This is a Phase 2, prospective, randomized, double-masked, vehicle controlled, single-center study in approximately 12 subjects with LHON to evaluate safety, tolerability and efficacy of elamipretide (MTP-131) topical ophthalmic solution in this patient population. At the conclusion of 52 weeks of treatment, subjects will be offered the opportunity to enter an Open Label Extension for up to 48 additional weeks of treatment.
This was a prospective, randomized, double-masked (DM), vehicle-controlled, single-center study plus open label extension period (OLE) in which approximately 12 subjects with LHON having the genetic mtDNA mutation m.11778G\>A were randomized in a masked manner into 1 of 3 groups in a 1:1:1 ratio: one drop of elamipretide 1.0% topical ophthalmic solution twice daily (BID) in the: left eye, right eye, or both eyes. After completion of the 52-week treatment period or the Week 56 follow-up period, subjects were invited to participate in the OLE period for up to 108 weeks. During the OLE participants received 1% topical opthalmic elamipretide in both eyes (OU) daily. If a subject did not consent to the OLE, he/she completed the study at the Week 56 (±7 days) visit. There were 4 periods in this study: (1) screening period (up to 6 weeks); (2) double-masked treatment period (52 weeks); (3) OLE period (up to 108 weeks), and (4) follow-up period (4 weeks) after completion of End-of-Treatment (EOT) visit.
Study Type
INTERVENTIONAL
Allocation
RANDOMIZED
Purpose
TREATMENT
Masking
QUADRUPLE
Enrollment
12
Doheny Eye Center
Pasadena, California, United States
Double Masked Period: Incidence of Ocular TEAEs
The incidence of ocular treatment emergent adverse events (TEAEs).
Time frame: Assessed at each visit: Baseline, Day 5 Visit, Weeks 4, 8, 12, 16, 20, 24, 28, 32, 36, 40, 44, 48, 52 (End of treatment visit) and Week 56 (Follow up visit)
Open Label Extension: Incidence of Ocular TEAEs
Open Label Extension: The incidence of ocular treatment emergent adverse events (TEAEs).
Time frame: Assessed at Week 68, 84, 100, 116, 132, 148, 152, Week 160/ (End of treatment visit)
Double Masked Period: Severity of Ocular TEAEs
The severity of ocular treatment emergent adverse events (TEAEs).
Time frame: Assessed at each visit: Baseline, Day 5 Visit, Weeks 4, 8, 12, 16, 20, 24, 28, 32, 36, 40, 44, 48, 52 (End of treatment visit) and Week 56 (Follow up visit)
OLE: Severity of Ocular TEAEs
The severity of ocular treatment emergent adverse events (TEAEs).
Time frame: Assessed at Week 68, 84, 100, 116, 132, 148, 152, Week 160/ (End of treatment visit)
Double Masked Period: Best Corrected Visual Acuity (BCVA)
Double Masked Period: Best corrected visual acuity (BCVA) using the using the Early Treatment Diabetic Retinopathy Study (ETDRS) scale by visit. ETDRS charts present a series of five letters of equal difficulty on each row, with standardized spacing between letters and rows; there is a total of 14 lines (70 letters), with letter size increasing further geometrically and equivalently in every line by a factor of 1.2589 (or 0.1 log unit), moving up the chart. Minimum score of zero, maximum score of 100. Change from baseline: a more negative score is worse outcome, a more positive score is better outcome. A lower score means less letters were read correctly (worse outcome) and a higher score means more letters were read correctly (better outcome).
Time frame: Assessed at each visit: Baseline, Day 5 Visit, Weeks 4, 8, 12, 16, 20, 24, 28, 32, 36, 40, 44, 48, 52 (End of treatment visit) and Week 56 (Follow up visit)
Open Label Extension Period: Best Corrected Visual Acuity (BCVA) Using the Using the Early Treatment Diabetic Retinopathy Study (ETDRS) Scale
Open Label Extension Period: Best corrected visual acuity (BCVA) using the using the Early Treatment Diabetic Retinopathy Study (ETDRS) scale by visit. ETDRS charts present a series of five letters of equal difficulty on each row, with standardized spacing between letters and rows; there is a total of 14 lines (70 letters), with letter size increasing further geometrically and equivalently in every line by a factor of 1.2589 (or 0.1 log unit), moving up the chart. Minimum score of zero, maximum score of 100. Change from baseline: a more negative score is worse outcome, a more positive score is better outcome. A lower score means less letters were read correctly (worse outcome) and a higher score means more letters were read correctly (better outcome).
Time frame: Assessed at each visit from Baseline from Week 68 to Week 160 (follow-up visit).
Double Masked Period: Photopic Negative Response Electroretinography (PhNR-ERG) A-wave Amplitude
Change from baseline in photopic negative response electroretinography (PhNR-ERG) a-wave amplitude by Visit. Photopic negative response electroretinography (PhNR-ERG) assesses retinal cell function. A decrease in the amplitude of the a-wave is associated with worse outcomes. Change from baseline in a-wave amplitude: a more positive number equals a decrease in amplitude, and therefore a worse outcome, a more negative number mean a better outcome.
