Summary Basis of Decision for Saflutan
Review decision
The Summary Basis of Decision explains why the product was approved for sale in Canada. The document includes regulatory, safety, effectiveness and quality (in terms of chemistry and manufacturing) considerations.
Product type:
Summary Basis of Decision (SBD) documents provide information related to the original authorization of a product. The SBD for Saflutan is located below.
Recent Activity for Saflutan
SBDs written for eligible drugs approved after September 1, 2012 will be updated to include post-authorization information. This information will be compiled in a Post-Authorization Activity Table (PAAT). The PAAT will include brief summaries of activities such as submissions for new uses of the product, and whether Health Canada's decisions were negative or positive. PAATs will be updated regularly with post-authorization activity throughout the product's life cycle.
Post-Authorization Activity Table (PAAT) for Saflutan
Updated:
The following table describes post-authorization activity for Saflutan, a product which contains the medicinal ingredient tafluprost. For more information on the type of information found in PAATs, please refer to the Frequently Asked Questions: Summary Basis of Decision (SBD) Project: Phase II and to the list of abbreviations that are found in PAATs.
For additional information about the drug submission process, refer to the Management of Drug Submissions Guidance.
Drug Identification Number (DIN):
- DIN 02425149 - 15 mcg/mL, tafluprost, solution, ophthalmic/topical
Post-Authorization Activity Table (PAAT)
| Activity/submission type, control number | Date submitted | Decision and date | Summary of activities |
|---|---|---|---|
| NDS # 198060 | 2016-11-03 | Issued NOC2016-11-03 | Submission filed to transfer ownership of the product from Merck Canada Inc. to Purdue Pharma. An NOC was issued. |
| NDS # 165596 | 2013-06-10 | Issued NOC2014-05-26 | Notice of Compliance issued for New Drug Submission. |
Summary Basis of Decision (SBD) for Saflutan
Date SBD issued: 2014-07-16
The following information relates to the new drug submission for Saflutan.
Tafluprost, 15 mcg/mL, solution, ophthalmic/topical
Drug Identification Number (DIN):
- 02425149
Merck Canada Inc.
New Drug Submission Control Number: 165596
On May 26, 2014, Health Canada issued a Notice of Compliance to Merck Canada Inc. for the drug product Saflutan.
The market authorization was based on quality (chemistry and manufacturing), non-clinical (pharmacology and toxicology), and clinical (pharmacology, safety, and efficacy) information submitted. Based on Health Canada's review, the benefit/risk profile of Saflutan is favourable for the reduction of elevated intraocular pressure in patients with open-angle glaucoma or ocular hypertension.
1 What was approved?
Saflutan, a fluorinated PGF2α analogue, was authorized for the reduction of elevated intraocular pressure (IOP) in patients with open-angle glaucoma (OAG) or ocular hypertension (OHT).
No overall clinical differences in efficacy or adverse events profile were observed in either elderly (>65 years) and non-elderly (≤65 years) patients. However, the safety and effectiveness of Saflutan in pediatric patients has not been established.
Saflutan is contraindicated for patients who are hypersensitive to this drug or to any ingredient in the formulation or component of the container.
Saflutan was approved for use under the conditions stated in the Saflutan Product Monograph taking into consideration the potential risks associated with the administration of this drug product.
Saflutan (15 mcg/mL tafluprost) is presented as an ophthalmic solution. In addition to the medicinal ingredient, the solution contains disodium edetate, glycerol, polysorbate 80, and sodium dihydrogen phosphate dihydrate. Hydrochloric acid and/or sodium hydroxide are added to adjust the pH. Saflutan is preservative-free and does not contain the preservative benzalkonium chloride (BAK).
For more information, refer to the Clinical, Non-Clinical, and Quality (Chemistry and Manufacturing) Basis for Decision sections.
Additional information may be found in the Saflutan Product Monograph, approved by Health Canada and available through the Drug Product Database.
2 Why was Saflutan approved?
Health Canada considers that the benefit/risk profile of Saflutan is favourable for the reduction of elevated intraocular pressure (IOP) in patients with open-angle glaucoma (OAG) or ocular hypertension (OHT).
