OC-01 (Varenicline Solution) Nasal Spray Demonstrates Consistency of Effect Regardless of Age, Race, Ethnicity, and Artificial Tear Use.

Purpose: To evaluate OC-01 [varenicline solution nasal spray (VNS)] tear production and symptom outcomes in patients with dry eye disease by age, gender, race, ethnicity, and artificial tear use status. Patients and
Methods: Adults ≥22 years of age diagnosed with dry eye disease, with Ocular Surface Disease Index score ≥23, corneal fluorescein staining score ≥2 in ≥1 region or ≥4 for all regions, and baseline Schirmer Test Score (STS) ≤10 mm, with no restrictions on eye dryness score (EDS). Efficacy was assessed using integrated data from ONSET-1 and ONSET-2 [vehicle control (VC), n=294; OC-01 VNS 0.03 mg, n=308]. Subgroups included age (≤55, 56-65, >65 years), gender (male, female), race (White, Black or African American), ethnicity (Hispanic or Latino, Not Hispanic or Latino), and artificial tear use (yes, no). Analysis of covariance models, with the covariates treatment, study site, and baseline severity measures, were used to calculate treatment-VC differences. Consistency of effect among subgroups was evaluated by conducting interaction tests.
Results: Consistency of treatment effect across subgroups was observed for all endpoints, with P value for all treatment-subgroup interaction terms >0.05. For % of patients with ≥10mm improvement in STS and least squares (LS) mean change from baseline in STS and EDS, there was improvement in tear production across demographic group categories. Artificial tear use did not change STS or EDS outcomes with OC-01 VNS.
Conclusion: OC-01 VNS improved tear production and patient-reported symptom outcomes across a broad range of patients by age, gender, race, and ethnicity, and regardless of artificial tear use status at baseline. OC-01 VNS demonstrated a consistent benefit across an extensive range of patients with dry eye disease.

Introduction

Dry eye disease is a multifactorial disease of the ocular surface and tear film that affects tens of millions of people worldwide.1 The prevalence of dry eye disease is growing, and is known to vary across several demographic subgroups.2 For example, dry eye disease is more prevalent in older individuals, with an approximate 2% to 11% increase per decade;2,3 women are disproportionately affected more than men,2–4 with significantly higher rates of disease in older women;2 and Asian populations frequently report higher rates of dry eye disease than Caucasian populations because Asian race is a significant risk factor for the disease.2 Despite these observed demographic differences, there is a universal need for more efficacious treatments for dry eye disease.

Maintenance of the natural tear film is critical to ocular surface homeostasis,5–7 and tear film instability is a key feature of dry eye disease.1,7 The most common first-line therapy for dry eye disease is over-the-counter artificial tear eye drops, which are intended to supplement insufficient tear production and potentially help protect the ocular surface.8 At least 60 million people worldwide use artificial tears to treat dry eye symptoms;8 however, artificial tears provide only temporary relief9 and may exacerbate the condition by washing away natural tears on the ocular surface or causing irritation from preservatives. Further, artificial tears do not contain the complex biologically active, endogenously expressed components of natural tears, such as lipids, mucins, and proteins,10 which contribute not only to producing high-quality vision, but also support protection from infection, suppression of inflammation, and healing of injuries.11

OC-01 (varenicline solution) nasal spray (TYRVAYA® [varenicline solution] 0.03 mg; Oyster Point Pharma, Inc., Princeton, NJ),12 is a recently approved treatment for the signs and symptoms of dry eye disease that stimulates basal tear production. The active component of OC-01 nasal spray, varenicline, is believed to bind to nicotinic acetylcholine receptors on the terminal branches of the trigeminal nerve in the nasal cavity,13,14 thereby activating the lacrimal functional unit to produce endogenous tears in all their complexity via efferent parasympathetic innervation.15,16

Approval for OC-01 (varenicline solution) nasal spray was based on evidence from pivotal clinical trials, including the ONSET-117 and ONSET-218 trials. These randomized, prospective, vehicle-controlled trials investigated the efficacy and safety of OC-01 (varenicline solution) nasal spray in over 600 patients with dry eye disease. However, it is important to understand the response to OC-01 (varenicline solution) nasal spray based on various baseline demographic factors and whether concomitant use or absence of artificial tears during therapy affects treatment outcomes. To assess any possible heterogeneity in treatment response in different populations of patients with dry eye disease, we evaluated integrated data from the ONSET-1 and ONSET-2 trials by baseline demographic subgroups of age, gender, race, and ethnicity and by patients using and not using artificial tears.

