Jean-Sébastien Garrigue

Successfully improving ocular drug delivery using the cationic nanoemulsion, novasorb.

Topical ophthalmic delivery of active ingredients can be achieved using cationic nanoemulsions. In the last decade, Novagali Pharma has successfully developed and marketed Novasorb, an advanced pharmaceutical technology for the treatment of ophthalmic diseases. This paper describes the main steps in the development of cationic nanoemulsions from formulation to evaluation in clinical trials. A major challenge of the formulation work was the selection of a cationic agent with an acceptable safety profile that would ensure a sufficient ocular surface retention time. Then, toxicity and pharmacokinetic studies were performed showing that the cationic emulsions were safe and well tolerated. Even in the absence of an active ingredient, cationic emulsions were observed in preclinical studies to have an inherent benefit on the ocular surface. Moreover, clinical trials demonstrated the efficacy and safety of cationic emulsions loaded with cyclosporine A in patients with dry eye disease. Ongoing studies evaluating latanoprost emulsion in patients with ocular surface disease and glaucoma suggest that the beneficial effects on reducing ocular surface damage may also extend to this patient population. The culmination of these efforts has been the marketing of Cationorm, a preservative-free cationic emulsion indicated for the symptomatic treatment of dry eye.

Efficacy and safety of 0.1% cyclosporine A cationic emulsion in the treatment of severe dry eye disease: a multicenter randomized trial.

Purpose The SANSIKA study was conducted to assess the treatment effect of 0.1% cyclosporine A cationic emulsion (CsA CE) eye drops on signs and symptoms of patients with severe dry eye disease (DED). Methods This was a multicenter, randomized, double-masked, 2-parallel-arm, 6-month phase III study with a 6-month open-label treatment safety follow-up. Patients with severe DED with corneal fluorescein staining (CFS) grade 4 on the modified Oxford scale were randomized to receive once-daily CsA CE (Ikervis®) or its vehicle. Results A total of 246 patients were randomized. The proportion of patients achieving ≥2 grades improvement in CFS and a 30% improvement in symptoms (Ocular Surface Disease Index [OSDI]) by month 6 was 28.6% with CsA CE vs 23.1% with vehicle (p = 0.326) (primary endpoint). Assessment of corneal damage showed greater improvement with CsA CE over vehicle in mean adjusted CFS change from baseline to month 6 (-1.764 vs −1.418, p = 0.037). There was a reduction in ocular surface inflammation assessed by human leukocyte antigen DR expression in favor of CsA CE at month 6 (p = 0.021). The mean OSDI change from baseline was −13.6 with CsA CE and −14.1 with vehicle at month 6 (p = 0.858). The main adverse event was instillation site pain (29.2% vs 8.9% in the CsA CE and vehicle groups, respectively), and it was mostly mild. Conclusions CsA CE was well-tolerated and effective in improving corneal damage and ocular surface inflammation and confirmed the positive benefit-risk ratio of this new formulation of CsA for the treatment of severe keratitis in DED.

Distribution of Cyclosporine A in Ocular Tissues After Topical Administration of Cyclosporine A Cationic Emulsions to Pigmented Rabbits

Purpose: The aim of this study was to compare the ocular and systemic distribution of cyclosporine A (CsA) in rabbits after the instillation of preservative-free CsA cationic and anionic emulsions. Methods: For the single-dose pharmacokinetic (PK) study, rabbits were instilled with 50 &mgr;L of the test material. For the multiple-dose PK study, rabbits were instilled twice daily with Restasis or once daily with NOVA22007 for 10 days. At each time point, the cornea, conjunctiva, and whole blood were harvested for CsA quantification. Ocular and systemic distribution were determined after 4 times daily instillations with 50 &mgr;L of 3H-CsA cationic and anionic emulsions for 7 days. Restasis was used as a reference in all studies. Results: Single-dose PK data demonstrated that NOVA22007 0.1% and 0.05% delivered higher CsA concentrations to the cornea than Restasis [concentration maximum (Cmax): 2692, 1372, and 748 ng/g, respectively] and have a better exposition (area under the curve). Conjunctival Cmax values were 1914, 696, and 849 ng/g and area under the curve values were 3984, 2796, and 2515 ng/g·h, for either dose of the cationic emulsions and Restasis, respectively. The multiple-dose PK and the 3H-CsA distribution data demonstrated that the systemic distribution after repeated instillations was low and comparable for all emulsions. Conclusions: These data demonstrate that the CsA cationic emulsions were more effective than Restasis at delivering CsA to target tissues, thus confirming the potential advantage of cationic emulsions over anionic emulsions as vehicle for ocular drug delivery for the treatment of ocular surface diseases.

