LIGHT ADJUSTABLE LENS (LAL) AND LIGHT DELIVERY DEVICE (LDD)

{0} SUMMARY OF SAFETY AND EFFECTIVENESS DATA (SSED) I. GENERAL INFORMATION Device Generic Name: Posterior Chamber IOL (IOL) UltraViolet (UV) Light Source Device Trade Name: Light Adjustable Lens (LAL)/Light Delivery Device (LDD) Device Procode: PZK Applicant’s Name and Address: RxSight, Inc. 100 Columbia Aliso Viejo, CA 92656 Date(s) of Panel Recommendation: None Premarket Approval Application (PMA) Number: P160055 Date of FDA Notice of Approval: 11/22/2017 II. INDICATIONS FOR USE The Light Adjustable Lens (LAL) and Light Delivery Device (LDD) system is indicated for the reduction of residual astigmatism to improve uncorrected visual acuity after removal of the cataractous natural lens by phacoemulsification and implantation of the intraocular lens in the capsular bag, in adult patients: - With pre-existing corneal astigmatism of ≥ 0.75 diopters - Without pre-existing macular disease The system also reduces the likelihood of clinically significant residual spherical refractive errors. III. CONTRAINDICATIONS Use of the LAL is contraindicated in cases where: 1. The patient is taking systemic medication that may increase sensitivity to UV light such as tetracycline, doxycycline, psoralens, amiodarone, phenothiazines, chloroquine, hydrochlorothiazide, hypercin, ketoprofen, piroxicam, lomefloxacin, and methoxsalen. LDD treatment in patients taking such medications may lead to irreversible phototoxic damage to the eye. Note: This is only a partial list of photosensitizing medications. Evaluate all medications that the patient is taking for this effect prior to consideration for implantation. P160055: FDA Summary of Safety and Effectiveness Data {1} 2. The patient is taking a systemic medication that is considered toxic to the retina such as tamoxifen (e.g., Nolvadex®) as they may be at increased risk of retinal damage during LDD treatment. 3. The patient has a history of ocular herpes simplex virus due to the potential for reactivation from exposure to UV light. 4. The patient has nystagmus as they may not be able to maintain steady fixation during LDD treatment. 5. The patient is unwilling to comply with the postoperative regimen for adjustment and lock-in treatments and wearing of UV protective eyewear. ## IV. WARNINGS AND PRECAUTIONS The warnings and precautions can be found in the Light Adjustable Lens (LAL)/Light Delivery Device (LDD) labeling. ## V. DEVICE DESCRIPTION The Light Adjustable Lens (LAL) is a posterior chamber, UV absorbing, three-piece, foldable, photoreactive silicone intraocular lens with a squared posterior optic edge intended to be implanted in the capsular bag following phacoemulsification. Selective exposure of the implanted RxSight LAL using the Light Delivery Device (LDD) to deliver spatially profiled UV light produces modifications in the lens curvature resulting in a spherical or spherocylindrical power change post-operatively. A subsequent lock-in exposure is delivered to the implanted LAL to stabilize the lens power. ### Lens Optic - Material: Photo-reactive UV absorbing Silicone - Light transmission: UV cut-off at 10% T 385 ± 2 nm for all lens powers - Index of refraction: 1.43 - Diopter (D) power: +10 to +15.0 D and +25.0 to +30.0 D in 1.0 D increments; +16.0 to +24.0 D in 0.5 D increments - Optic type: Biconvex - Optic edge: Square on posterior surface and round on anterior surface - Overall diameter: 13.0 mm - Optic diameter: 6.0 mm ### Haptics - Configuration: Modified C - Material: Blue core polymethylmethacrylate (PMMA) monofilament - Haptic angle: 10° P160055: FDA Summary of Safety and Effectiveness Data {2}  FIGURE 1: LIGHT ADJUSTABLE LENS  FIGURE 2: LIGHT ADJUSTABLE LENS. INSET DEPICTS BACK LAYER. The LAL silicone material is designed to respond to a narrowband UV light of a select spatial intensity profile. The silicone material contains photoreactive additive, which is selectively photo-polymerized in targeted areas upon exposure to the near UV light to alter the lens shape thus modifying spherical and shpero-cylindrical power of the LAL. The Light Delivery Device is a UV light projection system used to induce a predictable change in LAL power after implantation. The LDD consists of an anterior segment biomicroscope with the addition of an optical projection system, electronic control circuitry, and a UV source. The LDD device can treat postoperative manifest cylinder from -0.75 D to -2.00 D, and manifest sphere (in minus cylinder format) of -2.00 D to +2.00 D. The LDD is used to focus on the LAL with a contact lens in place on the cornea. The LDD is aligned with the irradiation reticle with the periphery of the LAL ensure to be within the target reticle, as shown in Figure 3, below.  FIGURE 3: TARGET RETICLE 1. LAL haptics 2. LAL edge 3. LAL 4. Target reticle # VI. ALTERNATIVE PRACTICES AND PROCEDURES P160055: FDA Summary of Safety and Effectiveness Data {3} For the treatment of aphakia after cataract removal, there are various types of intraocular lenses (IOLs) on the market. Specifically, there are toric IOLs that are also indicated for reduction of astigmatism and improvement of uncorrected visual acuity. There are several other alternatives for the correction of aphakia and for correcting refractive errors. Non-surgical options for correcting residual refractive astigmatism include glasses or contact lenses. These options can also reduce the visual effects of significant residual refractive errors. Surgical options at the time of cataract surgery to reduce residual astigmatism include appropriate placement of the corneal incision and the use of corneal relaxing incisions. Surgical options to treat refractive error after cataract surgery include Laser-Assisted In-Situ Keratomileusis (LASIK) or Photorefractive keratectomy (PRK), placement of a piggyback IOL or IOL exchange. Each alternative has its own advantages and disadvantages. A patient should fully discuss these alternatives with his/her physician to select the method that best meets expectations and lifestyle. ## VII. MARKETING HISTORY Commercial distribution of the LAL and LDD outside the U.S. began in 2008. Currently, the LAL and LDD are commercially available throughout the European Union and in Mexico. The device has not been withdrawn from marketing for any reason related to its safety and effectiveness. ## VIII. POTENTIAL ADVERSE EFFECTS OF THE DEVICE ON HEALTH Below is a list of the potential adverse effects (e.g., complications) associated with the use of the device. Specific risks of the Light Adjustable Lens and Light Delivery Device include: an unpredicted change in vision resulting from ocular exposure to sunlight before the LAL is locked-in which might necessitate explantation of the LAL; transient or permanent erythropsia and color vision anomaly due to UV treatment from the LDD, corneal abrasions from the lens used for adjustment and lock-in, and other UV induced retinal damage which may potentially cause loss of vision. Potential adverse events for all cataract or implant surgery may include but are not limited to: infection (endophthalmitis), hypopyon, corneal endothelial damage, IOL dislocation out of the posterior chamber, cystoid macular edema, corneal edema, pupillary block, iritis, retinal detachment, transient or persistent glaucoma, vitritis, iris prolapse, rupture of the capsule, and secondary surgical intervention. Increased visual symptoms related to the optical characteristics of the IOL including: halos, glare and/or double vision. Secondary surgical interventions include, but are not limited to: lens repositioning, lens replacement, vitreous aspirations or iridectomy for pupillary block, wound leak repair, retinal detachment repair and corneal transplant. P160055: FDA Summary of Safety and Effectiveness Data {4} For the specific adverse events that occurred in the clinical study, please see Section X below. ## IX. SUMMARY OF NONCLINICAL STUDIES ### A. Laboratory Studies Nonclinical laboratory studies performed demonstrate the safety and effectiveness of the Light Adjustable Lens. These tests were performed in accordance with the relevant parts of ISO 10993-1 and ISO 11979-5. The results of this testing are summarized below. i. Physico-chemical testing | Test | Purpose | Acceptance Criteria | Results | | --- | --- | --- | --- | | Exhaustive Extraction | Analysis of quantified extractable additives under exhaustive conditions | Non-irritant release of leachables overtime | Pass | | Leachables | Analysis of quantified extractable additives under physiological conditions | Non-irritant release of leachables | Pass | | Hydrolytic stability | Stability of material in aqueous environment | Stability of device over time | Pass | | Photostability | Photostability of material wwhen irradiated | photostability | Pass | | ND-YAG exposure | Physical and chemical effects on Nd:YAG exposure | Nd:YAG stability | Pass | | Insoluble Inorganics | Analsyis of quantified release of inorganics | Non-irritant release of inorganics | Pass | ii. Biocompatibility Test Summary Biocompatibility testing was performed on the LAL and on the patient-contacting components of the LDD. The biocompatibility testing on the LAL was performed on both the non-irradiated lens (represented by the finished sterile LALs) and on the irradiated LALs (LALs that underwent the same manufacturing and sterilization procedures and irradiation in water using conditions simulating full lock-in dose). The biocompatibility testing was performed in accordance with International Standard Organization (ISO) 11979-5: Ophthalmic implants-Intraocular lenses- Part 5: Biocompatibility and relevant parts of ISO 10993-1: Biological evaluation of medical devices - Part 1: Evaluation and testing within a risk management process. Testing was conducted