Glaucoma is a family of related diseases that is frequently associated with elevated IOP leading to optic nerve neuropathy and loss of vision. Glaucoma is divided into open-angle and narrow-angle glaucoma. There are currently numerous topical hypotensive medications available to reduce IOP in patients with OAG and OHT. All these drugs are selective prostaglandin F (FP) prostanoid receptor agonists and prostaglandin analogs. Saflutan (tafluprost) is a new active substance and its pharmacologically active principle, tafluprost acid, is a fluorinated PGF2α analogue with high affinity and selectivity for the FP receptor.
Saflutan has been shown to be efficacious for the reduction of elevated IOP in patients with OAG or OHT. The Saflutan clinical program consisted of five Phase I studies, three Phase II studies, five Phase III studies, and one open-label Phase IIIb study.
The Phase III clinical studies consisted of two pivotal non-inferiority (NI) efficacy studies (Studies 15-003 and P-001, timolol NI studies, total number of patients 1,101) and three Phase III non-pivotal/supportive studies (Studies 74458, 77550 and 77552). The results of the two pivotal Phase III clinical studies 15-003 and P-001 demonstrated that Saflutan 0.0015% ophthalmic solution was effective in lowering IOP. Both clinical studies met the pre-specified NI margin of 1.5 mm Hg and most 95% confidence interval (CI) limits were within a 1 mm Hg margin. Both studies demonstrated that Saflutan was non-inferior to timolol in both preservative-containing and preservative-free formulations. The Phase III study 74458 failed to show that Saflutan was non-inferior to latanoprost, with the latter showing a numerically greater reduction in IOP. Mean IOP with Saflutan was between 17 to 19 mm Hg in the timolol controlled studies and 17 to 18 mm Hg in the latanoprost controlled study. A bridging study 77550 showed that the two formulations [that is (i.e.) preservative-containing and preservative-free] were equally effective and non-inferior based on the predefined NI margin.
The ocular adverse events (AE) of special interest (also the most common ocular AEs), reported without regard to causality, for the Saflutan group in the five pooled masked Phase II/III studies included conjunctival hyperemia (10.7%), ocular stinging/irritation (7.2%), ocular pruritus (4.9%) and ocular pain (3.4%). The drug-related AEs of special interest for Saflutan were hyperemia (9.7%), ocular stinging and irritation (6.2%), ocular pruritus (3.8%), and ocular pain (2.8%). Study results also indicated that the AEs observed are probably prostaglandin-related and not entirely due to the BAK preservative.
The most common systemic AEs (≥2% pooled masked Phase II/III), reported without regard to causality, during treatment with Saflutan 0.0015% every day (q.d.) were headache (5.6%), common cold (4.0%), cough (3.0%) and urinary tract infection (2.0%). Clinical evidence of lack of effect on vital signs and in particular lack of cardiovascular effect with use of Saflutan is available from human Phase I-III clinical studies. Overall, for biomicroscopy and ophthalmoscopic findings, the effects of Saflutan were mostly mild and no clinically meaningful differences between Saflutan 0.0015% q.d., latanoprost 0.005% q.d, or timolol 0.5% twice a day (b.i.d) were found.
The identified safety concerns with Saflutan treatment included:
- changes to pigmented tissues, such as darkening of the eyelid skin and increased iris pigmentation; and
- changes in eyelash, such as increased length, color, thickness, pigmentation, the number of lashes or hairs, and misdirected growth of eyelashes (trichiasis).
Some of these changes may be permanent and may lead to differences in appearance between the eyes especially when only one eye is treated. Eyelash changes and eyelid skin darkening are usually reversible upon discontinuation of Saflutan treatment. Other safety concerns included macular edema (including cystoid macular edema) and intraocular inflammation. Saflutan has not been studied in patients with hepatic insufficiency, renal insufficiency, severe or uncontrolled asthma or pulmonary insufficiency. Therefore, Saflutan should be used with caution in these patients. These issues have been addressed through appropriate labelling in the Saflutan Product Monograph.
A Risk Management Plan (RMP) for Saflutan was submitted by Merck Canada Inc. to Health Canada. The RMP is designed to describe known and potential safety issues, to present the monitoring scheme and when needed, to describe measures that will be put in place to minimize risks associated with the product.