In Vitro and In Vivo Evaluation of a Preservative-Free Cationic Emulsion of Latanoprost in Corneal Wound Healing Models

Purpose: Cationic emulsions (CEs), developed as vehicles for lipophilic drugs, have been shown to be safe and effective for the treatment of dry eye. The aim of this study was to investigate the effects of a preservative-free latanoprost 0.005% CE (latanoprost-CE) in in vitro and in vivo models of corneal wound healing. Methods: An in vitro wound was made by scraping through a confluent layer of human corneal epithelial cells. Cytotoxicity, cell migration, and proliferation were analyzed after an exposure to phosphate-buffered saline, CE, latanoprost-CE, 0.02% benzalkonium chloride (0.02%BAK), and Xalatan (0.02%BAKlatanoprost). In vivo, the recovery and integrity of corneal wound healing were assessed in rat eyes instilled twice a day for 5 days with the above treatments after deepithelialization of the superior cornea. Results: In vitro wound distances decreased at 2 and 24 hours for human corneal epithelial cells exposed to CE, latanoprost-CE, and phosphate-buffered saline, whereas they progressively increased for 0.02%BAK-treated and 0.02%BAKlatanoprost-treated cells. The greater wound closure was associated with a higher number of Ki67-positive cells. In CE- and latanoprost-CE-treated rats, reepithelialization of the cornea was enhanced, restoring normal appearance and function. In contrast, 0.02%BAK or 0.02%BAKlatanoprost delayed corneal healing, induced inflammation, and decreased MUC5-AC expression. Conclusions: Both models effectively evaluated the cytotoxicity and dynamic recovery of corneal wound healing, and their correlation supports the potential of the in vitro model as a reliable alternative to in vivo ocular toxicity tests. Both models demonstrated that in the face of corneal injury, CEs favored corneal healing, whereas BAK was deleterious.

Ocular tolerability and efficacy of a cationic emulsion in patients with mild to moderate dry eye disease – A randomised comparative study ☆

PURPOSE The purpose of this study was to compare the safety and efficacy of a new cationic emulsion (CE) with a formulation of polyvinyl alcohol and povidone (PVA-P) for the treatment of mild to moderate dry eye disease. METHODS This was a multicenter, open-label, comparative study. Patients were randomised to receive CE (Cationorm) or PVA-P (Refresh) (1:1). The following objective criteria were assessed to compare the two eye drops: tear Break-up Time (TBUT), Schirmers test, lissamine green staining (Van Bijsterveld score), corneal fluorescein staining (Oxford scale) and oculopalpebral examination, on D7 and D28 (end of study). At these visits, ocular symptoms and safety were also assessed. RESULTS Seventy-nine patients were randomised: CE: 44 patients; PVA-P: 35 patients. At D28, improvement was significantly better for TBUT [CE: 1.7 ± 2.4 s; PVA-P: 0.6 ± 1.8 s; P=0.015] and for the Van Bijsterveld score [CE: -1.4 ± 1.2; PVA-P: -0.9 ± 1.2; P=0.046] in the CE group. The same applied for the palpebral erythema score (P=0.023), overall efficacy assessed by the investigators (P<0.001), and symptoms not related to eye drop instillation (P=0.021). Improvement was observed from D7. No difference was observed between the two treatments with regard to ocular safety. CONCLUSION These results suggest that in patients with mild to moderate dry eye, Cationorm, in addition to its moisturizing and lubricating properties, also helps stabilize the tear film due to its oily component. This study demonstrates the benefit of this new pharmaceutical form for the treatment of mild to moderate dry eye disease.

A preliminary evaluation of dexamethasone palmitate emulsion: a novel intravitreal sustained delivery of corticosteroid for treatment of macular edema.