Materials and Methods

Study Designs

Data for this planned post hoc integrated analysis were obtained from 2 randomized clinical trials, ONSET-1 (ClinicalTrials.gov, NCT03636061)17 and ONSET-2 (ClinicalTrials.gov, NCT04036292).18 For both studies, institutional review board (Alpha IRB, San Clemente, CA) approval was obtained and the study was conducted in compliance with the ethical principles of the Declaration of Helsinki and International Council for Harmonisation Good Clinical Practice. All patients provided written informed consent before participation.

Methods and safety and efficacy results have been previously reported.17,18 Briefly, the ONSET-1 (Phase 2b) and ONSET-2 (Phase 3) trials were both 4-week, multicenter, randomized, prospective, vehicle-controlled trials in adults within the United States to evaluate the efficacy and safety of OC-01 (varenicline solution) nasal spray. Patients were eligible if they had a physician’s diagnosis of dry eye disease; an Ocular Surface Disease Index score of at least 23, with up to 3 responses of “Not Applicable”; a corneal fluorescein staining score of at least 2 in at least 1 corneal region or at least 4 for all corneal regions; a baseline, anesthetized Schirmer Test Score (STS) of 10 mm/5 min or lower; and an anesthetized STS at least 7 mm greater in the same eye after mechanical nasal stimulation with a cotton swab. The study eye was defined as the eye that met all inclusion criteria. Eligibility was not restricted by Eye Dryness Score (EDS).

Statistical Analysis

Efficacy assessments were conducted on integrated data from the ONSET-1 and ONSET-2 trials comparing vehicle control and OC-01 (varenicline solution) nasal spray 0.03 mg, administered twice daily. Planned post hoc analyses of prespecified baseline demographics and concomitant artificial tear use evaluated the following endpoints: (1) the percentage of patients who achieved an at least 10-mm improvement in the study eye in anesthetized STS from baseline to week 4, (2) the mean change in STS from baseline to week 4, and (3) the mean change in patient-reported EDS from baseline to week 4. Categories for baseline demographics and concomitant artificial tear use included the following subgroups: age (≤55, 56–65, >65 years), gender (male, female), race (White, Black or African American, Asian or Native Hawaiian or Other Pacific Islander, American Indian or Alaskan Native or Other); ethnicity (Hispanic or Latino, Not Hispanic or Latino); and artificial tear use (yes, no). Summary statistics and analysis included observed measurements and a last-observation-carried-forward approach for missing data.

The differences in the means in the study eye in vehicle control and OC-01 (varenicline solution) nasal spray were analyzed using an analysis of covariance model, with treatment, site, baseline STS, and baseline EDS as covariates. Data were presented as least squares (LS) mean changes with 95% confidence intervals (CIs). Consistency of effect within subgroups was evaluated by including treatment–subgroup interaction terms in models and tests. Interaction was considered statistically significant at a P value of 0.05. For purposes of interpretation, subsequent use of the term “no interaction” may be defined as follows: no statistically significant (p>0.05) difference in the treatment effect, ie, OC-01 (varenicline solution) nasal spray 0.03 mg treatment outcome minus vehicle control outcome, between the respective subgroups (eg, males vs females, White vs Black or African American subjects, use of artificial tears vs non-use of artificial tears at baseline). Exploratory post hoc subgroup analyses are not evaluated for statistical significance testing.

Results

Demographic and Baseline Clinical Characteristics

A total of 602 patients were included in the integrated population for efficacy assessments; 294 were assigned to vehicle control and 308 were assigned to OC-01 (varenicline solution) nasal spray 0.03 mg (Table 1). Overall, the treatment groups were generally balanced for all demographic categories. Mean age was 59 to 61 years; most patients were female (>76%), White (>84%), and not Hispanic or Latino (>88%); and most patients did not use artificial tears (>74%).

Table 1

Baseline Demographic Characteristics and Artificial Tear Use

Patient Characteristic	VC (n = 294)	OC-01 VNS 0.03 mg (n = 308)
Age (years), mean (SD)	59.2 (13.0)	60.7 (12.5)
≤55	99 (33.7)	98 (31.8)
56–65	96 (32.7)	94 (30.5)
>65	99 (33.7)	116 (37.7)
Female	233 (79.3)	228 (74.0)
Race
White	250 (85.0)	258 (83.8)
Black or African American	31 (10.5)	31 (10.1)
Asian or Native Hawaiian or Other Pacific Islander	7 (2.4)	17 (5.5)
American Indian or Alaskan Native or Other	6 (2.0)	2 (0.6)
Ethnicity
Hispanic or Latino	41 (13.9)	30 (9.7)
Artificial tear use	82 (27.9)	72 (23.4)

Note: Data are n (%) unless stated.