in compliance with Good Laboratory Practices. The results of this testing are summarized below. | Test | Purpose | Acceptance Criteria | Results | | --- | --- | --- | --- | P160055: FDA Summary of Safety and Effectiveness Data {5} P160055: FDA Summary of Safety and Effectiveness Data ## iii. Physical and Mechanical Testing | Test | Purpose | Acceptance Criteria | Results | | --- | --- | --- | --- | | Dimensional Requirements | To determine if the dimensions associated with the IOL are within maximum tolerances | Described in ISO 11979-3 | Passed | | Optical Requirements | To assess accuracy of optical power, meet minimum image quality specifications, and characterize the spectral transmittance of the IOL | Described in ISO 11979-2 | Passed | | Mechanical Requirements | To characterize the mechanical properties of the IOL | Described in ISO 11979-3 | Passed | | Recovery Properties | To determine if the IOL maintains its optical, dimensional properties and integrity after simulated surgical manipulation | Described in ISO 11979-3 | Passed | ## iv. Sterilization, Packaging, and Shelf-Life Testing ### Sterilization {6} The ethylene oxide (EtO) sterilization cycle was validated using the “overkill – half cycle method” in accordance with ISO 11135-1: Sterilization of health care products – Ethylene Oxide. Validation of the sterilization cycle demonstrated that the sterilization process and equipment reliably and consistently sterilized the LAL to a minimum Sterility Assurance Level (SAL) of 10⁻⁶. All biological indicators (BI) were confirmed with fractional and half cycle test runs utilizing Natural Product Sterility Testing (NPRT) and Method Suitability Testing showing no growth after 14 days of incubation. Residual ethylene oxide testing is performed after degassing to ensure acceptable levels of the sterilization residuals. In addition, biological indicator and bacterial endotoxins are tested routinely to ensure sterility prior to lot release. ## LAL Endotoxin Test Validation Endotoxin testing was conducted using the immersion method in accordance with FDA guidance Endotoxin Testing Recommendations for Single-Use Intraocular Ophthalmic Devices / Guidance for Industry and Food and Drug Administration Staff, August 2015. Limulus Amebocyte Lysate testing per USP on sterilized test devices demonstrated that the concentration of bacterial endotoxins were below 0.2 EU per device which are the current limits established for intraocular implants. ## Shelf-life / Packaging / Transport stability Shelf life studies have been conducted to verify that the packaging for the Light Adjustable Lens maintains a sterile barrier and adequately protects the device through the expiration date on the package label, which is 3 years from the date of sterilization. Shelf life testing has also been conducted to verify that device physical and optical properties satisfy the requirements of the engineering drawings and product specification document through the 3 year labeled expiration date. ## Shelf-life Stability Testing The testing was conducted in accordance with the relevant provisions of ISO 11979-6:2007 - Ophthalmic implants – Intraocular lenses - Part 6: Shelf-life and transport stability using sterile packaged, finished devices that were stored in a 25°C environmental chamber for 3 years from the date of sterilization. Samples were tested at six month intervals for dimensions, surface and bulk homogeneity, dioptric power and imaging quality, discoloration, compression force, folding and recovery, dynamic fatigue testing, haptic pull strength, extractables. The final results of this study demonstrate that the LAL is stable on the shelf for 3 years. ## Package Integrity and Transport Stability Package integrity and transport stability studies of the LAL were conducted in accordance with ISO 11979-6: Ophthalmic implants – Intraocular lenses – Part 6: Shelf-life and transport stability. Accelerated and real time package integrity testing, including dye penetration, seal strength and bubble emission, was P160055: FDA Summary of Safety and Effectiveness Data {7} conducted to establish the shelf-life of the LAL in the final packaging as well as to establish the stability of the LALs in distribution and storage. Additionally, transport stability testing was conducted with the finished device in accordance with ISO 2248:1985 and ISO 8318:2000. Tyvek pouches were evaluated for seal/closure integrity by dye penetration and seal strength. Results of all package integrity and transport stability testing demonstrate that the product is stable and the data support 3 year expiration dating for the package components used for the LAL. | Test | Purpose | Acceptance Criteria | Results | | --- | --- | --- | --- | | Bacterial endotoxin | Evaluate sterility | < 0.2 EU/device | Pass | | Ethylene oxide residuals via Thermal Headspace Exhaustive Extraction and Ethylene chlorohydrin residuals via water extraction | Evaluate toxicity of the device after ethylene oxide sterilization | <1.25μg/device (EO) <5.0 μg/device (ECH) | Pass | | Package Evaluation – Dye Penetration Testing | Evaluate package seal integrity | No evidence of dye across seal by a defined channel | Pass | | Package Evaluation – Seal Strength Testing | Evaluate package seal integrity | Compared favorably to test seals as function of storage time | Pass | | Package Evaluation – Bubble Emission Test | Evaluate whole package Integrity | No bubbles visible around package or seal | Pass | | Transport Stability | Evaluate package integrity and stability of device | Manufacturing specifications met after being subjected to anticipated “worse case” conditions of transportation and handling | Pass | P160055: FDA Summary of Safety and Effectiveness Data {8} P160055: FDA Summary of Safety and Effectiveness Data v. Electrical Safety, Electromagnetic Compatibility, and Light Safety Testing The Light Delivery Device (LDD) was tested by accredited third-party laboratories to ensure compliance with the applicable international standards for electromagnetic compatibility, electrical safety and light safety. Testing included all required elements of IEC 60601 – Medical electrical equipment – General requirements for basic safety and essential performance – Parts 1-2, 1-6, and 1-8 Collateral Standards for Electromagnetic disturbances, Usability and General requirements, tests and guidance for alarm systems in medical electrical equipment and medical electrical systems. The LDD meets all pertinent design and performance standards for light-emitting products as defined in 21 CFR Part 1040. Additionally, the LDD is in conformance with ISO 15004-2:2007: Fundamental requirements and test methods – Part 2: Light hazard protection. vi. Software Validation Testing RxSight, Inc. procedures require the establishment and review of specifications, development of risk analysis, and adequate verifications and validation of software and hardware prior to release. Risk management procedures were applied according to current ISO 14791 and IEC 60601-1 standards. Software testing was performed in accordance with IEC 62304 to verify and validate module and system level functions. The results of the overall validation testing demonstrate that the Light Delivery Device meets all software specifications and requirements. B. Animal Studies To demonstrate the in vivo biocompatibility of the LAL animal implantation studies had been conducted, as summarized below. Ocular implantation study in New Zealand rabbits A 6-month ocular implantation study was conducted in rabbits to demonstrate the long-term biocompatibility of the LAL. Two groups (A and B), each of nine New Zealand white rabbits, underwent phacoemulsification after general anesthesia. Both groups were implanted in one eye with a non-irradiated LAL in the capsular bag. The contralateral eye received a control silicon IOL with the same dimensions and haptic material as the LAL. The LAL was left un-irradiated in group A throughout the duration of the study. The second group of 9 rabbits (Group B) was anesthetized and the LAL was irradiated one day after implantation with an average radiant exposure of 7.92 joules (J) of UV light (365 nm) focused at the anterior surface of the LAL to mimic the maximum irradiation exposure of the LDD lock-in treatments. Slit lamp examinations were performed at week 1, 2, 4, and month 3 and 6. The rabbits were euthanized at 6 months after implantation and histopathological evaluations were conducted. LALs were explanted and examined for cells, cellular debris and fibrous deposit. There were no significant differences in any histopathology findings between the LAL and {9} the control group. Histopathology evaluation of both LAL groups revealed no signs of tissue damage or untoward inflammatory reactions. ## Ocular implantation study in Dutch belted rabbits A 1-week ocular implantation study was conducted in Dutch belted rabbits to evaluate the potential tissue damages from the UV light over-exposure in animals implanted with LAL. Sixteen (16) Dutch belted rabbits underwent phacoemulsification after general anesthesia. The rabbits were implanted with a non-irradiated LAL in the capsular bag. The contralateral eye received a non-UV absorbing IOL. One day after implantation the LAL was irradiated with 365 nm UV light exposure of 1, 2, 3 and 5 times the maximum LDD treatment used in clinical setting at the retinal plane. The control lens was irradiated with 0.3, 0.6, 1 and 2 times the maximum LAL treatment dose at the retinal plane. Four animals were included in each group. Slit lamp examinations were performed 24 and 48 hours after irradiation. The rabbits were euthanized at 1 week after irradiation and histopathological evaluations were conducted. Histopathological evaluation of eyes implanted with LAL