PURPOSE Dexamethasone palmitate (DXP) is a lipophilic prodrug of dexamethasone (DXM), a potent corticosteroid used to treat a variety of ophthalmic diseases. The aim of the study was to characterize the sustained release capacity (in rabbit), efficacy (in rat and rabbit), and safety (in rabbit, cat, and minipig) of intravitreal (IVT) DXP emulsions in preclinical models. METHODS Oil-in-water emulsions of DXP were administered by IVT injections in rats, rabbits, cats, or minipigs. Efficacy was assessed in rabbits by the inhibition of VEGF-induced vascular leakage and in rats by inhibition of laser-induced choroidal neovascularization. Concentrations of DXP and DXM in aqueous humor, vitreous, retina, choroid, and blood were determined to characterize the ocular and systemic pharmacokinetic (PK) profile. Complete ophthalmic examinations (indirect ophthalmoscopy, slit-lamp biomacroscopy, electroretinography, tonometry) were performed to assess the ocular safety of IVT DXP doses up to 2,600 μg in minipig, followed by histopathologic examinations. A validated feline model of DXM-induced elevated intraocular pressure (IOP) was used to assess the ocular hypertensive impact (i.e., the safety) of an IVT injection of DXP emulsion. RESULTS Rat and rabbit efficacy data demonstrated that IVT injections of DXP emulsions were effective. Rabbit PK data demonstrated that following a single 1,280 μg IVT injection resulted in sustained DXM levels in the retina and choroid (1,179.6 and 577.7 ng/g with a half-life of 189 and 103 days, respectively) sufficient to inhibit VEGF-induced vascular hyper-permeability for up to 9 months. No adverse ocular findings were observed in the rabbit at the 1,280 μg DXP dose. Plasma levels of DXP and DXM were close to the lower limit of quantification (0.5 ng/mL). In minipigs, no systemic effects were observed at a dose up to 2,600 μg DXP. In steroid responsive cats, IVT DXP emulsions increased IOP to a lesser extent than triamcinolone acetonide with a more rapid return to basal levels and no evidence of cataract formation. CONCLUSIONS IVT injections of DXP emulsions were well tolerated and shown to be efficacious for the sustained release of the drug, with the potential to control vascular leakage up to 9 months following a single IVT injection. These data suggest that IVT injections of DXP emulsions could be a safe and effective alternative IVT drug delivery vehicle for corticosteroid to treat back of the eye diseases complicated by macular edema.

Cyclosporine A delivery to the eye: A comprehensive review of academic and industrial efforts

Graphical abstract Figure. No caption available. ABSTRACT Local ocular delivery of cyclosporine A (CsA) is the preferred method for CsA delivery as a treatment for ocular inflammatory diseases such as uveitis, corneal healing, vernal keratoconjunctivitis and dry eye disease. However, due to the large molecular weight and hydrophobic nature of CsA and the natural protective mechanisms of the eye, achieving therapeutic levels of CsA in ocular tissues can be difficult. This review gives a comprehensive overview of the current products available to clinicians as well as emerging drug delivery solutions that have been developed at both the academic and industry levels.

One-year efficacy and safety of 0.1% cyclosporine A cationic emulsion in the treatment of severe dry eye disease

Purpose The SANSIKA study evaluated the efficacy/safety of 0.1% (1 mg/mL) cyclosporine A cationic emulsion (CsA CE) for treating dry eye disease (DED) with severe keratitis. The double-masked phase demonstrated that CsA CE was effective in reducing corneal damage and ocular surface inflammation, and was well-tolerated over 6 months. Here we report efficacy and safety findings of SANSIKAs open-label extension (OLE). Methods In this multicenter, double-masked, phase III study, patients with severe DED (corneal fluorescein staining [CFS] grade 4, modified Oxford scale) were randomized to once-daily CsA CE (Ikervis®) or its vehicle for 6 months, followed by 6-month open-label, once-daily CsA CE (CsA CE/CsA CE and vehicle/CsA CE groups). Results A total of 177 patients completed the OLE. Efficacy results reiterated the double-masked phase: CsA CE reduced CFS score and human leukocyte antigen-antigen D related expression, improved corneal clearing, and produced continuous improvements in global symptom scores (ocular surface disease index [OSDI], visual analogue scale). The CFS-OSDI response rates (≥2 CFS points, ≥30% OSDI improvement vs baseline) at 12 vs 6 months were 39.1% vs 28.6%, respectively, for CsA CE/CsA CE and 38.0% vs 23.1% for vehicle/CsA CE. Cyclosporine A CEs safety profile was similar to the initial 6 months. The most common treatment-related treatment-emergent adverse event was instillation site pain (7.8%, CsA CE/CsA CE group; 19.0%, vehicle/CsA CE group). No unexpected safety signals were observed; systemic CsA levels were undetectable/negligible in all patients except 2 previously treated with systemic CsA. Conclusions In this 12-month study, once-daily CsA CE was well-tolerated and showed reductions in ocular surface inflammation and improvements in signs/symptoms in DED patients with severe keratitis.