Abbreviations: VC, vehicle control; OC-01 VNS (varenicline solution) nasal spray.

Improvements in Schirmer Test Score After OC-01 (Varenicline Solution) Nasal Spray Administration

There were no statistically significant treatment–subgroup interactions for any of the baseline demographic groups (all P > 0.05) and therefore, consistency of treatment effect was demonstrated for all endpoints assessed across all analyzed subgroups.

Improvements in tear production were demonstrated for OC-01 (varenicline solution) nasal spray versus vehicle in most demographic categories. The odds of achieving at least 10-mm improvement in STS for OC-01 (varenicline solution) nasal spray versus vehicle control for age categories ≤55, 56–65, and >65 years were 2.3 (95% CI, 1.1–4.4), 2.9 (1.3–6.5), and 5.5 (2.3–13.2), respectively (Figure 1A); for males and females were 2.3 (0.9–6.3) and 3.5 (2.2–5.5), respectively (Figure 1B); for the White and Black or African American groups were 3.3 (2.2–5.0) and 0.6 (0.1–2.5), respectively (odds ratios for the other race groups could not be calculated because of low patient numbers) (Figure 1C); and for the Hispanic or Latino and not Hispanic or Latino groups were 3.9 (1.0–16.0) and 3.1 (92.0–4.6), respectively (Figure 1D). The LS mean change from baseline in STS for OC-1 (varenicline solution) nasal spray versus vehicle control for age categories ≤55, 56–65, and >65 years was 5.9 mm (95% CI, 3.1–8.8), 6.3 mm (3.7–9.0), and 5.7 mm (3.4–8.1), respectively; for males and females was 3.6 mm (0.3–7.0) and 6.3 mm (4.6–8.0), respectively; for the White, Black or African American, and Asian groups was 5.7 mm (4.1–7.2), 3.4 mm (–2.2 to 8.9), and 5.3 mm (–9.1 to 19.6), respectively (odds ratios for American Indians could not be calculated because of low patient numbers); and for the Hispanic or Latino and not Hispanic or Latino groups was 7.2 mm (2.5–11.9) and 5.7 mm (4.1–7.2), respectively (Figure 2).

Figure 1

(A-E) Percentage of patients treated with vehicle control or OC-01 (varenicline solution) nasal spray (OC-01 VNS) 0.03 mg twice daily (Bid) who achieved at least 10-mm improvement in Schirmer Test Score (STS) from baseline to week 4, stratified by baseline demographics and artificial tear use. (F) Forest plot of odds ratios of percentages of patients treated with VC versus OC-01 VNS 0.03 mg Bid who achieved at least 10-mm improvement in STS from baseline to week 4, stratified by baseline demographics and concomitant artificial tear use. The American Indian or Alaskan Native or Other group was not included in the analysis because of the low numbers of patients per group (VC, n = 6; OC-01 VNS, n = 2). Asian includes Asian or Native Hawaiian or Other Pacific Islander. Last observation carried forward.

Figure 2

Forest plot of mean change in Schirmer Test Score (STS) from baseline to week 4 and treatment difference in study eye, by baseline demographics and concomitant artificial tear use for patients treated with vehicle control (VC) versus OC-01 (varenicline solution) nasal spray (OC-01 VNS) 0.03 mg twice daily. ≤55 years: VC, n = 96; OC-01 VNS, n = 91; 56–65 years: VC, n = 96; OC-01 VNS, n = 92; >65 years: VC, n = 99; OC-01 VNS, n = 114; male: VC, n = 61; OC-01 VNS, n = 74; female: VC, n = 230; OC-01 VNS, n = 223; White: VC, n = 247; OC-01 VNS, n = 248; Black or African American: VC, n = 31; OC-01 VNS, n = 31; Asian: VC, n = 7; OC-01 VNS, n = 16; Hispanic or Latino: VC, n = 41; OC-01 VNS, n = 29; Not Hispanic or Latino: VC, n = 250; OC-01 VNS, n = 268; artificial tear use, yes: VC, n = 81; OC-01 VNS, n = 70; artificial tear use, no: VC, n = 210; OC-01 VNS, n = 227. The American Indian or Alaskan Native or Other group was not included in the analysis because of the low numbers of patients per group (VC, n = 6; OC-01 VNS, n = 2). Asian includes Asian or Native Hawaiian or Other Pacific Islander. Last observation carried forward.