Overall, the therapeutic benefits seen in the pivotal studies are positive and the benefits of Saflutan therapy seem to outweigh the potential risks. The proposed drug product is preservative free, which could provide a valued and desirable treatment option for those patients who cannot tolerate the preservative benzalkonium chloride (BAK) or prefer not to take BAK-containing medications for the treatment of glaucoma. Saflutan is supplied as a sterile solution in single-dose containers and since there is no preservative included, the instructions will state that any unused portion should be discarded. The patient package insert will provide information on the product and its use in easy to understand language and include pictorial directions on how the product should be used. There is substantial evidence of effectiveness consisting of adequate and well-controlled studies which demonstrated that patients receiving Saflutan experienced a statistically and clinically significant decrease in IOP. Saflutan has an acceptable safety profile based on the non-clinical data and clinical trials. The identified safety issues can be managed through labelling and adequate monitoring. Appropriate warnings and precautions are in place in the Saflutan Product Monograph to address the identified safety concerns.
This New Drug Submission complies with the requirements of sections C.08.002 and C.08.005.1 and therefore Health Canada has granted the Notice of Compliance pursuant to section C.08.004 of the Food and Drug Regulations. For more information, refer to the Clinical, Non-Clinical, and Quality (Chemistry and Manufacturing) Basis for Decision sections.
3 What steps led to the approval of Saflutan?
A New Drug Submission (NDS) (control number 135836) for Saflutan was filed on March 17, 2010. Upon review, deficiencies (clinical concerns) were reported and a Notice of Deficiency (NOD) was issued on February 11, 2011. The major concern raised by Health Canada was related to cardiovascular safety due to lack of data supporting thorough QT interval assessment in humans. The sponsor decided to withdraw the NDS (control number 135836) and the submission was refiled as NDS (control number 165596) on June 10, 2013. Upon review, the sponsor addressed all of the NOD issues, provided additional clinical and post-marketing data, and submitted a clear rationale for waiver of a QT/QTc prolongation study based on the clinical pharmacology and safety profile of the product. All of the concerns that led to the NOD were satisfactorily addressed. A Notice of Compliance was issued on May 26, 2014.
A brand name assessment was performed and the proposed name Saflutan has been deemed appropriate and acceptable.
Submission Milestones: Saflutan
| Submission Milestone | Date |
|---|---|
| Pre-submission meeting: | 2009-09-24 |
| Control Number: 135836: Submission filed: | 2010-03-17 |
| Screening 1 | |
| Screening Acceptance Letter issued: | 2010-04-30 |
| Review 1 | |
| Quality Evaluation complete: | 2011-02-07 |
| Clinical Evaluation complete: | 2011-02-08 |
| Notice of Deficiency (NOD) issued by Director General (safety issues): | 2011-02-11 |
| Submission withdrawn by sponsor: | 2011-05-12 |
| Screening 2 | |
| Pre-submission meeting: | 2012-11-14 |
| Control Number: 165596: Submission filed: | 2013-06-10 |
| Screening Acceptance Letter issued: | 2013-08-01 |
| Screening 2 | |
| Quality Evaluation complete: | 2014-05-05 |
| Clinical Evaluation complete: | 2014-05-15 |
| Labelling Review complete: | 2014-05-15 |
| Notice of Compliance (NOC) issued by Director General: | 2014-05-26 |
The Canadian regulatory decision on the non-clinical and clinical review of Saflutan was based on a critical assessment of the Canadian data package.
For additional information about the drug submission process, refer to the Management of Drug Submissions Guidance.
4 What follow-up measures will the company take?
Requirements for post-market commitments are outlined in the Food and Drugs Act and Regulations.
6 What other information is available about drugs?
Up to date information on drug products can be found at the following links:
- See MedEffect Canada for the latest advisories, warnings and recalls for marketed products.
- See the Notice of Compliance (NOC) Database for a listing of the authorization dates for all drugs that have been issued an NOC since 1994.
- See the Drug Product Database (DPD) for the most recent Product Monograph. The DPD contains product-specific information on drugs that have been approved for use in Canada and have been market notified (that is, the company has told Health Canada the product is being marketed).
- See the Notice of Compliance with Conditions (NOC/c)-related documents for the latest fact sheets and notices for products which were issued an NOC under the Notice of Compliance with Conditions (NOC/c) Guidance Document, if applicable. Clicking on a product name links to (as applicable) the Fact Sheet, Qualifying Notice, and Dear Health Care Professional Letter.
- See the Patent Register for patents associated with medicinal ingredients, if applicable.
- See the Register of Innovative Drugs for a list of drugs that are eligible for data protection under C.08.004.1 of the Food and Drug Regulations, if applicable.
