*Article* **An Evaluation of the Physicochemical Properties of Preservative-Free 0.005% (***w***/***v***) Latanoprost Ophthalmic Solutions, and the Impact on In Vitro Human Conjunctival Goblet Cell Survival**

**Josefine C. Freiberg 1, Anne Hedengran 1,2, Steffen Heegaard 2,3, Goran Petrovski 4,5, Jette Jacobsen 6, Barbara Cvenkel 7,8 and Miriam Kolko 1,2,\***


**Abstract:** Purpose: To examine the physicochemical properties of five preservative-free (PF) 0.005% latanoprost ophthalmic products; Monoprost®, Latanest®, Gaap Ofteno®, Xalmono®, and Xaloptic® Free. Furthermore, the study investigated the mucin production and cell survival of primary cultured human conjunctival goblet cells when treated with PF eye drops. Method: The pH value, osmolality, and surface tension were examined. Cell survival was analyzed using lactate dehydrogenase and tetrazolium dye colorimetric assays. Mucin production was analyzed with immunohistochemical staining. Results: Monoprost® (pH value 6.84 <sup>±</sup> 0.032) had a pH value closest to the pH value of tear fluid (pH value 7.4–7.6), whereas Gaap Ofteno® (pH value 6.34 <sup>±</sup> 0.004) and Latanest® (pH value 6.33 <sup>±</sup> 0.003) had the lowest pH values. Gaap Ofteno® (325.9 <sup>±</sup> 2.9 mosmol/kg) showed iso-osmolar probabilities, whereas the other products were hypo-osmolar. Gaap Ofteno® (60.31 <sup>±</sup> 0.35 mN/m) had a higher surface tension compared to the tear fluid (40 to 46 mN/m), as described in the literature. No significant differences in goblet cell survival or mucin release were observed between the treatments and control. Conclusion: Significant differences in pH value, osmolality, and surface tension were observed. However, this did not affect the viability of the goblet cells or the release of mucin. Clinical studies are required to evaluate the long-term effects of use on efficacy and safety.

**Keywords:** latanoprost; preservative-free (PF); pH value; osmolality; surface tension; goblet cells; cell viability; tear film