showed no sign of corneal or anterior segment toxicity, retinal retinal pigment epithelium or choroidal toxicity. In contrast to the LAL group, an area of focal damage to the retina consisting of retinal thinning and disruption of the retinal pigment epithelium and underlying choroids was observed in 3 eyes implanted with non-UV absorbing IOL that received 2 times the maximum LAL treatment dose at the retinal plane. ## Ocular implantation study in cats A 3-month implantation study was conducted in 12 cats to evaluate the effect of UV-treatment on the corneal endothelium. One eye of each animals was irradiated with 365 nm UV light exposure of 50.25 J/cm² measured at the front surface of the cornea, simulating the expected maximum irradiation treatment dose. The contralateral eye served as a non-irradiated control. Three cats each were sacrificed at one day, one week, one month, and three months post-irradiation. The corneas were then removed and evaluated for any evidence of morphological and physiological damage using light microscopy at 400X and analyzed using digital imaging system. The study did not show any differences between irradiated and non-irradiated eyes in terms of corneal endothelial cell damage, corneal endothelial cell loss, and qualitative size and shape of endothelial cells, analyzed under high magnification light microscopy examination. ## X. SUMMARY OF PRIMARY CLINICAL STUDY The applicant performed a clinical study to establish a reasonable assurance of safety and effectiveness of the primary implantation in the capsular bag with the Light Adjustable Lens (LAL) and Light Delivery Device (LDD) system for the reduction residual astigmatism to improve uncorrected visual acuity after removal of the cataractous natural lens in the US under IDE # G100240. Data from this clinical study were the basis for the PMA approval decision. A summary of the clinical study is presented below. P160055: FDA Summary of Safety and Effectiveness Data {10} The primary objective of this study was to evaluate, for the visual correction of aphakia, the safety and effectiveness of the LAL used with the LDD for reducing astigmatism and improving uncorrected visual acuity after implantation of the intraocular lens in eyes with pre-existing astigmatism by performing a refractive adjustment of the LAL with the LDD to reduce residual refractive error. A control group was used to compare the effectiveness of the LAL to a commercially available monofocal IOL. A masked observer was used for measurement of manifest refraction, best spectacle-corrected visual acuity (BSCVA) and uncorrected visual acuity (UCVA) at key follow-up examinations. Patients were not masked. Physicians performing evaluations of ocular health were not masked. ## A. Study Design Subjects were treated between January 31, 2012 and March 17, 2015. The database for this PMA reflected data collected through July 20, 2016 and included 600 subjects. There were 17 investigational sites. This was a randomized, controlled prospective multi-center clinical trial designed to evaluate the safety and effectiveness of the LAL and LDD compared to a commercially available monofocal IOL of the investigator's choice. The study population consists of 600 eyes implanted monocularly with the LAL group consisting of a minimum of 390 eyes and the control group consisting of a minimum of 195 eyes implanted with a commercially available, posterior chamber, non-accommodating, monofocal IOL. Subjects were followed over a 12-month period. A maximum of 18 sites participated with all sites located in the United States. Only subjects meeting all inclusion/exclusion criteria were to be implanted with the investigational LAL or a control IOL. Those subjects who did not meet the inclusion/exclusion requirements were considered screen failures and were withdrawn from the study prior to implantation. Subjects continued to be enrolled until a minimum of 390 eyes had undergone implantation with the LAL and a minimum of 195 eyes had undergone implantation with a commercially available monofocal IOL. After completion of the preoperative examination and confirmation that the subject met all inclusion/exclusion criteria (with the exception of exclusion criterion related to surgical complications) and that the subject was willing to undergo study lens implantation, the subject was assigned randomly to receive either the LAL or the control IOL (a conventional monofocal IOL of the surgeon's choice) in a 2:1 ratio. The implant lens power for the LAL was calculated based upon the ocular biometry data and a standard IOL power calculation formula. When choosing the IOL power, the two arms were treated differently. Eyes implanted with the LAL P160055: FDA Summary of Safety and Effectiveness Data {11} were targeted to a postoperative MRSE of +0.50 D (to compensate for the expected 0.50 D myopic shift of the required LDD lock-in treatment). Eyes implanted with the LAL underwent spherical or spherocylindrical refractive adjustment of the LAL using the LDD. Subjects in the LAL group were evaluated at 12 study visits and subjects in the control group were evaluated at 8 study visits as follows: preoperative, operative, 1 day, 1 week, adjustment #1 (LAL)/17-21 days (control), adjustment #2 (LAL only), lock-in #1 (LAL only), lock-in #2 (LAL only), 1-week post lock-in #2 (LAL only), and 6, 9, and 12 months postoperatively. A schedule of assessments is presented in the following section. ## 1. Clinical Inclusion and Exclusion Criteria Enrollment in the G100240 study was limited to patients who met the following inclusion criteria: - Must sign a written Informed Consent form. - Undergoing cataract surgery for the implantation of an IOL and must be willing to have either the LAL or a commercially available monofocal IOL implanted based on random assignment. - Study eye has pre-operative regular corneal astigmatism of ≥ 0.75 D and ≤ 2.00 D by manual keratometry or &gt;2.00 D and ≤ 2.5 D of regular corneal astigmatism with a steep axis between 70 degrees and 110 degrees. - Between the ages of 40 and 80 inclusive. - Study eye must have a cataract causing reduction in best spectacle-corrected visual acuity to a level of 20/40 or worse with or without a glare source. - Study eye has best spectacle-corrected visual acuity projected (by clinical estimate based upon past ocular history and retinal exam) to be 20/20 or better after cataract removal and IOL implantation. - Study eye has clear intraocular media other than cataract. - Potentially good vision in the fellow eye with BSCVA 20/40 or better. - Willing and able to comply with the requirements for study specific procedures and visits. - Study eye has fully dilated pupil diameter of ≥ 7.0 mm. Patients were not permitted to enroll in the G100240 study if they met any of the following exclusion criteria: - Study eye with zonular laxity or dehiscence. - Study eye with pseudoexfoliation. - Study eye with age-related macular degeneration involving the presence of geographic atrophy or soft drusen. Study eyes with hard drusen are P160055: FDA Summary of Safety and Effectiveness Data {12} permitted if the density of drusen is such that impairment of acuity beyond 20/20 is not expected. - Study eye with retinal degenerative disorder (other than macular degeneration) that is expected to cause future vision loss. - Subjects with diabetes with any evidence of retinopathy. - Study eye with evidence of glaucomatous optic neuropathy. - Study eye with a history of uveitis. - Study eye with significant anterior segment pathology, such as rubeosis iridis, aniridia, or iris coloboma. - Study eye with corneal pathology that is either progressive or sufficient to reduce BSCVA to worse than 20/20. - Study eye with keratoconus or suspected of having keratoconus. - Study eye with any corneal dystrophy including basement membrane dystrophy. - Study eye that has undergone previous corneal or intraocular surgery, except eyes with previous pterygium excision are permitted as long as the pterygium did not extend more than 2mm onto the cornea from the limbus. - Subjects with complications in the study eye during cataract surgery before intraocular lens implantation including posterior capsule rupture, zonular rupture, radial capsulorhexis tear, vitreous loss, iris trauma, corneal complications or any intraoperative abnormality that may affect the postoperative pupillary dilation, or the centration or tilt of the intraocular lens. - Subjects with serious co-morbid conditions that in the judgment of the investigator makes inclusion in the study not in the best interest of the subject. - Subjects taking systemic medication that may increase sensitivity to UV light such as tetracycline, doxycycline, psoralens, amiodarone, phenothiazines, chloroquine, hydrochlorothiazide, hypericin, ketoprofen, piroxicam, lomefloxacin, and methoxsalen. This is a partial list of photosensitizing medications and is not a comprehensive list. Therefore, please evaluate all medications that the patient is taking for this effect prior to consideration for device treatment. LDD treatment in patients taking such medications may lead to irreversible phototoxic damage to the eye. - Study eye with irregular astigmatism. - Study eye with history of herpes simplex. - Patients not meeting the above inclusion criteria were excluded from the study. P160055: FDA Summary of Safety and Effectiveness Data {13} 2. Follow-up Schedule All subjects were scheduled to return for follow-up examinations at 1 day, 1 week, during each light adjustment or lock-in procedure as well as at 6, 9, and 12 months postoperatively. 