7 What was the scientific rationale for Health Canada's decision?
7.1 Clinical basis for decision
Clinical Pharmacology
Tafluprost, the medicinal ingredient of Saflutan, is a fluorinated analogue of prostaglandin F2α. Tafluprost acid, the biologically active metabolite of tafluprost, is a highly potent and selective agonist of the human prostanoid FP receptor.
The clinical pharmacology program included reports on the human pharmacodynamic and pharmacokinetic studies. The Phase II studies demonstrated that Saflutan was superior to placebo in reducing intraocular pressure (IOP) in patients. Among the three concentrations of Saflutan, the 0.0015% solution exhibited the numerically largest mean IOP-reducing effect. These results support the use of 0.0015% Saflutan in the pivotal Phase-III studies. The Phase I and II studies showed that tafluprost acid is rapidly absorbed and eliminated from human plasma, appearing at low plasma concentrations. Pharmacokinetic parameters were similar between the preservative-containing and preservative-free formulations. The relative order of effectiveness in reducing IOP (with estimated mean change in IOP) was latanoprost > Saflutan > timolol.
Overall, the clinical pharmacological data support the use of Saflutan for the specified indication. Appropriate warnings and precautions are in place in the approved Saflutan Product Monograph to address the identified safety concerns.
For further details, please refer to the Saflutan Product Monograph, approved by Health Canada and available through the Drug Product Database.
Clinical Efficacy
The efficacy of Saflutan was evaluated in three Phase II studies (15-001, 15-002 and 74457), two Phase III pivotal studies (15-003 and P-001), two Phase III supportive studies (74458 and 77550) and one open-label Phase IIIb study (Study 77552). Several study protocol amendments were made during the course of the clinical development. All amendments were considered acceptable.
The Phase II study 15-001 was a randomized, double-masked, placebo- and active-controlled, parallel-group, multicentre dose-response study comparing the safety and efficacy of three concentrations of Saflutan ophthalmic solution (0.001%, 0.0025%, and 0.005%) with placebo and 0.005% latanoprost in patients diagnosed with open-angle glaucoma (OAG) (primary OAG, pseudoexfoliation syndrome, or pigmentary dispersion syndrome) or OHT. A total of 152 patients were enrolled and 142 completed the study as planned. The primary efficacy endpoint was change from baseline in mean diurnal IOP in the study eye on Day 28. The results from this study demonstrated that Saflutan and latanoprost were more effective than placebo in lowering IOP in patients with OAG or OHT. Following once daily administration for four weeks, all three concentrations of Saflutan tested (0.001%, 0.0025%, and 0.005%) were significantly superior to placebo in lowering mean diurnal IOP in patients with OAG or OHT. Among the Saflutan concentrations, the average change in mean diurnal IOP after four weeks of dosing was: 0.0025% Saflutan (-5.29 mm Hg, -22.7%) >0.001% Saflutan (-5.03 mm Hg, -19.9%) >0.005% Saflutan (-4.44 mm Hg, -19.5%). These IOP data suggested that Saflutan may exhibit a multiphasic dose-effect relationship, in which the response increases with increasing concentration until reaching a maximal effect, followed by decreasing response with further increases in concentration.
The Phase II Study 15-002 was a randomized, double-masked, active-controlled, parallel-group, multicentre study comparing the safety and efficacy of three concentrations of Saflutan ophthalmic solution (0.0003%, 0.0015%, and 0.0025%) with 0.5% timolol maleate and 0.005% latanoprost in subjects diagnosed with OAG or OHT. A total of 144 patients were enrolled and 139 completed the study as planned. The primary efficacy endpoint was a comparison of the mean change from baseline in IOP at each time point on Day 28 between the timolol group and each of the three Saflutan groups. The results from this study demonstrated that all three concentrations of Saflutan reduced IOP in subjects with OAG or OHT, and that 0.0015% Saflutan produced the greatest overall IOP-lowering efficacy among the concentrations tested with the relative order of effectiveness being: 0.0015% >0.0025% >0.0003%. After four weeks of treatment, the reduction in IOP was slightly greater with 0.0015% Saflutan (-4.76 to -7.28 mm Hg, -20.91 to -27.55%) compared to either 0.0025% Saflutan (-4.46 to -7.14 mm Hg, -16.84 to -25.86%) or 0.0003% Saflutan (-3.72 to -6.22 mm Hg, -15.82 to -23.77%). Among all study treatments, latanoprost produced the greatest IOP-lowering effect during the study with the relative order of effectiveness being: latanoprost > Saflutan > timolol.