Time frame: Assessed at each visit from Baseline to Week 56 (follow-up visit), except for Day 5 visit.
Open Label Extension Period: Photopic Negative Response Electroretinography (PhNR-ERG) A-wave Amplitude
Change from baseline in photopic negative response electroretinography (PhNR-ERG) a-wave Amplitude by Visit. Photopic negative response electroretinography (PhNR-ERG) assesses retinal cell function. A decrease in the amplitude of the a-wave is associated with worse outcomes. Change from baseline in a-wave amplitude: a more positive number equals a decrease in amplitude, and therefore a worse outcome, a more negative number mean a better outcome.
Time frame: Assessed at each visit from Baseline from Week 68 to Week 160
Double Masked Period: Photopic Negative Response Electroretinography (PhNR-ERG) B-wave Amplitude
Change from baseline in photopic negative response electroretinography (PhNR-ERG) b-wave amplitude by visit. Photopic negative response electroretinography (PhNR -ERG) assesses retinal cell function. A decrease in the amplitude of the b-wave is associated with worse outcomes. Change from baseline in b-wave amplitude: a more negative number equals a decrease in amplitude, and therefore a worse outcome, a more positive number mean a better outcome.
Time frame: Assessed at each visit from Baseline to Week 56 (follow-up visit), except for Day 5 visit.
Open Label Extension Period: PhNR-ERG B-wave Amplitude
Change from baseline in photopic negative response electroretinography (PhNR-ERG) b-wave Amplitude by Visit. Photopic negative response electroretinography (PhNR -ERG) assesses retinal cell function. A decrease in the amplitude of the b-wave is associated with worse outcomes. Change from baseline in b-wave amplitude: a more negative number equals a decrease in amplitude, and therefore a worse outcome, a more positive number means a better outcome.
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Time frame: Assessed at each visit from Baseline from Week 68 to Week 160
Double Masked Period: PhNR Amplitude
Double Masked Period: Change from baseline in PhNR Amplitude by Visit. Photopic negative response electroretinography (PhNR -ERG) assesses retinal cell function. A decrease in PhNR amplitude means worse outcome. Change from baseline: A more negative number means a better outcome, a more positive number means a worse outcome.
Time frame: Assessed at each visit from Baseline to Week 56 (follow-up visit), except for Day 5 visit.
Open Label Extension Period: PhNR Amplitude
Open Label Extension Period: Change from baseline in PhNR Amplitude by Visit. Photopic negative response electroretinography (PhNR -ERG) assesses retinal cell function. A decrease in PhNR amplitude means worse outcome. Change from baseline: A more negative number means a better outcome, a more positive number means a worse outcome.
Time frame: Assessed at each visit from Baseline from Week 68 to Week 160
Double Masked Period: PhNR/B-wave Amplitude Ratio
Double Masked Period: Change from baseline in PhNR/b-wave amplitude ratio by Visit. Photopic negative response electroretinography (PhNR assesses retinal cell function. A decrease in PhNR amplitude means worse outcome.
Time frame: Assessed at each visit from Baseline to Week 56 (follow-up visit), except for Day 5 visit.
Open Label Extension Period: Change From Baseline by Visit PhNR/b Wave Amplitude Ratio
Open Label Extension Period: Change from baseline by visit PhNR/b Wave Amplitude Ratio by visit. A reduced amplitude ratio equals worse outcome.
Time frame: Assessed at each visit from Baseline from Week 68 to Week 160
Double Masked Period: Change From Baseline by Visit PhNR Peak to Trough Adjusted for A-wave Amplitude
Double Masked Period: Change from baseline by visit in PhNR Peak to Trough Adjusted for a-wave Amplitude by Visit. Calculated as (b-wave amplitude - PhNR amplitude)/a-wave amplitude. A reduced amplitude ratio equals worse outcome.
Time frame: Assessed at each visit from Baseline to Week 56 (follow-up visit), except for Day 5 visit.
Open Label Extension Period: Change From Baseline by Visit PhNR Peak to Trough Adjusted for A-wave Amplitude
Open Label Extension Period: Change from baseline by visit in PhNR Peak to Trough Adjusted for a-wave Amplitude by Visit. \[Calculated by b-wave amplitude - PhNR amplitude)/a-wave amplitude.\] Photopic negative response electroretinography (PhNR-ERG) assesses retinal cell function. A decrease in the amplitude of the a-wave is associated with worse outcomes. A reduced amplitude ratio equals worse outcome.
Time frame: Assessed at each visit from Baseline from Week 68 to Week 160
Double Masked Period: PhNR Peak to Trough Amplitude (Unadjusted) From Baseline
Double Masked Period: Change from baseline in PhNR Peak to Trough Amplitude (Unadjusted) by Visit. Calculated as b-wave amplitude - PhNR amplitude. Photopic negative response electroretinography (PhNR-ERG) assesses retinal cell function. A decrease in amplitude is associated with worse outcomes.
Time frame: Assessed at each visit from Baseline to Week 56 (follow-up visit), except for Day 5 visit.