The increase in tear production favored OC-01 (varenicline solution) nasal spray over vehicle control, regardless of artificial tear use status at baseline. The odds of achieving at least 10-mm improvement in STS for OC-01 (varenicline solution) nasal spray versus vehicle control for artificial tear users and nonusers were 2.5 (95% CI, 1.0–6.3) and 3.2 (2.0–5.0), respectively (Figure 1E). The LS mean change from baseline in STS for OC-1 (varenicline solution) nasal spray versus vehicle control for artificial tear users and nonusers was 3.7 mm (95% CI, 0.5–6.9) and 6.0 mm (4.3–7.7), respectively (Figure 2).

Improvements in Eye Dryness Score After OC-01 (Varenicline Solution) Nasal Spray Administration

Improvements in LS mean change from baseline in EDS were also shown across all subgroups. The LS mean change from baseline in EDS for OC-1 (varenicline solution) nasal spray versus vehicle control for age categories ≤55, 56–65, and >65 years was –7.0 (95% CI, –13.9 to –0.2), –6.4 (–13.6 to 0.8), and –4.4 (–10.7 to 1.9), respectively; for males and females was –5.4 (–14.5 to 3.7) and –6.3 (–10.7 to –2.0), respectively; for the White, Black or African American, and Asian groups was –5.4 (–9.6 to –1.3), –10.5 (–23.6 to 2.6), and –11.9 (–53.7 to 29.9), respectively (odds ratios for American Indians could not be calculated because of low patient numbers); and for the Hispanic or Latino and not Hispanic or Latino groups was –4.9 (–17.5 to 7.7) and –6.1 (–10.2 to –2.1), respectively (Figure 3).

Figure 3

Forest plot of mean change in eye dryness score (EDS) from baseline to week 4 and treatment difference in study eye, by baseline demographics and concomitant artificial tear use for patients treated with vehicle control (VC) versus OC-01 (varenicline solution) nasal spray (OC-01 VNS) 0.03 mg twice daily. ≤55 years: VC, n = 96; OC-01 VNS, n = 93; 56–65 years: VC, n = 96; OC-01 VNS, n = 93; >65 years: VC, n = 99; OC-01 VNS, n = 115; male: VC, n = 61; OC-01 VNS, n = 75; female: VC, n = 230; OC-01 VNS, n = 226; White: VC, n = 247; OC-01 VNS, n = 252; Black or African American: VC, n = 31; OC-01 VNS, n = 31; Asian: VC, n = 7; OC-01 VNS, n = 16; Hispanic or Latino: VC, n = 41; OC-01 VNS, n = 29; Not Hispanic or Latino: VC, n = 250; OC-01 VNS, n = 272; artificial tear use, yes: VC, n = 82; OC-01 VNS, n = 71; artificial tear use, no: VC, n = 209; OC-01 VNS, n = 230. The American Indian or Alaskan Native or Other group was not included in the analysis because of the low numbers of patients per group (VC, n = 6; OC-01 VNS, n = 2). Asian includes Asian or Native Hawaiian or Other Pacific Islander. Last observation carried forward.

The decrease in EDS favored OC-01 VNS over VC, regardless of artificial tear use at baseline. The LS mean change from baseline in EDS for OC-1 (varenicline solution) nasal spray versus vehicle control for artificial tear users and nonusers was –6.5 (95% CI, –14.0 to 1.0) and –6.1 (–10.7 to –1.6), respectively (Figure 3).

Discussion

Dry eye disease is more prevalent in women and older patients2,3 and assessing treatment outcomes in these and other demographic subgroups in clinical trials is important for real-world applicability of new therapeutic modalities. In this planned post hoc integrated analysis, OC-01 (varenicline solution) nasal spray improved the signs and symptoms of dry eye disease, by assessment of tear production with STS and assessment of patient-reported symptoms via EDS, across a broad range of patients by age, gender, race, and ethnicity. Unfortunately, based on the location of the investigational centres, a low number of Asian and Native American patients enrolled in the studies, limiting assessment in these populations (future studies are being planned in China that will provide additional information in the Asian population). Further, OC-01 (varenicline solution) nasal spray was efficacious, regardless of artificial tear use status at baseline, which is important given the real-world use of artificial tears by patients, as a monotherapy or in conjunction with other treatments, for the management of dry eye disease. Safety findings for the current integrated analyses were consistent with the previously reported primary studies17,18 and were unremarkable, with very few differences among the subgroups (data not shown). Overall, we followed the appropriate methodology to explore the consistency of effect (interaction testing) across post hoc subgroups from our clinical trials19 and our analysis results further support OC-01 (varenicline solution) nasal spray is an effective and well-tolerated treatment across many different patients with dry eye disease.