Study 74457 was a pilot Phase II study on the duration and stability of the IOP lowering effect and tolerability of Saflutan 0.0015% ophthalmic solution as compared to latanoprost 0.005% eye drops. It was a randomized, double-masked, active-controlled, parallel-group, multinational and multicentre study in 38 patients with primary OAG, capsular glaucoma or OHT. The primary efficacy variables were the extent and duration of action at the end of the 6-week treatment period using the IOP measurements at Days 42 and 43 (measurements up to 48 hours after the last dose) and stability of IOP based on the individual fluctuations at Days 42 and 43. The results of the study show that the full IOP lowering effect of both Saflutan and latanoprost was reached at the 8 hours measurement of Day 7 one week after the first dose). At this point, the mean change (% change) from baseline was -9.6 mm Hg (-35.6%) for Saflutan and -8.8 mm Hg (-32.9%) for latanoprost. The full IOP lowering effect of both Saflutan and latanoprost was maintained up to 24 hours after the last dose and therefore supported once daily dosing. In fact, a clear IOP lowering effect could be seen even beyond 24 hours, though the IOP started to slowly increase in both treatment groups 36-48 hours after the last dose. This indicated that the duration of action of Saflutan is maintained for up to 24 hours post dosing. On Day 42 at 12 hours and 16 hours, the estimated overall treatment difference (Saflutan-latanoprost) reported was 1.055 and 0.444 with the upper 95% confidence interval (CI) >1.5 mm Hg indicating that Saflutan was clinically inferior to latanoprost. However, Saflutan was non-inferior to latanoprost at other time-points. The preliminary data provided in this study involving a limited number of patients indicate that Saflutan 0.0015% eye drops, dosed once daily at 20:00 hours, suggestively lowers IOP in patients with open-angle glaucoma or ocular hypertension and IOP reduction was maintained until 36 hours post dose and therefore supported once daily dosing.
The Phase III pivotal study 15-003 was a multicentre, randomized, double-blind, parallel-group, 12-month, non-inferiority study comparing the efficacy and safety of Saflutan 0.0015% ophthalmic solution with timolol maleate 0.5% ophthalmic solution in patients with OAG, pseudoexfoliative glaucoma, pigmentary glaucoma, or OHT. A total of 458 patients were enrolled in the study. A total of 267 patients were randomized to receive Saflutan 0.0015% and 191 patients received timolol 0.5% twice a day (b.i.d). The primary efficacy variable was the change from baseline in the overall diurnal IOP at Month 6. The study also characterized the long-term efficacy of Saflutan and timolol at 12 months and their sustained IOP lowering effect from 6 to 12 months. The results demonstrated that both Saflutan and timolol reduced IOP substantially and the reduction in IOP was maintained throughout the duration of the study (12 months). The IOP lowering effect of Saflutan was consistently larger than that of timolol throughout the study. Saflutan reached the pre-determined criteria for non-inferiority (upper limit of 95% CI for the difference in IOP-reducing effect between the drugs <1.5 mm Hg) at all visits and time-points (both at 6 and 12 months of treatment) thus demonstrating non-inferiority to timolol (0.5% b.i.d.).
The Phase III pivotal Study P-001 was a prospective, multicentre, multinational, double masked, parallel group, randomized, active-controlled, non-inferiority study designed to evaluate the efficacy and safety of preservative free Saflutan 0.0015% ophthalmic solution compared to preservative-free timolol maleate 0.5% ophthalmic solution in patients with OAG or OHT. A total of 643 patients were randomized, among which 320 patients received treatment with Saflutan out of which 306 completed the study. Of the 323 patients randomized to timolol, 312 completed the study. The primary efficacy variable was the mean IOP change from baseline at all 9 time-points during the study from the study eye. The study results demonstrated that the average IOP was reduced at all the post-baseline time-points in both treatment groups. The IOP lowering effect (mean IOP decrease) was seen at the 2-week visit (17.5 to 18.9 mm Hg for Saflutan and 18.3 to 19.2 mm Hg for the timolol group) and was maintained through Week 12 in both treatment groups. The criterion for declaring Saflutan non-inferior to timolol in the test of the primary hypothesis was met: all the upper limits of the two-sided 95% CI for the between-group differences in mean change from baseline in IOP for the study eye were less than the pre-specified non-inferiority margin of 1.5 mm Hg. Saflutan reached the predetermined criteria for non-inferiority at each visit and time-point.