Open Label Extension Period: PhNR Peak to Trough Amplitude (Unadjusted)
Open Label Extension Period: Change from baseline in PhNR Peak to Trough Amplitude (Unadjusted) by Visit. b-wave amplitude - PhNR amplitude. Photopic negative response electroretinography (PhNR-ERG) assesses retinal cell function. A decrease in the amplitude of the a-wave is associated with worse outcomes.
Time frame: Assessed at each visit from Baseline from Week 68 to Week 160
Double Masked: VFQ-39 Composite
Double Masked: Change from baseline in Visual Function Questionnaire (VFQ-39) Composite score by visit. National Eye Institute VFQ-39 measures health-related quality of life in 12 domains: general vision, ocular pain, near activities, distance activities, vision-specific social functioning, vision-specific mental health, vision-specific role difficulties, vision-specific dependency, driving, color vision, peripheral vision, and composite score. For each domain: the lowest and highest possible scores are 0 and 100 points, respectively. Higher score means higher functioning. Scores represent the achieved percentage of the total possible score, e.g. a score of 50 represents 50% of the highest possible score. For the composite score, the vision-targeted sub-scale scores are averaged, excluding the general health questions. Domain scores from each cohort are averaged and the change from baseline per domain is calculated.
Time frame: Assessed at Baseline, Week 52 (end-of-treatment visit) and Week 56 (follow-up visit)
Open Label Extension Period: VFQ-39 Composite Score
Change from baseline in Visual Function Questionnaire (VFQ-39) Composite score.National Eye Institute VFQ-39 measures health-related quality of life in 12 domains: general vision, ocular pain, near activities, distance activities, vision-specific social functioning, vision-specific mental health, vision-specific role difficulties, vision-specific dependency, driving, color vision, peripheral vision, and composite score. For each domain: the lowest and highest possible scores are 0 and 100 points, respectively. Higher score means higher functioning. Scores represent the achieved percentage of the total possible score, e.g. a score of 50 represents 50% of the highest possible score. For the composite score, the vision-targeted sub-scale scores are averaged, excluding the general health questions. Domain scores from each cohort are averaged and the change from baseline per domain is calculated.
Time frame: Assessed at Baseline, Week 160 (End of OLE Period)
Open Label Extension Period: VFQ-39 General Health Score
Change from baseline in Visual Function Questionnaire (VFQ-39) General Health score. National Eye Institute VFQ-39 score measures health-related quality of life of subjects with visual impairment, in 12 domains: general vision, ocular pain, near activities, distance activities, vision-specific social functioning, vision-specific mental health, vision-specific role difficulties, vision-specific dependency, driving, color vision, and peripheral vision and 1 composite score. Each domain is converted to a 0 to 100 scale; the lowest and highest possible scores are set at 0 and 100 points, respectively. Higher score means higher functioning. Scores represent the achieved percentage of the total possible score, e.g. a score of 50 represents 50% of the highest possible score. For the composite score, the vision-targeted sub-scale scores are averaged, excluding the general health questions. Domain scores from each cohort are averaged and the change from baseline per domain is calculated.
Time frame: Assessed at Baseline, Week 160 (End of OLE Period)
Double Masked: VFQ-39 General Vision Score
Change from baseline in VFQ-39 General Vision Score. National Eye Institute VFQ-39 score measures health-related quality of life of subjects with visual impairment, in 12 domains: general vision, ocular pain, near activities, distance activities, vision-specific social functioning, vision-specific mental health, vision-specific role difficulties, vision-specific dependency, driving, color vision, and peripheral vision and 1 composite score. Each domain is converted to a 0 to 100 scale; the lowest and highest possible scores are set at 0 and 100 points, respectively. Higher score means higher functioning. Scores represent the achieved percentage of the total possible score, e.g. a score of 50 represents 50% of the highest possible score. For the composite score, the vision-targeted sub-scale scores are averaged, excluding the general health questions. Domain scores from each cohort are averaged and the change from baseline per domain is calculate
Time frame: Assessed at Baseline, Week 52 (end-of-treatment visit) and Week 56 (follow-up visit)
Open Label Extension Period: VFQ-39 General Vision Score
Change from baseline in VFQ-39 General Vision score. National Eye Institute VFQ-39 score measures health-related quality of life of subjects with visual impairment, in 12 domains: general vision, ocular pain, near activities, distance activities, vision-specific social functioning, vision-specific mental health, vision-specific role difficulties, vision-specific dependency, driving, color vision, and peripheral vision and 1 composite score. Each domain is converted to a 0 to 100 scale; the lowest and highest possible scores are set at 0 and 100 points, respectively. Higher score means higher functioning. Scores represent the achieved percentage of the total possible score, e.g. a score of 50 represents 50% of the highest possible score. For the composite score, the vision-targeted sub-scale scores are averaged, excluding the general health questions. Domain scores from each cohort are averaged and the change from baseline per domain is calculate
Time frame: Assessed at Baseline, Week 160 (End of OLE Period)
Double Masked: VFQ-39 Ocular Pain Score
Change from baseline in VFQ-39 Ocular Pain score. National Eye Institute VFQ-39 measures health-related quality of life in 12 domains: general vision, ocular pain, near activities, distance activities, vision-specific social functioning, vision-specific mental health, vision-specific role difficulties, vision-specific dependency, driving, color vision, peripheral vision, and composite score. For each domain: the lowest and highest possible scores are 0 and 100 points, respectively. Higher score means higher functioning. Scores represent the achieved percentage of the total possible score, e.g. a score of 50 represents 50% of the highest possible score. For the composite score, the vision-targeted sub-scale scores are averaged, excluding the general health questions. Domain scores from each cohort are averaged and the change from baseline per domain is calculated.