Thorough assessments of available treatments for dry eye disease by demographic subgroups are lacking in the literature. For example, Farrand et al (2017)3 reported that patients with dry eye disease noted use of treatments, including artificial tears, ophthalmic cyclosporine, topical steroids, topical allergy medications, and topical antibiotics, but did not classify treatments by patient group. Interestingly, although the prescribing information for the most common topical prescription medications, cyclosporine A and lifitegrast, suggests these drugs are effective in both younger and older patients,20,21 a recently published meta-analysis suggests that cyclosporine A may be more effective in a relatively older population.22 Given the multifactorial and heterogenous nature of dry eye disease, there is a need to better characterize whether a treatment response to therapy is assessed across specific groups of patients and determine if the data demonstrate consistency of treatment effect outcomes across diverse patient subgroups.

Because artificial tears may be used by patients throughout their treatment journey with dry eye disease, it is important to assess any potential interaction with prescription medications. We found improvements in tear production and patient-reported symptoms with OC-01 (varenicline solution) nasal spray treatment, regardless of artificial tear use at baseline, but a limitation of our study is that artificial tear use was assessed at baseline only (patients reported as either yes or no) and any change in use throughout the study was not assessed. Although less than 26% of subjects in the present study utilized artificial tears at baseline, we do not have definitive reasons for such low use within this more “real world” study design that allowed subjects to utilize artificial tears if needed. It is possible the rapid onset of action with OC-01 (varenicline solution) nasal spray and subsequent tear production improvements were experienced by subjects and additional artificial tear therapy was not needed, or perhaps subjects were potentially motivated to evaluate their experience of the investigational therapy without confounding it with additional treatment. Future research in this may help elucidate greater insight into patient experiences and preferences. Our findings suggest that patients who already use artificial tears (who may potentially have more severe disease at baseline) may not need to interrupt treatment with artificial tears while using nasally administered OC-01 (varenicline solution) nasal spray. Other approved prescription pharmaceutical treatment options for dry eye disease that act via reducing associated inflammation have shown mixed results regarding concomitant artificial tear use. A recent systematic review and meta-analysis found that cyclosporine A had reduced treatment effects when combined with artificial tears,22 which suggests that there may be a potential washout effect. In addition, the prescribing information for cyclosporine A recommends use with artificial tears as long as there is at least 15 minutes between treatments,20 which may complicate patient treatment administration. In contrast, evidence supports the effectiveness of lifitegrast with concomitant artificial tear use in dry eye disease.23,24 Future prospective studies may address whether the increase in natural tears and important biologically active beneficial constituents within human tears in response to OC-01 (varenicline solution) nasal spray treatment are affected or potentially washed out by concomitant use of artificial tears.

Nasal spray administration to the anterior nasal mucosa may be an ideal mode of delivery to activate natural tear production for the treatment of dry eye disease. Mechanical stimulation of the anterior ethmoidal nerve in the nasal mucosa, even with the vehicle control spray, may momentarily stimulate the trigeminal parasympathetic pathway.25–27 and this was observed in the younger subgroups (ie, those aged 65 years or less) in this analysis. In the pivotal clinical trials, a significantly greater magnitude of tear production and symptomatic benefits were demonstrated with pharmacologic neuro-activation with OC-01 (varenicline solution) nasal spray compared to vehicle control,12,17,18 and by utilizing the same optimized nasal route of administration, OC-01 (varenicline solution) nasal spray may offer an efficacious and ocular surface “sparing” treatment option for patients.

This integrated analysis was limited by the constraints of post hoc analyses, the small sample size for some demographic subgroups, and post hoc analysis results should be interpreted with caution. Our analysis is strengthened by the inclusion of patients and a study design representative of treatment in the real world, and by the finding that there were no interactions between treatment and demographic groups, indicating consistency of effect of OC-01 (varenicline solution) nasal spray, regardless of age, gender, race, ethnicity, or baseline artificial tear use.

Conclusion

The findings from our integrated analysis support the benefits of OC-01 (varenicline solution) nasal spray, including a consistency of effect across a broad range of patients. OC-01 (varenicline solution) nasal spray improved the signs and symptoms of dry eye disease in patients over a range of demographic subgroups, and regardless of concomitant artificial tear use at baseline. Because clinician decision-making for the management of dry eye disease involves consideration of the heterogeneity of disease at clinical presentation, age and variable demographic backgrounds, and artificial tear use, these data may help better elucidate the benefits of OC-01 (varenicline solution) nasal spray treatment across an extensive range of presenting patients.