Comparison of the Anti-Inflammatory Effects of Artificial Tears in a Rat Model of Corneal Scraping

Abstract Purpose: Artificial tears (ATs) are used routinely to alleviate the symptoms of mild to moderate dry eye. Preservative-free cationic emulsions (eg, Cationorm®) are an innovative approach for the management of signs and symptoms of dry eye. The aim of the present exploratory experiment was to evaluate the efficacy of this cetalkonium chloride (CKC)-containing cationic emulsion on debrided cornea and to characterize its effects on scraping-induced inflammation. Methods: Four ATs were assessed in a rat model of corneal scraping. The upper part of the corneal epithelium was scraped before a 5-day treatment, followed by clinical evaluations and fluorescein staining to evaluate cornea recovery. The anti-inflammatory efficacy of the ATs was assessed in vivo and in vitro. Results: In vivo confocal microscopy (IVCM) revealed a trend toward better corneal clinical signs (lower IVCM scores) for the animals treated with the unpreserved ATs. Benzalkonium chloride treatment decreased goblet cell count by 37.5%. While the soft-preserved Systane Balance® and Optive® and the preservative-free Vismed® had no effect on the goblet cell count, Cationorm increased this count by almost 40%. Interestingly, inflammatory cell infiltration in the stroma was at its lowest following treatment with the preservative-free Cationorm. Cationorm is also the only AT decreasing IL6- and IL8-stimulated secretion by 59% and 74%, respectively. Conclusion: By restoring an adequately hydrated ocular surface environment, the different ATs promote corneal epithelium healing. These data position Cationorm as a promising AT for the management of signs and symptoms of dry eye in patients with mild to moderate dry eye disease presenting chronic subclinical levels of ocular inflammation.

Pan-European survey of the topical ocular use of cyclosporine A

OBJECTIVE To assess medical practices surrounding the use of topical ocular cyclosporine A across European Union nations. METHODS Key stakeholders (ophthalmologists, hospital pharmacists, regulatory health authorities) from European Union member states were interviewed by telephone using a semi-structured, open-ended questionnaire. Ophthalmologists responded to questions about practice patterns of cyclosporine A use (prescription frequency, indication, dosage), pharmacists about cyclosporine A formulations (composition, manufacturing process, quality control, distribution), and the regulatory authorities about market authorization and pharmacovigilance for various cyclosporine A products. RESULTS Over the years, cyclosporine A use for ophthalmic indications has increased across all European Union nations. Prevalence of cyclosporine A use was heterogeneous, with Belgium, France, Germany, Italy, Portugal, Spain and the United Kingdom reporting the highest frequency. Compounded cyclosporine A formulations and other cyclosporine A products were prescribed through temporary authorization on a compassionate use or named-patient basis. Cyclosporine A was prescribed for dry eye disease, atopic and vernal keratoconjunctivitis, corneal graft rejection, and other autoimmune and inflammatory diseases. Concentrations of prescribed topical cyclosporine A ranged between 0.05-2% and formulations were instilled 1-6 times daily. Interviewed stakeholders expressed concern regarding, (1) paucity of product information, (2) lack of standardized manufacturing processes and quality control of cyclosporine A formulations, and (3) poor regulation and pharmacovigilance of ocular cyclosporine A-based products. CONCLUSIONS Medical practice surrounding ocular cyclosporine A use in European Union nations differs based on variations in concentration, dosage, prescription indication, formulation, availability and distribution, manufacturing, quality, and regulatory monitoring.