Time frame: Assessed at Baseline, Week 52 (end-of-treatment visit) and Week 56 (follow-up visit)
Open Label Extension Period: VFQ-39 Ocular Pain Score
Change from baseline in VFQ-39 Ocular Pain score by visit. National Eye Institute VFQ-39 measures health-related quality of life in 12 domains: general vision, ocular pain, near activities, distance activities, vision-specific social functioning, vision-specific mental health, vision-specific role difficulties, vision-specific dependency, driving, color vision, peripheral vision, and composite score. For each domain: the lowest and highest possible scores are 0 and 100 points, respectively. Higher score means higher functioning. Scores represent the achieved percentage of the total possible score, e.g. a score of 50 represents 50% of the highest possible score. For the composite score, the vision-targeted sub-scale scores are averaged, excluding the general health questions. Domain scores from each cohort are averaged and the change from baseline per domain is calculated.
Time frame: Assessed at Baseline, Week 160 (End of OLE Period)
Double Masked: VFQ-39 Near Activities Score
Change from Baseline in VFQ-39 Near Activities Score from Baseline. National Eye Institute VFQ-39 measures health-related quality of life in 12 domains: general vision, ocular pain, near activities, distance activities, vision-specific social functioning, vision-specific mental health, vision-specific role difficulties, vision-specific dependency, driving, color vision, peripheral vision, and composite score. For each domain: the lowest and highest possible scores are 0 and 100 points, respectively. Higher score means higher functioning. Scores represent the achieved percentage of the total possible score, e.g. a score of 50 represents 50% of the highest possible score. For the composite score, the vision-targeted sub-scale scores are averaged, excluding the general health questions. Domain scores from each cohort are averaged and the change from baseline per domain is calculated.
Time frame: Assessed at Baseline, Week 52 (end-of-treatment visit) and Week 56 (follow-up visit)
Open Label Extension Period: VFQ-39 Near Activities
Change from Baseline in Visual Function Questionnaire (VFQ-39) Near Activities score.. National Eye Institute VFQ-39 score measures health-related quality of life of subjects with visual impairment, in 12 domains: general vision, ocular pain, near activities, distance activities, vision-specific social functioning, vision-specific mental health, vision-specific role difficulties, vision-specific dependency, driving, color vision, and peripheral vision and 1 composite score. Each domain is converted to a 0 to 100 scale; score ranges from 0 and 100 points, respectively. Higher score means higher functioning. Scores represent the achieved percentage of the total possible score, e.g. a score of 50 represents 50% of the highest possible score. For the composite score, the vision-targeted sub-scale scores are averaged, excluding the general health questions. Domain scores from each cohort are averaged and the change from baseline per domain is calculated.
Time frame: Assessed at Baseline, Week 160 (End of OLE Period)
Double Masked Period: Mean Retinal Nerve Fiber (RNFL) Layer Thickness
Change from baseline in retinal nerve fiber layer thickness by spectral domain optical coherence tomography (SD-OCT). RNFL measures the loss of retinal ganglion cell axons. RNFL thickness decreases as disease progresses. A positive number, or, absence of change from baseline reflects a good clinical outcome, a negative number reflects loss of thickness, or a bad outcome.
Time frame: Assessed at Baseline and Week 52 (end-of-treatment visit)
Open Label Extension Period: Retinal Nerve Fiber Layer Thickness
Open Label Extension Period: Change from baseline in Retinal Nerve Fiber Layer Thickness by SD-OCT by visit. Change from baseline in retinal nerve fiber layer thickness by spectral domain optical coherence tomography (SD-OCT). RNFL measures the loss of retinal ganglion cell axons. RNFL thickness decreases as disease progresses. A positive number, or, absence of change from baseline reflects a good clinical outcome, a negative number reflects loss of thickness, or a bad outcome.
Time frame: Assessed at Baseline, Week 148
Double Masked Period: Visual Field Mean Deviation as Measured by Humphrey Automated Visual Field Testing Stimulus III
Change from Baseline in visual field Mean Deviation(MD) as measured by Humphrey automated visual field testing stimulus III by visit. The Humphrey visual field test measures the entire area of peripheral vision that can be seen while the eye is focused on a central point. Mean deviation (MD) is the mean deviation in the patient's results compared to those expected from the age-matched normative database. Lower/More negative scores mean worse outcome, higher/more positive score means better outcome.
Time frame: Assessed at each visit from Baseline to Week 56 (follow-up visit), except for Day 5 visit.
Open Label Extension Period: Visual Field Mean Deviation (dB) Measured by Humphrey From Baseline
Change from Baseline in visual field Mean Deviation(MD) as measured by Humphrey automated visual field testing stimulus III by visit. The Humphrey visual field test measures the entire area of peripheral vision that can be seen while the eye is focused on a central point. Mean deviation (MD) is the mean deviation in the patient's results compared to those expected from the age-matched normative database. Lower/More negative scores mean worse outcome, higher/more positive score means better outcome.