Supportive Studies
Study 74458 was a randomized, double-masked, active-controlled, parallel-group, multinational and multicentre Phase III study comparing the efficacy and safety of Saflutan 0.0015% with latanoprost 0.005% in patients with primary OAG, capsular glaucoma, pigmentary glaucoma, or OHT. A total of 533 patients (269 in the Saflutan group and 264 in the latanoprost group) were enrolled to the study. The primary efficacy variable was the change from baseline in the overall diurnal IOP (at Month 6). Overall, both Saflutan and latanoprost had a substantial IOP lowering effect throughout the study. There was a reduction in IOP by Week 2 that was sustained to Month 24. At Month 6, the mean change in IOP at 8 hours was -8.05 mm Hg (-31.0%) in the Saflutan group and -9.16 mm Hg (-35.9%) in the latanoprost group. Therefore, it can be concluded that the IOP lowering effect of latanoprost at the 8 hour time-point was larger (from 0.44 mm Hg to 1.11 mm Hg) than that of Saflutan. During 12-month extension phase, the effect of latanoprost was larger (from 0.25 mm Hg at 16 hours on Month 3 to 1.39 mm Hg at 12 hours on Month 6) than that of Saflutan. Similarly, during the 24-month extension study, the mean change from baseline for latanoprost was larger (from 0.27 mm Hg at 20:00 hours on Month 24 to 1.19 mm Hg at 8 hours on Month 15). Overall, the IOP lowering effect of latanoprost was larger than that of Saflutan (approximately 1-1.50 mm Hg). Study 74458 failed to demonstrate non-inferiority of efficacy of Saflutan compared with latanoprost using the predefined 1.50 mm Hg non-inferiority margin.
Study 77550 was a randomized, investigator-masked, multicentre, cross-over Phase III study with two formulations (preserved and unpreserved) of Saflutan 0.0015% in patients with OAG or OHT. A total of 43 patients were randomized to the study (21 in the preserved and 22 in the unpreserved sequence). The primary efficacy variable was the changes from baseline at 4 weeks in the overall diurnal IOP and these changes were evaluated using a repeated measurements analysis of covariance (repeated measures ANCOVA) model. Overall, it can be concluded that the two formulations exhibited an equivalent IOP reduction and the removal of preservative benzalkonium chloride (BAK) from the Saflutan ophthalmic formulation had no effect on IOP control.
Study 77552 was an open-label, multinational and multicentre Phase IIIb study on the changes in ocular signs, symptoms and conjunctival inflammatory markers in patients with OHT, primary OAG, or capsular glaucoma who switched from preservative-containing latanoprost 0.005% eye drops to preservative-free Saflutan 0.0015% eye drops. A total of 158 patients were enrolled in the study. The results indicated improvements with Saflutan across a number of areas (ocular symptom scores, ocular signs, Quality of Life measures, and drop discomfort) at Week 12. There were improvements in one conjunctival inflammatory marker; however, the other marker (HLA-DR positive epithelial cells) was only significantly improved at 6 weeks and not at 12 weeks. Furthermore, the results indicated maintenance of IOP control over 12 weeks of treatment following the switch from latanoprost to Saflutan. However, due to the open uncontrolled study design, these findings have limited significance and the results should be interpreted with caution.
Irrespective of the results comparing Saflutan to latanoprost, the adequate, well-controlled studies demonstrating statistically and clinically significant decreases in IOP in patients treated with Saflutan 0.0015% (tafluprost ophthalmic solution) support the effectiveness of this treatment. Furthermore, sustained efficacy over a 24-month monitoring period was also observed.
For more information, refer to the Saflutan Product Monograph, approved by Health Canada and available through the Drug Product Database.
Clinical Safety
The clinical safety of Saflutan was assessed in the Phase II and Phase III studies by recording adverse events (AEs), laboratory evaluations (blood chemistry, haematology, and urinalysis) and vital signs assessment. In addition, specific ocular safety assessments were conducted.