3. Clinical Endpoints With regards to safety, the key primary variables for the study were: - Best spectacle-corrected visual acuity: The percentage of LAL treatment group and monofocal control group eyes achieving overall and best case BSCVA of 20/40 or better at 6 months postoperatively compared to the historical grid. - Incidence of sight-threatening complications and adverse events for the LAL treatment group and the monofocal control group compared to the historical grid. With regards to effectiveness, the key primary variables for the study were: - Percent reduction in manifest cylinder at 6 months postoperatively from pre-adjustment (LAL)/17-21 days (control group) examination compared between the LAL treatment group and the monofocal control group. - Percent mean absolute reduction in MRSE by subject at 6 months postoperatively from the pre-adjustment (LAL)/17-21 days (control group) examination compared between the LAL treatment group and the monofocal control group. - Rotation of the meridian of the LAL at 6 months postoperatively. The following secondary effectiveness endpoints were evaluated: - Percent of eyes with UCVA of 20/20 or better at 6 months postoperatively compared between the LAL treatment group and the monofocal control group. - Percent reduction in manifest cylinder at 6 months postoperatively from pre-adjustment (LAL)/17-21 days (control group) examination compared between the LAL treatment group and the monofocal control group by cylinder treatment group (0.75 to 1.25 D and 1.50-2.00 D). - For eyes with &lt;0.75 D of cylinder at pre-adjustment (LAL)/17-21 days (control group), percent mean absolute reduction in MRSE by subject at 6 months postoperatively from the pre-adjustment (LAL)/17-21 days (control group) examination compared between the LAL treatment group and the monofocal control group. - Mean BSCVA for the "best case" cohort (no macular problems) at 6 months postoperatively compared between the LAL treatment group and the monofocal control group. P160055: FDA Summary of Safety and Effectiveness Data {14} B. Accountability of PMA Cohort At the time of database lock, of the 793 subjects enrolled in the PMA study, 97% of subjects were available for analysis at the completion of the study, the 12 month post-operative visit. Seven hundred ninety three subjects signed the informed consent form and were enrolled in the clinical study. 23.2% (184/793) of subjects withdrew from the study prior to randomization. Of the enrolled subjects, 51.7% (410/793) of eyes were randomized for implantation with the LAL and 25.1% (199/793) eyes were randomized for implantation with a monofocal control IOL. Of the eyes randomized to receive the LAL, 1.7% (7/410) were withdrawn prior to implantation. Subject accountability in both the LAL and Control groups across all follow-up visits are summarized in Table 1. Percent accountability at all scheduled visits over the course of the study was never below 97%. P160055: FDA Summary of Safety and Effectiveness Data {15} SUMMARY OF SAFETY AND EFFECTIVENESS DATA LIGHT ADJUSTABLE LENS (LAL) AND LIGHT DELIVERY DEVICE (LDD) PAGE 16 # TABLE 1 # SUBJECT ACCOUNTABILITY # (ITT POPULATION) | | Day 1 n/N (%)* | | 1 Week (wk) n/N (%)* | | Adjustment #1 (or 17-21 days Post-Op) n/N (%)* | | LI #1 (LAL only) n/N (%)* | LI #2 (LAL only) n/N (%)* | 1 Wk Post LI #2 (LAL only) n/N (%)* | 6 Months n/N (%)* | | 9 Months n/N (%)* | | 12 Months n/N (%)* | | | --- | --- | --- | --- | --- | --- | --- | --- | --- | --- | --- | --- | --- | --- | --- | --- | | Treatment Group | LAL | Control | LAL | Control | LAL | Control | LAL | LAL | LAL | LAL | Control | LAL | Control | LAL | Control | | Available For Analysis | 402/403 (99.8%) | 197/197 (100 %) | 401/403 (99.5%) | 195/197 (99.0%) | 400/403 (99.3%) | 197/197 (100 %) | 399/403 (99.0%) | 398/403 (98.8%) | 396/403 (98.3%) | 391/403 (97.0%) | 193/197 (98.0%) | 388/403 (96.3%) | 193/197 (98.0%) | 391/403 (97.0%) | 188/197 (95.4%) | | Visit within window | 402/403 (99.8%) | 197/197 (100 %) | 400/403 (99.3%) | 194/197 (98.5%) | 379/403 (94.0%) | 188/197 (95.4%) | 385/403 (95.5%) | 373/403 (92.6%) | 381/403 (94.5%) | 386/403 (95.8%) | 188/197 (95.4%) | 385/403 (95.5%) | 190/197 (96.4%) | 389/403 (96.5%) | 188/197 (95.4%) | | Discontinued | 1/403 (0.2%) | 0/197 (0.0%) | 1/403 (0.2%) | 0/197 (0.0%) | 3/403 (0.7%) | 0/197 (0.0%) | 3/403 (0.7%) | 3/403 (0.7%) | 3/403 (0.7%) | 3/403 (0.7%) | 2/197 (1.0%) | 4/403 (1.0%) | 2/197 (1.0%) | 4/403 (1.0%) | 4/197 (2.0%) | | Explanted¹ | 1/403 (0.2%) | 0/197 (0.0%) | 1/403 (0.2%) | 0/197 (0.0%) | 3/403 (0.7%) | 0/197 (0.0%) | 3/403 (0.7%) | 3/403 (0.7%) | 3/403 (0.7%) | 3/403 (0.7%) | 0/197 (0.0%) | 3/403 (0.7%) | 0/197 (0.0%) | 3/403 (0.7%) | 0/197 (0.0%) | | Deceased | 0/403 (0.0%) | 0/197 (0.0%) | 0/403 (0.0%) | 0/197 (0.0%) | 0/403 (0.0%) | 0/197 (0.0%) | 0/403 (0.0%) | 0/403 (0.0%) | 0/403 (0.0%) | 0/403 (0.0%) | 2/197 (1.0%) | 1/403 (0.2%) | 2/197 (1.0%) | 1/403 (0.2%) | 4/197 (2.0%) | | Other | 0/403 (0.0%) | 0/197 (0.0%) | 0/403 (0.0%) | 0/197 (0.0%) | 0/403 (0.0%) | 0/197 (0.0%) | 0/403 (0.0%) | 0/403 (0.0%) | 0/403 (0.0%) | 0/403 (0.0%) | 0/197 (0.0%) | 0/403 (0.0%) | 0/197 (0.0%) | 0/403 (0.0%) | 0/197 (0.0%) | | Missed Visit | 0/403 (0.0%) | 0/197 (0.0%) | 1/403 (0.2%) | 2/197 (1.0%) | 0/403 (0.0%) | 0/197 (0.0%) | 1/403 (0.2%) | 2/403 (0.5%) | 4/403 (1.0%) | 7/403 (1.7%) | 2/197 (1.0%) | 3/403 (0.7%) | 1/197 (0.5%) | 0/403 (0.0%) | 0/197 (0.0%) | | Lost to follow-up | 0/403 (0.0%) | 0/197 (0.0%) | 0/403 (0.0%) | 0/197 (0.0%) | 0/403 (0.0%) | 0/197 (0.0%) | 0/403 (0.0%) | 0/403 (0.0%) | 0/403 (0.0%) | 2/403 (0.5%) | 0/197 (0.0%) | 8/403 (2.0%) | 1/197 (0.5%) | 8/403 (2.0%) | 5/197 (2.5%) | | Missing³ | 1/403 (0.2%) | 0/197 (0.0%) | 2/403 (0.5%) | 2/197 (1.0%) | 3/403 (0.7%) | 0/197 (0.0%) | 4/403 (1.0%) | 5/403 (1.2%) | 7/403 (1.7%) | 12/403 (3.0%) | 4/197 (2.0%) | 15/403 (3.7%) | 4/197 (2.0%) | 12/403 (3.0%) | 9/197 (4.6%) | | Not Yet Eligible | 0/403 (0.0%) | 0/197 (0.0%) | 0/403 (0.0%) | 0/197 (0.0%) | 0/403 (0.0%) | 0/197 (0.0%) | 0/403 (0.0%) | 0/403 (0.0%) | 0/403 (0.0%) | 0/403 (0.0%) | 0/197 (0.0%) | 0/403 (0.0%) | 0/197 (0.0%) | 0/403 (0.0%) | 0/197 (0.0%) | | Accountability² | 402/402 (100 %) | 197/197 (100 %) | 401/402 (99.8%) | 195/197 (99.0%) | 400/400⁴ (100 %) | 197/197 (100 %) | 399/400 (99.8%) | 398/400 (99.5%) | 396/400 (99.0%) | 391/400 (97.8%) | 193/195 (99.0%) | 388/399 (97.2%) | 193/195 (99.0%) | 391/399 (98.0%) | 188/193 (97.4%) | * Total number of all eyes treated (N) for each group is used as a denominator to calculate percentages, except for accountability; n = number in treatment group; $\% = \mathrm{n} / \mathrm{N}(100)$ ¹ One additional subject had the LAL lens explanted prior to the 9-Month visit, but completed the study ² Accountability = [Available for Analysis/(Implanted-Discontinued-Not Yet Eligible)] ³ Sum of Discontinued, Missed Visit and Lost to Follow-up ⁴ One subject did not undergo an adjustment because an LAL was not successfully implanted. P160055: FDA Summary of Safety and Effectiveness Data {16} SUMMARY OF SAFETY AND EFFECTIVENESS DATA LIGHT ADJUSTABLE LENS (LAL) AND LIGHT DELIVERY DEVICE (LDD) PAGE 17 # C. Study Population Demographics and Baseline Parameters The demographics of the study population for this randomized, prospective, multicenter clinical study are presented in Table 2 for the LAL group vs. the control group. TABLE 2 DEMOGRAPHICS (ITT POPULATION) | | | LAL (N = 403) n(%) | Control (N = 197) N(/%) | Difference (LAL-control) [95% CI]¹ | | --- | --- | --- | --- | --- | | Gender | Male | 161 (40.0%) | 95 (48.2%) | -8.3 [-16.7,0.2] | | | Female | 242 (60.0%) | 102 (51.8%) | | | | | | | | | Age (years) | Mean ± SD (n) | 65.6 ± 7.9 (403) | 66.6 ± 7.2 (197) | -1.0 [-2.3,0.3] | | | Median | 67.0 | 67.0 | | | | (Min, Max) | (41, 80) | (42, 80) | | | | | | | | | Race | Caucasian | 383 (95.0%) | 188 (95.4%) | -0.4 [-4.0,3.2] | | | Black/African American | 15 (3.7%) | 6 (3.0%) | | | | Asian | 4 (1.0%) | 0 (0.0%) | | | | American Indian/Alaska Native | 1 (0.2%) | 0 (0.0%) | | | | Native Hawaiian/Pacific Islander | 0 (0.0%) | 2 (1.0%) | | | | Mixed² | 0 (0.0%) | 1 (0.5%) | | | | | | | | | Ethnicity | Hispanic or Latino | 18 (4.5%) | 7 (3.6%) | 0.9 [-2.4,4.2] | | | Not Hispanic or Latino | 385 (95.5%) | 190 (96.4%) | | | | | | | | | Study Eye | Right | 226 (56.1%) | 96 (48.7%) | 7.4 [-1.1,15.8] | | | Left | 177 (43.9%) | 101 (51.3%) | | | | | | | | ¹ Difference between means or proportions P160055: FDA Summary of Safety and Effectiveness Data 17 {17} SUMMARY OF SAFETY AND EFFECTIVENESS DATA LIGHT ADJUSTABLE LENS (LAL) AND LIGHT DELIVERY DEVICE (LDD) PAGE 18 | | | LAL (N = 403) n(%) | Control (N = 197) N(/%) | Difference (LAL-control) [95% CI]¹ | | --- | --- | --- | --- | --- | ² One subject was of mixed race: American Indian or Alaska Native, Caucasian<br/>% = n/N (100) ## i. Study Treatments ### IOL Implantation The implant was performed on study Day 0, in accordance with the detailed procedures described in the study protocol. Standard small incision, phacoemulsification surgery and implantation of the LAL or the control lens was performed. Subjects implanted with the LAL were instructed to wear the specified UV protective eyewear at all times post-implantation until the adjustment and lock-in procedures were completed. Note: While LAL insertion with either a Naviject Injector or the Nichamin inserter and forceps was allowed, use of the Naviject was discontinued during the course of the Phase 3 clinical study due to delivery failures, and after this change only the Nichamin inserter and forceps were allowed. ### LDD Treatments The refractive adjustment performed with the LDD in the LAL group was based on the manifest refraction with a goal of emmetropia. The protocol allowed spherical corrections from -2.0 to +2.0 D and cylindrical corrections from 0.75 to 2.0 D. Eyes with &lt;0.75 D of cylinder had a treatment performed based on their MRSE. Eyes with a spherical or cylindrical component &gt;2.0 D had a 2.0 D correction performed. Three to 5 days after adjustment #1, LAL subjects returned and had a manifest refraction performed by two unmasked independent examiners. Depending on the measured refraction, either an adjustment #2 was performed or a Lock-in #1 was performed. All LAL subjects required two treatments using the LDD to "lock-in" the LAL. The first of the two "lock-in" doses of UV light was performed at 3 to 5 days after the final adjustment treatment. The second and final "lock-in" treatment was performed 3 to 5 days after the first "lock-in" treatment. P160055: FDA Summary of Safety and Effectiveness Data {18} SUMMARY OF SAFETY AND EFFECTIVENESS DATA LIGHT ADJUSTABLE LENS (LAL) AND LIGHT DELIVERY DEVICE (LDD) PAGE 19 Note: During the clinical study a modification to the LDD hardware and software was introduced, to enhance the safety of the lock-in treatment only. Termed Reduced Exposure Lock-in(REL), the revised lock-in reduced peak radiant exposure to the retina compared to the original (Pre-REL) lock-in treatment. This modified device was used in approximately half of the LAL subjects. P160055: FDA Summary of Safety and Effectiveness Data 19 {19} SUMMARY OF SAFETY AND EFFECTIVENESS DATA LIGHT ADJUSTABLE LENS (LAL) AND LIGHT DELIVERY DEVICE (LDD) PAGE 20 ## D. Safety and Effectiveness Results ### 1. Safety Results The analysis of safety was based on a (modified) Intent to Treat (ITT) population cohort of 579 patients available for the 12 month evaluation. The key safety outcomes for this study are presented below in Tables 3 to 8. Adverse effects are reported in Tables 5 to 8. Safety analysis using the (modified) Intent to Treat (ITT) population includes any subject who had signed the informed consent and had the procedure attempted. The ITT population consists of 600 eyes with 403 eyes randomized to the LAL and 197 eyes randomized to the control IOL. The co-primary safety endpoints were: (a) The percentage of LAL eyes achieving BSCVA of 20/40 or better at 6 months postoperatively (compared to the historical control for intraocular lenses in ISO 11979-7), and (b) Incidence of sight-threatening adverse events for the LAL treatment group (compared to the historical control rates (ISO 11979-7) where applicable). ### BSCVA Safety Endpoint The primary BSCVA safety endpoint was a comparison of the rates of BSCVA of 20/40 or better at 6 months postoperatively compared between the LAL group and the historic control for intraocular lenses (as per ISO 11979-7). At 6 and 12 months postoperatively, 100% of eyes in both the LAL and Control groups had BSCVA of 20/40 or better, exceeding the historic control rate of 92.5% (ISO 11979-7). Table 3 summarizes the BSCVA data at key timepoints in the study. Refer to the Adverse Event section for a complete description of cases with significant losses of BSCVA. P160055: FDA Summary of Safety and Effectiveness Data 20 {20} SUMMARY OF SAFETY AND EFFECTIVENESS DATA LIGHT ADJUSTABLE LENS (LAL) AND LIGHT DELIVERY DEVICE (LDD) TABLE 3: BSCVA BY VISIT (SUBJECTS WITH DATA AT RELEVANT TIMEPOINTS) | | Pre-Operative | | 1-week Post-Op | | Pre-Adjustment (LAL) or 17-21 days post-op (control) | | Pre-Adjustment #2 | | --- | --- | --- | --- | --- | --- | --- | --- | | BSCVA | LAL (N=403) | Control (N=197) | LAL (N=401) | Control (N=195) | LAL (N=400) | Control (N=197) | LAL (N=262) | | | n (%) | n (%) | n (%) | n (%) | n (%) | n (%) | n (%) | | 20/12.5 or better | 0 (0.0%) | 0 (0.0%) | 13 (3.3%) | 5 (2.6%) | 42 (10.5%) | 14 (7.1%) | 37 (14.1%) | | 20/16 or better | 3 (0.7%) | 0 (0.0%) | 138 (34.5%) | 64 (32.8%) | 229 (57.3%) | 95 (48.2%) | 162 (61.8%) | | 20/20 or better | 35 (8.7%) | 14 (7.1%) | 320 (80.0%) | 161 (82.6%) | 367 (91.8%) | 176 (89.3%) | 250 (95.4%) | | 20/25 or better | 140 (34.7%) | 59 (29.9%) | 375 (93.8%) | 189 (96.9%) | 394 (98.5%) | 193 (98.0%) | 261 (99.6%) | | 20/32 or better | 221 (54.8%) | 105 (53.3%) | 392 (98.0%) | 192 (98.5%) | 399 (99.8%) | 196 (99.5%) | 262 (100.0%) | | 20/40 or better | 300 (74.4%) | 141 (71.6%) | 398 (99.5%) | 195 (100.0%) | 399 (99.8%) | 196 (99.5%) | 262 (100.0%) | | d20/80 or better | 386 (95.8%) | 189 (95.9%) | 399 (99.8%) | 195 (100.0%) | 399 (99.8%) | 197 (100.0%) | 262 (100.0%) | | 20/200 or better | 394 (97.8%) | 197 (100.0%) | 399 (99.8%) | 195 (100.0%) | 399 (99.8%) | 197 (100.0%) | 262 (100.0%) | | Not Reported | 0 | 0 | 1 | 0 | 0 | 0 | 0 | | Mean ± standard deviation (SD)1(n) | 0.274 (20/37.6)0.240 (403) | 0.268 (20/37.1)0.172 (197) | -0.002 (20/19.9)0.124 (400) | -0.009 (20/19.6)0.082 (195) | -0.051 (20/17.8)0.113 (400) | -0.038 (20/18.3)0.082 (197) | -0.068 (20/17.1)0.072 (262) | TABLE 3 (CONTINUED): BSCVA BY VISIT (SUBJECTS WITH DATA AT RELEVANT TIMEPOINTS) | | Pre-Lock-in #1 | Pre-Lock-in #2 | 1 week post Lock-in #2 | 6 months | | 9 months | | 12 months | | | --- | --- | --- | --- | --- | --- | --- | --- | --- | --- | | BSCVA | LAL (N=399) | LAL (N=398) | LAL (N=396) | LAL (N=391) | Control (N=193) | LAL (N=388) | Control (N=193) | LAL (N=391) | Control (N=188) | | | n (%) | n (%) | n (%) | n (%) | n (%) | n (%) | n (%) | n (%) | n (%) | | 20/12.5 or better | 63 (15.8%) | 61 (15.3%) | 51 (12.9%) | 77 (19.7%) | 15 (7.8%) | 67 (17.3%) | 21 (10.9%) | 57 (14.6%) | 20 (10.6%) | | 20/16 or better | 252 (63.2%) | 260 (65.3%) | 252 (63.6%) | 223 (57.0%) | 84 (43.5%) | 236 (60.8%) | 94 (48.7%) | 227 (58.1%) | 89 (47.3%) | | 20/20 or better | 385 (96.5%) | 381 (95.7%) | 374 (94.4%) | 369 (94.4%) | 160 (82.9%) | 364 (93.8%) | 170 (88.1%) | 365 (93.4%) | 155 (82.4%) | | 20/25 or better | 398 (99.7%) | 395 (99.2%) | 392 (99.0%) | 386 (98.7%) | 188 (97.4%) | 385 (99.2%) | 188 (97.4%) | 390 (99.7%) | 184 (97.9%) | | 20/32 or better | 399 (100.0%) | 398 (100.0%) | 396 (100.0%) | 389 (99.5%) | 192 (99.5%) | 388 (100.0%) | 192 (99.5%) | 390 (99.7%) | 188 (100.0%) | | 20/40 or better | 399 (100.0%) | 398 (100.0%) | 396 (100.0%) | 391 (100.0%) | 193 (100.0%) | 388 (100.0%) | 193 (100.0%) | 391 (100.0%) | 188 (100.0%) | | 20/80 or better | 399 (100.0%) | 398 (100.0%) | 396 (100.0%) | 391 (100.0%) | 193 (100.0%) | 388 (100.0%) | 193 (100.0%) | 391 (100.0%) | 188 (100.0%) | P160055: FDA Summary of Safety and Effectiveness Data {21} SUMMARY OF SAFETY AND EFFECTIVENESS DATA LIGHT ADJUSTABLE LENS (LAL) AND LIGHT DELIVERY DEVICE (LDD) PAGE 22 | 20/200 or better | 399 (100.0%) | 398 (100.0%) | 396 (100.0%) | 391 (100.0%) | 193 (100.0%) | 388 (100.0%) | 193 (100.0%) | 391 (100.0%) | 188 (100.0%) | | --- | --- | --- | --- | --- | --- | --- | --- | --- | --- | | Not Reported | 0 | 0 | 0 | 0 | 0 | 0 | 0 | 0 | 0 | | Mean ± SD¹ (n) | -0.071 (20/17.0) 0.075 (399) | -0.072 (20/16.9) 0.078 (398) | -0.068 (20/17.1) 0.077 (396) | -0.066 (20/17.2) 0.084 (391) | -0.028 (20/18.8) 0.091 (193) | -0.069 (20/17.1) 0.083 (388) | -0.041 (20/18.2) 0.090 (193) | -0.063 (20/17.3) 0.079 (391) | -0.039 (20/18.3) 0.090 (188) | % = n/N(100) ¹LogMAR (Snellen) ## Adverse Events Table 4 presents cumulative and persistent (to 12 months) adverse events as defined in ISO 11979-7. The rates of observed cumulative and persistent safety events did not exceed the rates in the ISO historical control except for the category of Secondary Surgical Interventions (SSI), which was significantly higher than the historical rate (p&lt;0.05). Because of the unique nature of the LAL/LDD device system (which includes a UV light emitting device), some additional categories of types of adverse events were evaluated, including phototoxic retinal damage causing reduction in best spectacle corrected visual acuity, induction of tritan color vision anomalies, induction of erythropsia, and distortion of the LAL optic due to premature polymerization. Rates for these and other categories of adverse events that are not in the historical control are also shown in Table 4. Additionally, information concerning device-related adverse events concerning erythropsia and color vison anomalies are provided in Tables 6 and 7. As shown in Table 4, 7 eyes (1.7%, 7/410) in the LAL group had a SSI; 3 explants, a Descemet’s Stripping Endothelial Keratoplasty (DSEK) procedure, two treatments to dissolve iris adhesions to permit full pupil dilation, and a barrier retinal laser procedure as described in the table below. P160055: FDA Summary of Safety and Effectiveness Data 22 {22} SUMMARY OF SAFETY AND EFFECTIVENESS DATA LIGHT ADJUSTABLE LENS (LAL) AND LIGHT DELIVERY DEVICE (LDD) PAGE 23 TABLE 4 KEY ADVERSE EVENTS – STUDY EYE | Adverse Events - Cumulative | Safety and Performance Endpoint % | LAL (N=403) | Control (N=197) | | --- | --- | --- | --- | | | | n (%) | n (%) | | Cystoid Macular Edema (CME)⁶ | 3.0% | 3 (0.7%) | 3 (1.5%) | | Hypopyon | 0.3% | 1 (0.2%) | 0 (0.0%) | | Pupillary Block | 0.1% | 0 (0.0%) | 0 (0.0%) | | Retinal Detachment | 0.3% | 0 (0.0%) | 0 (0.0%) | | Endophthalmitis | 0.1% | 1 (0.2%) | 0 (0.0%) | | Lens Dislocated From Posterior Chamber | 0.1% | 0 (0.0%) | 0 (0.0%) | | Secondary Surgical Intervention (excluding Posterior Capsulotomy)¹ | 0.8% | 7 (1.7%) | 1 (0.5%) | | Adverse Events – Persistent² | Safety and Performance Endpoint % | LAL (N=391) | Control (N=188) | | | | n (%) | n (%) | | Corneal Edema | 0.3% | 0 (0.0%) | 0 (0.0%) | | Cystoid Macular Edema | 0.5% | 0 (0.0%) | 0 (0.0%) | | Iritis | 0.3% | 0 (0.0%) | 0 (0.0%) | | Elevated Intraocular Pressure (IOP) Requiring Treatment | 0.4% | 0 (0.0%) | 0 (0.0%) | | Adverse Events – Key Non-Standard Categories of Events³ | | LAL (N=391) | Control (N=188) | | | | n (%) | n (%) | | Phototoxic Retinal Damage causing temporary loss of BSCVA1 | | 1 (0.2%) | N/A | | Persistent Induced Tritan Color Vision Anomaly¹ | | 2 (0.5%) | N/A | | Persistent Induced Erythropsia | | 1 (0.3%)⁴ | N/A | | Reactivation of Ocular Herpes Simplex Infection after LDD UV treatment | | 1 (0.3%)⁵ | N/A | | Persistent Unanticipated