Time frame: Assessed at each visit from Baseline from Week 68 to Week 160
Double Masked Period: Color Discrimination - Number of Plates
Double Masked Period: Change from Baseline in Color Discrimination - Number of Plates from Baseline by Visit by Ishihara Test. Score range: 0-38. Higher number equals better color discrimination equals better outcome. Lower number equals worse color discrimination equals worse outcome.
Time frame: Assessed at each visit from Baseline to Week 56 (follow-up visit)
Open Label Extension Period: Change From Baseline in Color Discrimination - Number of Plates by Visit
Open Label Extension Period: Change from Baseline in Color Discrimination - Number of Plates from Baseline by Visit by Ishihara Test. Score range: 0-38. Higher number equals better color discrimination equals better outcome. Lower number equals worse color discrimination equals worse outcome.
Time frame: Assessed at each visit from Baseline from Week 68 to Week 160
Double Masked Period: Change From Baseline in Contrast Sensitivity by Pelli-Robson Contrast Sensitivity Chart by Visit
Letters are arranged on a 60 x 85 cm chart in sets of triplets which contain the same contrast, decreasing in log10 contrast from top to bottom and left to right as participant progresses from one triplet to the other. Each group of three letters is decreased in contrast by a factor 0.71 (1/√2) (log contrast 0.15) of the proceeding set. Participant reads letters, starting with highest contrast, until unable to read letters in a single group. Score is based on the contrast of the last group read correctly.The size of the letters on the chart subtend 0.5 degrees at 3m, The test is scored in LogCS units, where each set of triplets advances in steps of 0.15 log units ranging from LogCS of 0.00 (approx. 100% contrast) to LogCS 2.25 (approx. 0.56% contrast). Change from baseline: the more negative the number means poor outcome, the more positive the number means better outcome.
Time frame: Assessed at each visit from Baseline to Week 56 (follow-up visit)
Open Label Extension Period: Change From Baseline in Contrast Sensitivity by Visit
Letters are arranged on a 60 x 85 cm chart in sets of triplets which contain the same contrast, decreasing in log10 contrast from top to bottom and left to right as participant progresses from one triplet to the other. Each group of three letters is decreased in contrast by a factor 0.71 (1/√2) (log contrast 0.15) of the proceeding set. Participant reads letters, starting with highest contrast, until unable to read letters in a single group. Score is based on the contrast of the last group read correctly. The size of the letters on the chart subtend 0.5 degrees at 3m, The test is scored in LogCS units, where each set of triplets advances in steps of 0.15 log units ranging from LogCS of 0.00 (approx. 100% contrast) to LogCS 2.25 (approx. 0.56% contrast). Change from baseline: the more negative the number means poor outcome, the more positive the number means better outcome.
Time frame: Assessed at each visit from Baseline from Week 68 to Week 160
Double Masked Change From Baseline in Retinal Ganglion Cell Layer Thickness
Change from baseline in Retinal Ganglion Cell Layer Thickness by SD-OCT From Baseline by Visit
Time frame: Assessed at Baseline and Week 52 (end-of-treatment visit)
Open Label Extension Period: Change From Baseline in Retinal Ganglion Cell Layer Thickness
Open Label Extension Period: Change from baseline in Retinal Ganglion Cell Layer Thickness by SD-OCT by SD-OCT by visit
Time frame: Assessed at Baseline, Week 148,
Double Masked: VFQ-39 Distance Activities Score
Change from baseline in Visual Function Questionnaire (VFQ-39) Distance Activities score. National Eye Institute VFQ-39 score measures health-related quality of life of subjects with visual impairment, in 12 domains: general vision, ocular pain, near activities, distance activities, vision-specific social functioning, vision-specific mental health, vision-specific role difficulties, vision-specific dependency, driving, color vision, and peripheral vision and 1 composite score. Each domain is converted to a 0 to 100 scale; the lowest and highest possible scores are set at 0 and 100 points, respectively. Higher score means higher functioning. Scores represent the achieved percentage of the total possible score, e.g. a score of 50 represents 50% of the highest possible score. For the composite score, the vision-targeted sub-scale scores are averaged, excluding the general health questions. Domain scores from each cohort are averaged and the change from baseline per domain is calculated.
Time frame: Assessed at Baseline, Week 52 (end-of-treatment visit) and Week 56 (follow-up visit)
Open Label Extension Period: VFQ-39 Distance Activities Score
Change in Visual Function Questionnaire (VFQ-39) Distance Activities Score.National Eye Institute VFQ-39 score measures health-related quality of life of subjects with visual impairment, in 12 domains: general vision, ocular pain, near activities, distance activities, vision-specific social functioning, vision-specific mental health, vision-specific role difficulties, vision-specific dependency, driving, color vision, and peripheral vision and 1 composite score. Each domain is converted to a 0 to 100 scale; the lowest and highest possible scores are set at 0 and 100 points, respectively. Higher score means higher functioning. Scores represent the achieved percentage of the total possible score, e.g. a score of 50 represents 50% of the highest possible score. For the composite score, the vision-targeted sub-scale scores are averaged, excluding the general health questions. Domain scores from each cohort are averaged and the change from baseline per domain is calculated.