The results showed that Saflutan elicited more AEs than latanoprost. As well, there was no improvement in ocular AEs with Saflutan compared to latanoprost (conjunctival/ocular hyperemia, eye pain, eye pruritus). Compared to non-prostaglandin treatment (timolol), Saflutan 0.0015% once a day (q.d.) was associated with increased rates of eyelid pigmentation, eyelash changes, and iris pigmentation, which are AEs commonly associated with prostaglandin analogues.
The ocular AEs of special interest (also the most common ocular AEs), reported without regard to causality, for the Saflutan group in the five pooled masked Phase II/III studies included conjunctival hyperemia (10.7%), ocular stinging/irritation (7.2%), ocular pruritus (4.9%) and ocular pain (3.4%). The drug-related AEs of special interest for Saflutan were hyperemia (9.7%), ocular stinging and irritation (6.2%), ocular pruritus (3.8%), and ocular pain (2.8%). Study results also indicated that the AEs observed are likely prostaglandin-related and may not be entirely attributable to the BAK preservative.
The most common systemic AEs (≥2% pooled masked Phase II/III), reported without regard to causality, during treatment with Saflutan 0.0015% q.d. were headache (5.6%), common cold (4.0%), cough (3.0%) and urinary tract infection (2.0%). Clinical evidence of lack of effect on vital signs and, in particular, the lack of cardiovascular effect with the use of Saflutan was demonstrated in the human Phase I-III clinical studies. Overall, for biomicroscopy and ophthalmoscopic findings, the effects of Saflutan were mostly mild and no clinically meaningful differences between Saflutan 0.0015% q.d., latanoprost 0.005% q.d, or timolol 0.5% b.i.d were observed.
Local ocular AEs including ocular/conjunctival hyperemia, eye irritation, eye pain, eye pruritus, eyelid oedema, erythema of eyelid, hypertrichosis of eyelid, blepharitis and foreign body sensation have been reported as part of the post-marketing safety experience. Iris darkening and blepharal pigmentation is a common AE of all prostaglandins. Due to the lack of detailed medical information presented in the post-marketing adverse drug reports (ADR), no definitive conclusions or inferences can be drawn concerning possible association between Saflutan treatment and cardiovascular adverse events. Based on reported cases of dizziness and asthma/cough in post-market safety studies, the proposed Saflutan Product Monograph was updated to include these reported ADRs.
A Notice of Deficiency (NOD) for the New Drug Submission (NDS) (control number 135836) was issued on February 11, 2011, regarding concerns of cardiovascular toxicity caused by Saflutan. Health Canada was of the opinion that a thorough QT/QTc prolongation study in humans was lacking. Health Canada refused the sponsor's request for the waiver to perform a thorough QT/QTc prolongation study. In response, the submission was re-filed on June 10, 2013. The sponsor addressed all of the NOD issues, provided additional clinical and post-marketing data and a clear rationale for waiver of a QT/QTc prolongation study based on the clinical pharmacology and safety profile of the product. An overall evaluation of the safety pharmacology studies submitted in the refiled NDS was performed. Health Canada agreed with the sponsor that the completed pre-clinical studies were adequate to assess the risk of QTc prolongation. As there were no pre-clinical QTc signals with large exposure margins in multiple models, the sponsor was granted the waiver for a clinical QTc prolongation study in humans. The submitted data (including the pharmacologic profile, pre-clinical testing and clinical data) were considered comprehensive and sufficient to characterize the cardiovascular safety of Saflutan ophthalmic solution for the treatment of elevated IOP in patients with OAG and OHT.
Overall, the data contained in the current submission established the safety and efficacy of Saflutan 0.0015% q.d. for the treatment of elevated IOP in patients with OAG and OHT. Appropriate warnings and precautions are in place in the approved Saflutan Product Monograph to address the identified safety concerns.
For more information, refer to the Saflutan Product Monograph, approved by Health Canada and available through the Drug Product Database.
7.2 Non-Clinical Basis for Decision
The non-clinical studies used in this submission covered all aspects of a standard non-clinical program and included metabolism, pharmacokinetics, primary and secondary pharmacodynamics, local (eye) tolerance studies, and systemic (acute, sub-chronic, and chronic) studies. Genotoxicity studies were conducted using a standard battery of tests. Carcinogenicity and reproduction and developmental studies were also conducted. For all of these studies, appropriate animal species (and multi-species) were used, with different routes of administration, and observations included the standard end-points used in these types of studies. The studies were well designed using the appropriate guidelines. All pivotal studies were conducted under good laboratory practice (GLP) conditions and were well executed and documented.