Significant Increase in Manifest Refraction Error (≥1.0 D cylinder or MRSE) | | 5 (1.3%) | N/A | | Premature Polymerization of the LAL Causing Visible Distortion of LAL Optic | | 0 (0.0%) | N/A | | Intraoperative Iris Prolapse | | 1 (0.3%) | 0 (0.0%) | | Intraoperative Capsular tear during primary IOL implantation after unremarkable phacoemulsification | | 1 (0.3%) | 0 (0.0%) | | Horseshoe Retinal Tear | | 1 (0.3%)⁷ | 1 (0.5%) | ¹ One subject experienced a retinal phototoxic injury that was determined to be caused by a faulty filter within the UV source of the LDD. Corrective action was taken to ensure that defective filters were not released to the market. The retinal phototoxicity was associated with loss of best spectacle corrected visual acuity to 20/150, which recovered to 20/22 approximately 5 months after surgery. This subject also experienced a tritan color vision defect that was persistent to 4 years postoperatively. The patient underwent an explant with a replacement with a monofocal IOL. ² The rates of persistent adverse events were calculated based on the observed population at 12 months. ³ The rates of Key Non-Standard Categories of Events were calculated based on the observed population at any time during the clinical study. PMA P160055: FDA Summary of Safety and Effectiveness Data Page 23 {23} SUMMARY OF SAFETY AND EFFECTIVENESS DATA LIGHT ADJUSTABLE LENS (LAL) AND LIGHT DELIVERY DEVICE (LDD) PAGE 24 4 Resolved at 14 months postoperatively. 5 Following the initial light treatment, one subject experienced a reactivation of previously undiagnosed herpes simplex virus (HSV). Following anti-HSV therapy, the subject’s condition improved and remaining light treatments were administered. At the 12-month postoperative exam, BSCVA was 20/20. 6 One case of CME required sub-Tenons kenalog injection; this caused delay of light treatment. 7 One case included a vitreous detachment with sub-retinal fluid. TABLE 4 CONTINUED KEY ADVERSE EVENTS – STUDY EYE | SSI | Cause | Final Acuity at Last Visit | | --- | --- | --- | | Explant | As described in Table 2, footnote 1, a faulty UV filter within the UV source of the LDD prevented completion of light treatments | BSCVA 20/23 with persistent tritan anomaly | | Explant | Scratch on the LAL optic acquired at time of lens implant that required lens replacement at 3 weeks postop. Secondary procedure had complications. | BSCVA 20/20 | | Explant | Subject requested lens replacement prior to light treatment | UCVA 20/15 | | DSEK | Problems during delivery of LAL which led to corneal edema | BSCVA 20/26.4 | | Lysing of iris adhesions and sphincterotomy | Following the initial light treatment, posterior synechiae were observed which limited pupil dilation for final light treatment | BSCVA 20/17.4 | | Lysing of iris adhesions by YAG laser | Following the initial light treatments, posterior synechiae were observed which limited pupil dilation for final light treatment | BSCVA 20/17.4 | | Barrier laser treatment | Hemorrhagic posterior vitreous detachment and a horseshoe retinal tear with sub-retinal fluid 9 months postoperative. | BSCVA 20/14.5 | ## Additional Safety Analyses Serious ocular adverse events noted in this study are provided in Tables 5-8. ## Best Spectacle Corrected Visual Acuity Change Table 5 presents change in BSCVA at each postoperative visit compared to pre-adjustment #1 (LAL) or 17-21 day visit (Control) BSCVA. At 1 week post lock-in #2, the majority of eyes had an increase or no change in BSCVA. The mean change in BSCVA from pre-adjustment #1 to 1 week post lock-in #2 was +0.7 letters. Overall, the distribution of eyes with gains and losses of 2 or more lines of BSCVA was similar for the LAL and the Control group at 6 and 12 months. At 6 months, only 2 eyes in the LAL group and 3 eyes in the Control group had a decrease of 2 or more lines of BSCVA. At 12 months, only 1 eye in the LAL group and 4 eyes in the Control group had a decrease of 2 or more lines of BSCVA. PMA P160055: FDA Summary of Safety and Effectiveness Data Page 24 {24} SUMMARY OF SAFETY AND EFFECTIVENESS DATA LIGHT ADJUSTABLE LENS (LAL) AND LIGHT DELIVERY DEVICE (LDD) PAGE 25 # TABLE 5 ## BSCVA CHANGE COMPARED TO PRE-ADJUSTMENT #1 ## (LAL)/17-21 DAYS (CONTROL) (SUBJECTS WITH DATA AT RELEVANT TIMEPOINTS) | | Pre-Lock-in #1 | Pre-Lock-in #2 | 1 week Post Lock-in #2 | | --- | --- | --- | --- | | BSCVA change | LAL (N=399) | LAL (N=398) | LAL (N=396) | | | n (%) | n (%) | n (%) | | Increase in 15 letters or more (3 lines or more) | 0 (0.0%) | 0 (0.0%) | 0 (0.0%) | | Increase in 10-14 letters (2 lines) | 2 (0.5%) | 3 (0.8%) | 2 (0.5%) | | Increase in 5-9 letters (1 line) | 36 (9.0%) | 42 (10.6%) | 43 (10.9%) | | No Change | 347 (87.0%) | 339 (85.2%) | 330 (83.3%) | | Decrease in 5-9 letters (1 line) | 13 (3.3%) | 13 (3.3%) | 19 (4.8%) | | Decrease in 10-14 letters (2 lines) | 1 (0.3%) | 1 (0.3%) | 2 (0.5%) | | Decrease in 15 letters or more (3 lines or more) | 0 (0.0%) | 0 (0.0%) | 0 (0.0%) | | Not reported | 0 | 0 | 0 | | Mean change in number of letters | 0.8 ± 2.9 (399) | 0.9 ± 3.0 (398) | 0.7 ± 3.2 (396) | | | 6 months | | 9 months | | 12 months | | | --- | --- | --- | --- | --- | --- | --- | | BSCVA change | LAL (N=391) | Control (N=193) | LAL (N=388) | Control (N=193) | LAL (N=391) | Control (N=188) | | | n (%) | n (%) | n (%) | n (%) | n (%) | n (%) | | Increase in 15 letters or more (3 lines or more) | 1 (0.3%) | 1 (0.5%) | 1 (0.3%) | 1 (0.5%) | 1 (0.3%) | 2 (1.1%) | | Increase in 10-14 letters (2 lines) | 5 (1.3%) | 1 (0.5%) | 4 (1.0%) | 6 (3.1%) | 2 (0.5%) | 3 (1.6%) | | Increase in 5-9 letters (1 line) | 52 (13.3%) | 17 (8.8%) | 48 (12.4%) | 15 (7.8%) | 50 (12.8%) | 18 (9.6%) | | No Change | 312 (79.8%) | 150 (77.7%) | 307 (79.1%) | 150 (77.7%) | 306 (78.3%) | 142 (75.5%) | | Decrease in 5-9 letters (1 line) | 19 (4.9%) | 21 (10.9%) | 25 (6.4%) | 20 (10.4%) | 31 (7.9%) | 19 (10.1%) | | Decrease in 10-14 letters (2 lines) | 2 (0.5%) | 3 (1.6%) | 3 (0.8%) | 1 (0.5%) | 1 (0.3%) | 4 (2.1%) | | Decrease in 15 letters or more (3 lines or more) | 0 (0.0%) | 0 (0.0%) | 0 (0.0%) | 0 (0.0%) | 0 (0.0%) | 0 (0.0%) | | Not reported | 0 | 0 | 0 | 0 | 0 | 0 | | Mean change in number of letters | 0.7 ± 4.9 (391) | -0.5 ± 3.9 (193) | 0.9 ± 5.0 (388) | 0.1 ± 4.2 (193) | 0.6 ± 5.2 (391) | 0.0 ± 4.4 (188) | ## Erythropsia Erythropsia is an uncommon abnormality of vision in which objects appear to be tinged with red. It can be caused by exposure to high levels of ultraviolet (UV) light. Since the PMA P160055: FDA Summary of Safety and Effectiveness Data Page 25 {25} SUMMARY OF SAFETY AND EFFECTIVENESS DATA LIGHT ADJUSTABLE LENS (LAL) AND LIGHT DELIVERY DEVICE (LDD) PAGE 26 LDD exposes the eye to higher than usual levels of UV light, the study attempted to assess the presence and severity of erythropsia experienced by the subjects. It was assumed that post-light treatment erythropsia were related to use of the LDD. At a number of study visits, subjects were asked (without occlusion of the untreated eye): “At this moment, how would you rate your color vision? Is it normal, pink, red, or dark red?” Erythropsia was graded as none for a normal response, mild for a pink response, moderate for a red response, or severe for a dark red response. It should be noted that this assessment methodology was not determined to be a psychometrically valid assessment of the concept of patient reported erythropsia. Table 6 presents results from the erythropsia assessment. After light treatment, 233 (58.3%, 233/399) eyes in the LAL group had erythropsia of any grade. The highest rate of erythropsia was reported prior to the lock-in #2 treatment when 49.0% (195/398) of LAL subjects reported mild erythropsia. This proportion decreased significantly at 1 week post lock-in #2 (17.7%, 70/396) and was only 0.5% (2/391) at 6 months. Only 1 (0.3%, 1/389) LAL subject continued to report mild erythropsia at the 12-month exam with resolution at 14 months postoperatively. The mean duration for mild erythropsia could not be established because subjects were not required to return for interim visits with “mild” symptoms. The highest rate of moderate erythropsia also was reported prior to the lock-in #2 treatment when 11 LAL subjects reported this level. Fourteen subjects reported moderate erythropsia at some point in the study, with none reporting severe levels. The average duration of moderate erythropsia was 11.6 days with the minimum duration of 5.0 days and a maximum duration of 22.0 days. No LAL subjects reported moderate erythropsia after the lock-in #2 visit. All but one of the reports of moderate erythropsia occurred prior to the introduction of a safety improvement to the LDD device to reduce UV exposure during the Lock-in procedure. (This device modification was instituted after about half of the subjects had received the earlier version of the LDD treatments.) However, the overall rate of subjects experiencing mild erythropsia was not substantially affected by this modification of the LDD. TABLE 6 ERYTHROPSIA (SUBJECTS WITH DATA AT RELEVANT TIMEPOINTS) | Degree of Erythropsia | Adj. #1 | Interim | Adj. #2 | Interim | Lock-In #1 | Interim | Lock-In #2 | Interim | | --- | --- | --- | --- | --- | --- | --- | --- | --- | | LAL | | | | | | | | | | | N=400 | N=9 | N=262 | N=8 | N=399 | N=24 | N=398 | N=9 | | | n (%) | n | n (%) | n | n (%) | n | n (%) | n | | None | 394 (98.7%) | 3 | 223 (85.1%) | 6 | 349 (87.5%) | 3 | 203 (51.0%) | - | | Mild (pink) | 5 (1.3%) | 0 | 38 (14.6%) | 0 | 50 (12.5%) | 6 | 195 (49.0%) | - | | Moderate (red) | 0 (0.0%) | 0 | 1 (0.4%) | 0 | 0 (0.0%) | 11 | 0 (0.0%) | - | | Severe (dark red) | 0 (0.0%) | 0 | 0 (0.0%) | 0 | 0 (0.0%) | 0 | 0 (0.0%) | - | | Not assessed | 1 | 6 | 0 | 2 | 0 | 4 | 0 | 9 | PMA P160055: FDA Summary of Safety and Effectiveness Data Page 26 {26} SUMMARY OF SAFETY AND EFFECTIVENESS DATA LIGHT ADJUSTABLE LENS (LAL) AND LIGHT DELIVERY DEVICE (LDD) PAGE 27 | Degree of Erythropsia | 1 Week Post Lock-In #2 | Interim | 6 Months | Interim | 9 Months | Interim | 12 Months | | --- | --- | --- | --- | --- | --- | --- | --- | | LAL | | | | | | | | | | N=396 | N=57 | N=391 | N=18 | N=388 | N=23 | N=391 | | | n (%) | n | n (%) | n | n (%) | n | n (%) | | None | 326 (82.3%) | 11 | 389 (99.5%) | 1 | 387 (99.7%) | 2 | 388 (99.7%) | | Mild (pink) | 70 (17.7%) | 1 | 2 (0.5%) | 0 | 1 (0.3%) | 0 | 1 (0.3%) | | Moderate (red) | 0 (0.0%) | 0 | 0 (0.0%) | 0 | 0 (0.0%) | 0 | 0 (0.0%) | | Severe (dark red) | 0 (0.0%) | 0 | 0 (0.0%) | 0 | 0 (0.0%) | 0 | 0 (0.0%) | | Not assessed | 0 | 45 | 0 | 17 | 0 | 21 | 2 | | Degree of Erythropsia | 17-21 Days | Interim | 6 Months | Interim | 9 Months | Interim | 12 Months | | --- | --- | --- | --- | --- | --- | --- | --- | | Control | | | | | | | | | | N=197 | N=21 | N=193 | N=8 | N=193 | N=13 | N=188 | | | n (%) | n | n (%) | n | n (%) | n | n (%) | | None | 196 (99.5%) | 2 | 193 (100.0%) | 1 | 193 (100.0%) | 1 | 188 (100.0%) | | Mild (pink) | 1 (0.5%) | 0 | 0 (0.0%) | 0 | 0 (0.0%) | 0 | 0 (0.0%) | | Moderate (red) | 0 (0.0%) | 0 | 0 (0.0%) | 0 | 0 (0.0%) | 0 | 0 (0.0%) | | Severe (dark red) | 0 (0.0%) | 0 | 0 (0.0%) | 0 | 0 (0.0%) | 0 | 0 (0.0%) | | Not assessed | 0 | 19 | 0 | 7 | 0 | 12 | 0 | % = n/N(100) ## Color Vision Testing Since a high level of exposure to UV light can also affect color vision (especially causing a weakness related to perception of blue color or a tritan anomaly), the study also used color vision testing to look for defects of color vision. It was assumed that a tritan anomaly that appears only after light treatment was related to use of the LDD. The City University Color Vision Test (3rd Edition 1998) consists of a series of 11 plates, 4 for Part One and 7 for Part Two. Part One is generally used for screening for color vision defects. The objective of Part Two is to classify color vision defects. Per the score sheet provided with the test, more than one entry for protan, deutan or tritan is considered abnormal. A protan anomaly is a color vision deficiency that affects the long wavelength sensitive cones and affects a patient's ability to distinguish blue and green colors and also red and green colors. A deutan anomaly is a color vision deficiency that affects the medium wavelength sensitive cones and affects a patient's ability to distinguish red and green colors but others may also be slighted affected. A tritan anomaly is a color vision deficiency that affects the short wavelength sensitive cones and typically affects a patient's ability to distinguish between violet, blue and green colors. PMA P160055: FDA Summary of Safety and Effectiveness Data Page 27 {27} SUMMARY OF SAFETY AND EFFECTIVENESS DATA LIGHT ADJUSTABLE LENS (LAL) AND LIGHT DELIVERY DEVICE (LDD) PAGE 28 City University Test results are provided in Table 7. Any new tritan anomaly measured after the initial light treatment was considered related to the LDD UV exposure. A total of 7 (1.8%, 7/398) LAL eyes had a tritan score &gt;1 any time after light treatment. Five eyes resolved after light treatments were complete and 2 persisted. Of the five eyes that resolved, four of the eyes were seen at consistent follow-up exams to monitor progress. The average duration of the tritan anomaly for these 4 eyes was 16 days with a minimum duration of 10 days and a maximum duration of 30 days. The fifth eye had a large time gap (557 days) from the time the eye was diagnosed with a tritan anomaly to the next clinical visit in which no tritan anomaly was observed. The two eyes with persistent tritan anomalies were measured with a tritan score &gt;1 at the last study visit, and 1 of these eyes previously described as having an adverse device effect due to a faulty UV filter was documented as having the tritan anomaly at 4 years postoperatively. Both of the persistent and all but one of the transient tritan anomalies occurred prior to the introduction of a safety improvement to the LDD device to reduce UV exposure during the Lock-in procedure. TABLE 7 CITY UNIVERSITY (SUBJECTS WITH DATA AT RELEVANT TIMEPOINTS) | Part 1 | Pre-Adj #1 LAL (N=400) | 17-21 Days Control (N=197) | Interim Visit LAL (N=10) | Pre-Lock-in #1 LAL (N=399) | Interim Visit LAL (N=21) | Pre-Lock-in #2 LAL (N=398) | Interim Visit LAL (N=0) | 1 week post Lock-in #2 LAL (N=396) | Interim Visit | | | --- | --- | --- | --- | --- | --- | --- | --- | --- | --- | --- | | | | | | | | | | | LAL (N=10) | Control (N=0) | | | n (%) | n (%) | n | n (%) | n | n (%) | n | n (%) | n | n | | Abnormal (<9) | 12 (3.0%) | 4 (2.0%) | 0 | 8 (2.0%) | 11 | 12 (3.0%) | 0 | 6 (1.5%) | 1 | 0 | | Not reported | 1 | 0 | 0 | 2 | 0 | 0 | 0 | 0 | 0 | 0 | | Part 2 | | | | | | | | | | | | Protan >1 | 2 (0.5%) | 0 (0.0%) | 0 | 2 (0.5%) | 0 | 1 (0.3%) | 0 | 0 (0.0%) | 0 | 0 | | Deutan >1 | 1 (0.3%) | 1 (0.5%) | 0 | 3 (0.8%) | 1 | 2 (0.5%) | 0 | 1 (0.3%) | 0 | 0 | | Tritan >1 | 0 (0.0%) | 0 (0.0%) | 0 | 1 (0.3%) | 5 | 0 (0.0%) | 0 | 1 (0.3%) | 1 | 0 | | Not reported | 1 | 0 | 0 | 2 | 0 | 0 | 0 | 0 | 0 | 0 | | | 6 months | | Interim Visit | | 9 months | | Interim Visit | | 12 months | | | --- | --- | --- | --- | --- | --- | --- | --- | --- | --- | --- | | Part 1 | LAL (N=391) | Control (N=193) | LAL (N=1) | Control (N=1) | LAL (N=388) | Control (N=193) | LAL (N=1) | Control (N=0) | LAL (N=391) | Control (N=188) | | | n (%) | n (%) | n | n | n (%) | n (%) | n | n | n (%) | n (%) | | Abnormal (<9) | 8 (2.0%) | 4 (2.1%) | 0 | 0 | 5 (1.3%) | 2 (1.0%) | 0 | 0 | 6 (1.5%) | 2 (1.1%) | | Not reported | 0 | 0 | 0 | 0 | 0 | 0 | 0 | 0 | 0 | 0 | | Part 2 | | | | | | | | | | | | Protan >1 | 1 (0.3%) | 0 (0.0%) | 0 | 0 | 2 (0.5%) | 0 (0.0%) | 0 | 0 | 1 (0.3%) | 0 (0.0%) | | Deutan >1 | 2 (0.5%) | 1 (0.5%) | 0 | 0 | 3 (0.8%) | 1 (0.5%) | 0 | 0 | 2 (0.5%) | 1 (0.5%) | | Tritan >1 | 3 (0.8%) | 0 (0.0%) | 0 | 0 | 0 (0.0%) | 0 (0.0%) | 0 | 0 | 1 (0.3%) | 0 (0.0%) | | Not reported | 1 | 0 | 0 | 0 | 0 | 0 | 0 | 0 | 0 | 0 | % = n/N(100) Contrast Sensitivity PMA P160055: FDA Summary of Safety and Effectiveness Data Page 28 {28} SUMMARY OF SAFETY AND EFFECTIVENESS DATA LIGHT ADJUSTABLE LENS (LAL) AND LIGHT DELIVERY DEVICE (LDD) PAGE 29 Best spectacle corrected contrast sensitivity testing was performed on a subgroup of LAL and Control eyes under photopic and mesopic test conditions, with and without glare, at pre-adjustment #1 (LAL) and 17-21 days (Control) and at 6 months postoperatively. In photopic conditions both with and without glare, there was no clinically significant difference noted between the LAL and Control groups. Mesopic results without glare show a mean improvement at each frequency for the LAL group and at each frequency except 12 cpd for the Control group. Therefore, in mesopic conditions both with and without glare, there was no clinically significant difference noted between the LAL and Control groups. ## Specular Microscopy Sub-Study As shown in Table 8, at 6 months postop, the mean endothelial cell loss (ECL) for subjects participating in the endothelial cell sub-study was 14.7% (14/99). At this time point, the minimum confirmed postoperative ECD value observed was 814 and the maximum confirmed percent loss from baseline was approximately 66%; and 21% of eyes (21/99) had losses from baseline that were greater than 25%. Results at 1 week postoperatively (before light treatment) looked similar. These acute losses are greater than those typically seen in well conducted specular microscopy studies associated with cataract surgery. Since no control group was used in this substudy, it was difficult to determine causative factors. TABLE 8 SPECULAR MICROSCOPY ALL SPECULAR MICROSCOPY SUB-STUDY SUBJECTS WITH DATA AT RELEVANT TIMEPOINTS | | Preop | 6 Months Postop | 12 Months Postop | | --- | --- | --- | --- | | N | 104 | 99 | 012 | | ECD | | | | | Mean (SD) | 2493.0 (318.7) | 2139.8 (516.0) | 2120.7 (505.5) | | Percent Change in ECD | | | | | Mean (SD) | | -14.7% (15.9%) | -15.0% (15.2%) | ## 2. Effectiveness Results The analysis of effectiveness was based on subsets of the 584 evaluable patients at the 6-month time point. Key effectiveness outcomes are presented in Tables 9 and 10. Table 9 presents the primary effectiveness analyses of the co-primary effectiveness endpoints that were performed based on the noted subsets of evaluable subjects at 6 months without imputation. The analyses of other key effectiveness outcomes (based on all evaluable subjects with data) are presented in Table 10. PMA P160055: FDA Summary of Safety and Effectiveness Data Page 29 {29} SUMMARY OF SAFETY AND EFFECTIVENESS DATA LIGHT ADJUSTABLE LENS (LAL) AND LIGHT DELIVERY DEVICE (LDD) PAGE 30 # TABLE 9 ## PRIMARY ANALYSES OF CO-PRIMARY EFFECTIVENESS ENDPOINTS ### (EXCLUDED SUBJECTS SHOWN IN FOOTNOTES) | Endpoint | | LAL (Number Implanted = 391) | Treatment Effect | Control (Number Implanted = 193) | | --- | --- | --- | --- | --- | | For eyes with manifest cylinder <0.75 D at Pre-Adjustment Timepoint: Percent reduction in manifest cylinder from Pre-Adjustment (LAL) or 17-21 days post-op (control) to 6 months postop^{1} | | | | | | | Number in Analysis | 286 | | 126 | | | Mean ± SD [95% CI] | 74.6 ± 30.1) [71.1,78.1] | | 19.9 ± 51.1 [10.9,28.9] | | | Median | 83.3 | | 20.0 | | | (Min, Max) | (-33, 100) | | (-200, 100) | | | Difference in means | | 54.7 | | | | p-value | | <0.0001 | | | For eyes with non-zero MRSE at Pre-Adjustment Timepoint: Percent absolute reduction in MRSE from Pre-Adjustment (LAL) or 17-21 days post-op (control) to 6 months postop^{2} | Number in Analysis | 380 | | 166 | | | Mean ± SD [95% CI] | 51.5 ± 76.0 [43.8,59.1] | | 10.4 ± 93.1 [-3.8,24.7] | | | Median | 75.0 | | 36.7 | | | (Min, Max) | (-500, 100) | | (-400, 100) | | | Difference in means | | 41.1 | | | | p-value | | <0.0001 | | | Number (%) of eyes with axial rotation of LAL of ≤ 5 degrees from Pre-Adjustment to 6 months postop^{3} | n/N (%) | 344 /358 (96.1 %) | | N/A | | | 95% Confidence Interval | [93.5%, 97.8%] | | N/A | 1 Excludes subjects with &lt;0.75 D of cylinder at Pre-Adjustment (LAL) or 17-21 days post-op (Control). 