Time frame: Assessed at Baseline, Week 160 (End of OLE Period)
Open Label Extension Period: VFQ-39 Social Functioning Score
Change from baseline in Visual Function Questionnaire (VFQ-39) Social Functioning Score. National Eye Institute VFQ-39 score measures health-related quality of life of subjects with visual impairment, in 12 domains: general vision, ocular pain, near activities, distance activities, vision-specific social functioning, vision-specific mental health, vision-specific role difficulties, vision-specific dependency, driving, color vision, and peripheral vision and 1 composite score. Each domain is converted to a 0 to 100 scale; the lowest and highest possible scores are set at 0 and 100 points, respectively. Higher score means higher functioning. Scores represent the achieved percentage of the total possible score, e.g. a score of 50 represents 50% of the highest possible score. For the composite score, the vision-targeted sub-scale scores are averaged, excluding the general health questions. Domain scores from each cohort are averaged and the change from baseline per domain is calculated.
Time frame: Assessed at Baseline, Week 160 (End of OLE Period)
Double Masked: VFQ-39 Social Functioning Score.
Change from baseline in Visual Function Questionnaire (VFQ-39) Social Functioning score. National Eye Institute VFQ-39 score measures health-related quality of life of subjects with visual impairment, in 12 domains: general vision, ocular pain, near activities, distance activities, vision-specific social functioning, vision-specific mental health, vision-specific role difficulties, vision-specific dependency, driving, color vision, and peripheral vision and 1 composite score. Each domain is converted to a 0 to 100 scale; the lowest and highest possible scores are set at 0 and 100 points, respectively. Higher score means higher functioning. Scores represent the achieved percentage of the total possible score, e.g. a score of 50 represents 50% of the highest possible score. For the composite score, the vision-targeted sub-scale scores are averaged, excluding the general health questions. Domain scores from each cohort are averaged and the change from baseline per domain is calculated.
Time frame: Assessed at Baseline, Week 52 (end-of-treatment visit) and Week 56 (follow-up visit)
Double Masked: VFQ-39 Mental Health Score
Change from baseline in Visual Function Questionnaire (VFQ-39) Mental Health score. National Eye Institute VFQ-39 score measures health-related quality of life of subjects with visual impairment, in 12 domains: general vision, ocular pain, near activities, distance activities, vision-specific social functioning, vision-specific mental health, vision-specific role difficulties, vision-specific dependency, driving, color vision, and peripheral vision and 1 composite score. Each domain is converted to a 0 to 100 scale; the lowest and highest possible scores are set at 0 and 100 points, respectively. Higher score means higher functioning. Scores represent the achieved percentage of the total possible score, e.g. a score of 50 represents 50% of the highest possible score. For the composite score, the vision-targeted sub-scale scores are averaged, excluding the general health questions. Domain scores from each cohort are averaged and the change from baseline per domain is calculated.
Time frame: Assessed at Baseline, Week 52 (end-of-treatment visit) and Week 56 (follow-up visit)
Open Label Extension Period: VFQ-39 Mental Health Score
Change from baseline in Visual Function Questionnaire (VFQ-39) Mental Health Score . National Eye Institute VFQ-39 score measures health-related quality of life of subjects with visual impairment, in 12 domains: general vision, ocular pain, near activities, distance activities, vision-specific social functioning, vision-specific mental health, vision-specific role difficulties, vision-specific dependency, driving, color vision, and peripheral vision and 1 composite score. Each domain is converted to a 0 to 100 scale; the lowest and highest possible scores are set at 0 and 100 points, respectively. Higher score means higher functioning. Scores represent the achieved percentage of the total possible score, e.g. a score of 50 represents 50% of the highest possible score. For the composite score, the vision-targeted sub-scale scores are averaged, excluding the general health questions. Domain scores from each cohort are averaged and the change from baseline per domain is calculated.
Time frame: Assessed at Baseline, Week 160 (End of OLE Period)
Double Masked: VFQ-39 Role Difficulties Score
Change from baseline in Visual Function Questionnaire (VFQ-39) Role Difficulties score National Eye Institute VFQ-39 score measures health-related quality of life of subjects with visual impairment, in 12 domains: general vision, ocular pain, near activities, distance activities, vision-specific social functioning, vision-specific mental health, vision-specific role difficulties, vision-specific dependency, driving, color vision, and peripheral vision and 1 composite score. Each domain is converted to a 0 to 100 scale; the lowest and highest possible scores are set at 0 and 100 points, respectively. Higher score means higher functioning. Scores represent the achieved percentage of the total possible score, e.g. a score of 50 represents 50% of the highest possible score. For the composite score, the vision-targeted sub-scale scores are averaged, excluding the general health questions. Domain scores from each cohort are averaged and the change from baseline per domain is calculated.