Primary pharmacology studies indicated that tafluprost acid has about a 12-fold higher affinity for the prostanoid FP receptors than that of latanoprost, and about 1,700-fold higher affinity than that of unoprostone. Primary pharmacology studies supported the drug use at the proposed indication. Central nervous system (CNS) safety pharmacology studies in mice revealed increased reactivity and decreased motility in a small number of mice at 100 mcg/kg. There was no effect on locomotion at the same dose level which represents more than 6,000-fold the proposed human clinical dose. Tafluprost acid did not produce inhibition of human Ether-à-go-go-Related Gene (hERG) potassium tail current and did not affect any action potential parameters of isolated dog Purkinje fibres at concentration levels up to 100 ng/mL. In in vivo cardiovascular safety pharmacology studies, both tafluprost and latanoprost induced a transient increase in respiratory parameters in rats (i.e., blood pressure and heart rate). In tafluprost groups, these increases were evident at dose levels ≥0.1 mcg/kg compared to latanoprost at ≥1 mcg/kg and endogenous prostaglandin (PGF2α) at ≥10 mcg/kg. No QT/QTc prolongation effect caused by tafluprost was observed in safety pharmacology studies. In both in vitro and in vivo studies, the metabolism of tafluprost involved its hydrolysis to its active metabolite, tafluprost acid. After tafluprost conversion to tafluprost acid, it was rapidly absorbed and distributed throughout all the ocular tissues. The maximum concentration (Cmax) for ocular tissues was in the range of 5-15 minutes, and it reaches systemic tissues within 5-30 minutes. Tafluprost and its metabolites were almost completely eliminated through urine and feces within 168 hours after ocular administration. The results of primary pharmacology and pharmacokinetic studies were supportive of tafluprost use as an ocular agent for the treatment of glaucoma and chronic OHT.
The local adverse effects to the eye in non-clinical studies included transient nonspecific irritation toxicity (conjunctival redness, corneal precipitates, corneal opacity and erosions, punctuate keratopathy, and positive corneal fluorescein staining). These findings were also present in the control vehicle treated eyes, some untreated eyes and in the comparator (latanoprost) groups, and were not considered clinically relevant. The adverse local effects included iridial darkening, blue-grayish discoloration of the lower eyelids and "sunken" eyelids (indentation between eyebrow and globe). Iris colour change was noted in all groups. These adverse findings did not impair the functionality of the eye, and thus are considered to be only cosmetic in nature. Iridial discoloration is a known drug-class effect of prostaglandin F2alpha (PGF2α) analogues. The relative exposure compared to humans and safety margins in monkey ocular studies ranging from 28-days to 52-weeks were approximately 332-444-fold [based on Cmax and 256-332-fold as per the area under the curve (AUC)].
Reproductive and developmental studies indicated that tafluprost can induce embryo-fetal lethality, fetal growth retardation and has teratogenic effects when administered to rats and rabbits. However, it cannot be concluded with any certainty if the effects represent a trend extending to lower dose levels, or if they were just background defects. Thus, the no-observed effect level could not be established for the embryo-fetal toxicity study in rabbits.
For more information, refer to the Saflutan Product Monograph, approved by Health Canada and available through the Drug Product Database.
7.3 Quality Basis for Decision
The Chemistry and Manufacturing information submitted for Saflutan has demonstrated that the drug substance and drug product can be consistently manufactured to meet the approved specifications. Proper development and validation studies were conducted, and adequate controls are in place for the commercial processes. Changes to the manufacturing process and formulation made throughout the pharmaceutical development are considered acceptable upon review. Based on the stability data submitted, the proposed shelf-life of 36 months is acceptable.
Proposed limits of drug-related impurities are considered adequately qualified, within International Conference on Harmonisation (ICH) limits and/or qualified from toxicological studies.
All sites involved in production are compliant with Good Manufacturing Practices.
All non-medicinal ingredients (described earlier) found in the drug product are acceptable for use in drugs according to the Food and Drug Regulations.
No excipient used in the manufacturing of Saflutan is of animal origin. Therefore there is no risk for Transmitting Animal Spongiform Encephalopathy (TSE).