016.05.006. Epub 2016 Aug 25. French.
• Muñoz Negrete FJ, Lemij HG, Erb C. Switching to preservative-free latanoprost: impact on tolerability and patient satisfaction. Clin Ophthalmol. 2017 Mar 21;11:557-566. doi: 10.2147/OPTH.S126042. eCollection 2017. Erratum in: Clin Ophthalmol. 2017 May 11;11:887.
• Sanford M. Preservative-free latanoprost eye drops in patients with primary open-angle glaucoma/ocular hypertension. Clin Drug Investig. 2014 Jul;34(7):521-8. doi: 10.1007/s40261-014-0203-4. Review.
• Walimbe T, Chelerkar V, Bhagat P, Joshi A, Raut A. Effect of benzalkonium chloride-free latanoprost ophthalmic solution on ocular surface in patients with glaucoma. Clin Ophthalmol. 2016 May 9;10:821-7. doi: 10.2147/OPTH.S102976. eCollection 2016.