Time frame: Assessed at Baseline, Week 52 (end-of-treatment visit) and Week 56 (follow-up visit)
Open Label Extension Period: VFQ-39 Role Difficulties Score
Change from baseline in Visual Function Questionnaire (VFQ-39) Role Difficulties Score. National Eye Institute VFQ-39 score measures health-related quality of life of subjects with visual impairment, in 12 domains: general vision, ocular pain, near activities, distance activities, vision-specific social functioning, vision-specific mental health, vision-specific role difficulties, vision-specific dependency, driving, color vision, and peripheral vision and 1 composite score. Each domain is converted to a 0 to 100 scale; the lowest and highest possible scores are set at 0 and 100 points, respectively. Higher score means higher functioning. Scores represent the achieved percentage of the total possible score, e.g. a score of 50 represents 50% of the highest possible score. For the composite score, the vision-targeted sub-scale scores are averaged, excluding the general health questions. Domain scores from each cohort are averaged and the change from baseline per domain is calculated.
Time frame: Assessed at Baseline, Week 160 (End of OLE Period)
Open Label Extension Period:VFQ-39 Dependency Score
Change from baseline in Visual Function Questionnaire (VFQ-39 ) Dependency Score. National Eye Institute VFQ-39 score measures health-related quality of life of subjects with visual impairment, in 12 domains: general vision, ocular pain, near activities, distance activities, vision-specific social functioning, vision-specific mental health, vision-specific role difficulties, vision-specific dependency, driving, color vision, and peripheral vision and 1 composite score. Each domain is converted to a 0 to 100 scale; the lowest and highest possible scores are set at 0 and 100 points, respectively. Higher score means higher functioning. Scores represent the achieved percentage of the total possible score, e.g. a score of 50 represents 50% of the highest possible score. For the composite score, the vision-targeted sub-scale scores are averaged, excluding the general health questions. Domain scores from each cohort are averaged and the change from baseline per domain is calculated.
Time frame: Assessed at Baseline, Week 160 (End of OLE Period)
Double Masked: VFQ-39 Dependency Score
Change from baseline in Visual Function Questionnaire (VFQ-39) Dependency score. National Eye Institute VFQ-39 score measures health-related quality of life of subjects with visual impairment, in 12 domains: general vision, ocular pain, near activities, distance activities, vision-specific social functioning, vision-specific mental health, vision-specific role difficulties, vision-specific dependency, driving, color vision, and peripheral vision and 1 composite score. Each domain is converted to a 0 to 100 scale; the lowest and highest possible scores are set at 0 and 100 points, respectively. Higher score means higher functioning. Scores represent the achieved percentage of the total possible score, e.g. a score of 50 represents 50% of the highest possible score. For the composite score, the vision-targeted sub-scale scores are averaged, excluding the general health questions. Domain scores from each cohort are averaged and the change from baseline per domain is calculated.
Time frame: Assessed at Baseline, Week 52 (end-of-treatment visit) and Week 56 (follow-up visit)
Double Masked: VFQ-39 Color Vision Score
Change from baseline in Visual Function Questionnaire (VFQ-39) Color Vision score. National Eye Institute VFQ-39 score measures health-related quality of life of subjects with visual impairment, in 12 domains: general vision, ocular pain, near activities, distance activities, vision-specific social functioning, vision-specific mental health, vision-specific role difficulties, vision-specific dependency, driving, color vision, and peripheral vision and 1 composite score. Each domain is converted to a 0 to 100 scale; the lowest and highest possible scores are set at 0 and 100 points, respectively. Higher score means higher functioning. Scores represent the achieved percentage of the total possible score, e.g. a score of 50 represents 50% of the highest possible score. For the composite score, the vision-targeted sub-scale scores are averaged, excluding the general health questions. Domain scores from each cohort are averaged and the change from baseline per domain is calculated.
Time frame: Assessed at Baseline, Week 52 (end-of-treatment visit) and Week 56 (follow-up visit)
Open Label Extension Period: VFQ-39 Color Vision Score
Change from baseline in Visual Function Questionnaire (VFQ-39) Color Vision score. National Eye Institute VFQ-39 score measures health-related quality of life of subjects with visual impairment, in 12 domains: general vision, ocular pain, near activities, distance activities, vision-specific social functioning, vision-specific mental health, vision-specific role difficulties, vision-specific dependency, driving, color vision, and peripheral vision and 1 composite score. Each domain is converted to a 0 to 100 scale; the lowest and highest possible scores are set at 0 and 100 points, respectively. Higher score means higher functioning. Scores represent the achieved percentage of the total possible score, e.g. a score of 50 represents 50% of the highest possible score. For the composite score, the vision-targeted sub-scale scores are averaged, excluding the general health questions. Domain scores from each cohort are averaged and the change from baseline per domain is calculated.
Time frame: Assessed at Baseline, Week 160 (End of OLE Period)
Double Masked: VFQ-39 Peripheral Score
Change from baseline in Visual Function Questionnaire (VFQ-39) Peripheral Score . National Eye Institute VFQ-39 score measures health-related quality of life of subjects with visual impairment, in 12 domains: general vision, ocular pain, near activities, distance activities, vision-specific social functioning, vision-specific mental health, vision-specific role difficulties, vision-specific dependency, driving, color vision, and peripheral vision and 1 composite score. Each domain is converted to a 0 to 100 scale; the lowest and highest possible scores are set at 0 and 100 points, respectively. Higher score means higher functioning. Scores represent the achieved percentage of the total possible score, e.g. a score of 50 represents 50% of the highest possible score. For the composite score, the vision-targeted sub-scale scores are averaged, excluding the general health questions. Domain scores from each cohort are averaged and the change from baseline per domain is calculated.