105 of LAL and 67 of Control subjects were excluded for this reason. Note that the LDD power adjustment does not treat less than 0.75 D of cylinder 2 Excludes subjects with MRSE of 0 at Pre-Adjustment (LAL) or 17-21 days post-op (Control) since it is not possible to divide by zero (11 of LAL and 27 of Control subjects were excluded for this reason) 3 Excludes subjects that do not have readable images at both Pre-Adjustment or 6 months (33 eyes were excluded for this reason). Subjects were systematically excluded from the two refractive endpoint analyses above. Subjects with astigmatism &lt;0.75 D (including 105 LAL subjects not eligible for astigmatic treatment) were not included in the main analysis of "percent reduction" of astigmatism. Subjects with zero MRSE were not included in the "percent reduction" MRSE analysis. In addition, when choosing the IOL implantation power, the two arms were treated differently. For LAL implantation power, subjects were targeted to +0.50 D MRSE (to compensate for the expected 0.5 D myopic shift of the lock-in), as opposed to the controls who were targeted to zero MRSE. Table10 provides key effectiveness results that were evaluated for all all implanted subjects available at 6 months. Note that the two treatment arms showed virtually the same mean magnitude of MRSE at 6 months. And the differences in the percentages of eyes with MRSE close to zero were not large. LAL implanted subjects had mean UCVA about 1 line better than control subjects and mean residual manifest cylinder 0.45 D better than control subjects. PMA P160055: FDA Summary of Safety and Effectiveness Data Page 30 {30} SUMMARY OF SAFETY AND EFFECTIVENESS DATA LIGHT ADJUSTABLE LENS (LAL) AND LIGHT DELIVERY DEVICE (LDD) PAGE 31 # TABLE 10 SUMMARY ADDITIONAL EFFECTIVENESS ENDPOINTS AT 6 MONTHS (ALL SUBJECTS WITH DATA AVAILABLE AT 6 MONTHS) | | LAL (N=391) | Treatment Effect | Control (N=193) | | --- | --- | --- | --- | | Mean absolute MRSE ± SD (D) | 0.224 ±0.225 | 0.089 | 0.313 ±0.322 | | Mean manifest cylinder ± SD (D) | 0.299 ±0.366 | 0.450 | 0.749 ±0.620 | | Percent of eyes with MRSE within 0.50 D of zero n (%) | 360 (92.1%) | 8.7% | 161 (83.4%) | | Percent of eyes with MRSE within 1.00 D of zero n (%) | 389 (99.5%) | 2.6% | 187 (96.9%) | | Percent of eyes with manifest cylinder within 0.50 D of zero n (%) | 322 (82.4%) | 31.1% | 99 (51.3%) | | Percent of eyes with manifest cylinder within 1.00 D of zero | 385 (98.5%) | 23.9% | 144 (74.6%) | | Mean BSCVA LogMAR acuity (Snellen equivalent) ± SD | -0.066 (20/17.2) ± 0.084 | -0.038 | -0.028 (20/18.8) ± 0.091 | | Mean UCVA LogMAR acuity (Snellen equivalent) ± SD | 0.005 (20/20) ± 0.103 | 0.127 | 0.132 (20/27) ± 0.165 | % = n/N(100) Table 11 presents the results for the secondary effectiveness endpoints. These were analyzed to demonstrate superiority in percent of subjects achieving UCVA of 20/20, superiority in "percent reduction in manifest cylinder" for two strata of cylinder at the pre-light-treatment timepoint, superiority in the "percent reduction in MRSE" for the subset of eyes with pre-light-treatment manifest cylinder &lt; 0.75 D, and non-inferiority in BSCVA for the subset of eyes with no macular disease that would cause reduction in acuity. All of the analyses demonstrated successful results, with the exception of the "percent reduction in MRSE" analysis, which failed to show superiority. PMA P160055: FDA Summary of Safety and Effectiveness Data Page 31 {31} SUMMARY OF SAFETY AND EFFECTIVENESS DATA LIGHT ADJUSTABLE LENS (LAL) AND LIGHT DELIVERY DEVICE (LDD) PAGE 32 # TABLE 11 ## SECONDARY EFFECTIVENESS ENDPOINTS AT 6 MONTHS ## (SUBJECTS WITH DATA AT RELEVANT TIMEPOINTS) ## (EXCLUDED SUBJECTS EXPLAINED IN FOOTNOTES) | | | LAL (Number implanted=391) | Treatment Effect | Control (Number implanted=193) | p-value | | --- | --- | --- | --- | --- | --- | | UCVA 20/20 or better at 6 months^{1} | n(%) | 274 /391 (70.1 %) | 33.8% | 70 /193 (36.3 %) | < .0001 | | Percent reduction in manifest cylinder at 6 months in the 0.75 to 1.25 D cylinder treatment group^{2} | Mean ± SD (number in analysis) | 73.4 ± 33.1 (n =203) | 54.8 | 18.6 ± 57.0 (n =90) | < .0001 | | Percent reduction in manifest cylinder at 6 months in the >1.25 D cylinder treatment group^{3} | Mean ± SD (number in analysis) | 77.5 ± 20.7 (n=83) | 54.4 | 23.1 ± 32.3 (n=36) | < .0001 | | Percent absolute reduction in MRSE at 6 months for eyes with < 0.75D of cylinder at Pre-Adjustment (LAL) or 17-21 days post-op (control)^{4} | Mean ± SD (number in analysis) | 55.2 ± 76.3 (n=100) | 28.0 | 27.2 ± 75.2 (n=53) | 0.0318 | | Mean BSCVA for 'best case' cohort (no macular problems) at 6 months^{5} | Mean ± SD (number in analysis) | -0.066 ± 0.083 (n=390) | | -0.029 ± 0.090 (n=191) | - | | | Difference in means [99% Confidence Interval] | | -0.04 [-0.06,-0.02] | - | - | % = n/N(100) 1. All eyes with UCVA data at 6 months 2. Includes only eyes with 0.75 D to 1.25 D of cylinder at Pre-Adjustment (LAL) or 17-21 days post-op (Control); excludes eyes without data at 6 months 3. Includes only eyes with &gt; 1.25 D of cylinder at Pre-Adjustment (LAL) or 17-21 days post-op (Control); excludes eyes without data at 6 months 4. Excludes subjects with MRSE of 0 at Pre-Adjustment (LAL) or 17-21 days post-op (Control) since it is not possible to divide by 0); excludes eyes without data at 6 months 5. One LAL eye and 2 Control eyes excluded from "best case" cohort, because of macular problems PMA P160055: FDA Summary of Safety and Effectiveness Data Page 32 {32} SUMMARY OF SAFETY AND EFFECTIVENESS DATA LIGHT ADJUSTABLE LENS (LAL) AND LIGHT DELIVERY DEVICE (LDD) PAGE 33 # Additional Effectiveness Analysis Table 12 characterizes the manifest cylinder and the percent reduction in cylinder at 6 and 12 months postoperative. TABLE 12 MANIFEST CYLINDER AT 6 AND 12 MONTHS AND PERCENT REDUCTION IN CYLINDER IN EYES WITH ≥ 0.75 D CYLINDER AT PRE-ADJUSTMENT (LAL) /17-21 DAYS (CONTROL) (SUBJECTS WITH DATA AT RELEVANT TIME POINTS) | | 6 Months | | 12 Months | | | --- | --- | --- | --- | --- | | Manifest Cylinder (D) | LAL (N=286) | Control (N=126) | LAL (N=284) | Control (N=122) | | Mean ± SD (n) | 0.295 ± 0.339 (286) | 0.962 ± 0.626 (126) | 0.370 ± 0.420 (284) | 0.967 ± 0.651 (122) | | Median | 0.250 | 1.000 | 0.250 | 1.000 | | (Min, Max) | (0.00, 1.50) | (0.00, 2.50) | (0.00, 3.50) | (0.00, 4.50) | | | | | | | | % Reduction in Manifest Cylinder | | | | | | Mean ± SD (n) | 74.6 ± 30.1 (286) | 19.9 ± 51.1 (126) | 67.6 ± 36.5 (284) | 19.9 ± 45.6 (122) | | Median | 83.3 | 20.0 | 75.0 | 20.0 | | (Min, Max) | (-33, 100) | (-200, 100) | (-133, 100) | (-125, 100) | Table 13 presents the accuracy of the cylinder correction at 6 and 12 months for all LAL eyes that had a cylinder correction attempted. TABLE 13 CYLINDER CORRECTION ACCURACY (LAL) (SUBJECTS WITH DATA AT RELEVANT TIME POINTS) | | 6 months | 12 months | | --- | --- | --- | | Accuracy of Cylinder Correction to Intended Target | LAL (N=286) | LAL (N=284) | | | n (%) | n (%) | | Within 0.50 D | 237 (82.9 %) | 227 (79.9 %) | | Within 1.00 D | 283 (99.0 %) | 271 (95.4 %) | %=n/N(100) Table 14 presents the accuracy of MRSE correction for eyes in the LAL group at 6 and 12 months. PMA P160055: FDA Summary of Safety and Effectiveness Data Page 33 {33} SUMMARY OF SAFETY AND EFFECTIVENESS DATA LIGHT ADJUSTABLE LENS (LAL) AND LIGHT DELIVERY DEVICE (LDD) PAGE 34 ## TABLE 14 ACCURACY OF MRSE CORRECTION TO INTENDED TARGET (LAL) (SUBJECTS WITH DATA AT RELEVANT TIME POINTS) | | 6 months | 12 months | | --- | --- | --- | | Accuracy of MRSE Correction to Intended Target | LAL (N=391) | LAL (N=391) | | | n (%) | n (%) | | Within 0.50 D | 358 (91.6%) | 357 (91.5%) | | Within 1.00 D | 387 (99.2%) | 390 (100.0%) | % = n/N(100) Refractive stability of the MRSE for the LAL and Control groups for the pairwise cohort is shown in Table 15. All 5 refractive criteria per ANSI Z80.11-2012 were met and/or exceeded at the 6-month visit. The most rigorous of these criteria, i.e., change in MRSE no greater than 0.04D/month and change per year no greater than 0.5 D, were considerably exceeded, as shown in Table 17. The mean rate of change per month for the LAL group was 0.004 D beginning at the 1 week post lock-in #2 through the 6-month visit, and the 95% confidence interval for the mean rate of change includes zero at all intervals for the LAL. ## TABLE 15 MRSE REFRACTIVE STABILITY (SUBJECTS WITH DATA AT RELEVANT TIME POINTS) | | 1 week post Lock-in #2 (LAL)/17-21 days (control)to 6M | | 6M to 9M | | 9M to 12M | | 1 week post Lock-in #2 (LAL)/ 17-21 days (control)to 12M | | | --- | --- | --- | --- | --- | --- | --- | --- | --- | | MRSE | LAL (N=387) | Control (N=193) | LAL (N=382) | Control (N=191) | LAL (N=388) | Control (N=188) | LAL (N=387) | Control (N=188) | | | n (%) | n (%) | n (%) | n (%) | n (%) | n (%) | n (%) | n (%) | | Eyes with ≤ 1.00 D change | 385 (99.5%) | 185 (95.9%) | 379 (99.2%) | 188 (98.4%) | 387 (99.7%) | 183 (97.3%) | 384 (99.2%) | 182 (96.8%) | | Eyes with ≤ 0.50 D change | 363 (93.8%) | 156 (80.8%) | 366 (95.8%) | 170 (89.0%) | 371 (95.6%) | 171 (91.0%) | 356 (92.0%) | 157 (83.5%) | | | | | | | | | | | | Mean Change Between Visits [95% CI] | 0.021 ± 0.296 [-0.009,0.050] | 0.046 ± 0.520 [-0.028,0.120] | -0.012 ± 0.302 [-0.042, 0.018] | -0.015 ± 0.384 [-0.070,0.040] | 0.012 ± 0.277 [-0.016,0.040] | 0.041 ± 0.391 [-0.016,0.097] | 0.029 ± 0.327 [-0.003,0.062] | 0.074 ± 0.458 [0.0…