Time frame: Assessed at Baseline, Week 52 (end-of-treatment visit) and Week 56 (follow-up visit)
Open Label Extension Period: Visual Function Questionnaire (VFQ-39) Peripheral Score
Change from baseline in Visual Function Questionnaire (VFQ-39) Peripheral Score . National Eye Institute VFQ-39 score measures health-related quality of life of subjects with visual impairment, in 12 domains: general vision, ocular pain, near activities, distance activities, vision-specific social functioning, vision-specific mental health, vision-specific role difficulties, vision-specific dependency, driving, color vision, and peripheral vision and 1 composite score. Each domain is converted to a 0 to 100 scale; the lowest and highest possible scores are set at 0 and 100 points, respectively. Higher score means higher functioning. Scores represent the achieved percentage of the total possible score, e.g. a score of 50 represents 50% of the highest possible score. For the composite score, the vision-targeted sub-scale scores are averaged, excluding the general health questions. Domain scores from each cohort are averaged and the change from baseline per domain is calculated.
Time frame: Assessed at Baseline, Week 160 (End of OLE Period)
Double Masked Period: Change in Intraocular Pressure (IOP)
Double Masked Period: Change in intraocular Pressure (IOP) in mmHg from Baseline by Visit
Time frame: Assessed at each visit: Baseline, Day 5 Visit, Weeks 4, 8, 12, 16, 20, 24, 28, 32, 36, 40, 44, 48, 52 (End of treatment visit) and Week 56 (Follow up visit)
Open Label Extension Period: Intraocular Pressure (IOP)
Change from baseline in Intraocular Pressure (IOP) in mmHg by Visit.
Time frame: Assessed at Baseline, Week 68, 84, 100, 116, 132, 148, 152, Week 160/ (End of treatment visit)
OLE: Slit Lamp Examination (SLE)-Vehicle Eye
Open Label Extension: Shift in Slit Lamp Examination from Baseline by Visit: number of eyes that changed from normal or abnormal not clinically significant, to abnormal clinically significant for Vehicle Eyes
Time frame: Assessed at Baseline, Week 68, 84, 100, 116, 132, 148, 152, Week 160/ (End of treatment visit)
OLE: Slit Lamp Examination (SLE)-Elamipretide Eye
Open Label Extension: Shift in Slit Lamp Examination from Baseline by Visit: number of eyes that changed from normal or abnormal not clinically significant, to abnormal clinically significant for Elamipretide Eyes
Time frame: Assessed at Baseline, Week 68, 84, 100, 116, 132, 148, 152, Week 160/ (End of treatment visit)
Double Masked: Slit Lamp Changes From Baseline: Vehicle Eye and Elamipretide Eye
Incidence of Change from normal or Abnormal, clinically insignificant to normal clinically significant
Time frame: Assessed at each visit: Baseline, Day 5 Visit, Weeks 4, 8, 12, 16, 20, 24, 28, 32, 36, 40, 44, 48, 52 (End of treatment visit) and Week 56 (Follow up visit)
Double Masked: Dilated Fundus Changes From Baseline: Vehicle Eye and Elamipretide Eyes
Double Masked: Dilated Fundus Changes from Baseline: Vehicle Eye and Elamipretide Eyes Incidence of Change from normal or Abnormal-clinically insignificant, to normal clinically significant
Time frame: Assessed at each visit: Baseline, Day 5 Visit, Weeks 4, 8, 12, 16, 20, 24, 28, 32, 36, 40, 44, 48, 52 (End of treatment visit) and Week 56 (Follow up visit)
Open Label Extension Period: Dilated Fundus Changes From Baseline: Vehicle Eye and Elamipretide Eyes
Incidence of Change from normal or Abnormal-clinically insignificant, to normal clinically significant
Time frame: Assessed at Baseline, Week 68, 84, 100, 116, 132, 148, 152, Week 160/ (End of treatment visit)
Double Masked: VFQ-39 General Health Score
Change from baseline in Visual Function Questionnaire (VFQ-39) General Health score. National Eye Institute VFQ-39 score measures health-related quality of life of subjects with visual impairment, in 12 domains: general vision, ocular pain, near activities, distance activities, vision-specific social functioning, vision-specific mental health, vision-specific role difficulties, vision-specific dependency, driving, color vision, and peripheral vision and 1 composite score. Each domain is converted to a 0 to 100 scale; the lowest and highest possible scores are set at 0 and 100 points, respectively. Higher score means higher functioning. Scores represent the achieved percentage of the total possible score, e.g. a score of 50 represents 50% of the highest possible score. For the composite score, the vision-targeted sub-scale scores are averaged, excluding the general health questions. Domain scores from each cohort are averaged and the change from baseline per domain is calculated.
Time frame: Assessed at Baseline, Week 52 (end-of-treatment visit) and Week 56 (follow-up visit)