Management of Key Ocular Adverse Events in Patients Implanted with the Port Delivery System with Ranibizumab

Structural Updates to the Implant and Refill Needle of the Port Delivery Platform

Purpose

The purpose of this study was to report the impact of component-level changes and manufacturing process improvements on septum durability in the ocular implant of the Port Delivery Platform (PD-P), more commonly known as the Port Delivery System with ranibizumab (PDS) with its current formulation.

Methods

Laboratory tests were conducted to determine (1) the bond strength of the septum to the overmold, (2) the amount of force utilized for the refill needle to puncture the septum, and (3) septum durability over 50 years. To simulate multiple refill-exchanges over long-term clinical use, implants were aged at elevated temperature in saline and the septum was repetitively punctured at random locations using the refill needle every 3.5 days, simulating 6 months of use.

Results

Updates to the septum-overmold interface of the implant and manufacturing process improvements doubled the bond strength between the overmold and septum (1.2 N to 2.4 N). Light lubrication of the refill needle reduced needle insertion force into the septum by >50% (1 N to 0.4 N). Together, these modifications increased long-term septum durability, with no septum dislodgements being observed after over 50 years of simulated use.

Conclusions

Structural updates to the PD-P implant and refill needle have met and exceeded performance specifications, mitigating the risk of future septum dislodgement in the updated product.

Translational Relevance

Structural updates to the PD-P implant and refill needle resulted in the ability to withstand the equivalent of over 50 years of simulated use without septum dislodgement and should improve the longevity of the device in clinical use.

Interim Results of the Phase III Portal Extension Trial of the Port Delivery System with Ranibizumab in Neovascular Age-Related Macular Degeneration

OBJECTIVE

The Port Delivery System with ranibizumab (PDS) is approved in the United States for neovascular age-related macular degeneration (nAMD). Portal (NCT03683251) is evaluating long-term safety and tolerability of the PDS in patients with nAMD who completed the phase II Ladder (NCT02510794) or phase III Archway (NCT03677934) trials.

DESIGN

Multicenter, nonrandomized, open-label, extension clinical trial.

PARTICIPANTS

All-PDS safety population (N = 555) comprises patients enrolled in Portal who completed Ladder or Archway. Because of data availability, efficacy population comprises Ladder-to-Portal patients only: patients who previously received PDS 10, 40, or 100 mg/mL pro re nata (as-needed [PRN]; n = 58, 62, and 59, respectively) or monthly intravitreal ranibizumab 0.5-mg injections (monthly ranibizumab; n = 41) in Ladder and subsequently enrolled in Portal.

METHODS

Ladder patients received PDS refill-exchanges PRN or monthly ranibizumab. Archway patients received PDS 100 mg/mL with fixed refill-exchanges every 24 weeks (Q24W) or monthly ranibizumab. Once enrolled in Portal, all patients receive PDS Q24W from day 1.

MAIN OUTCOME MEASURES

Ocular adverse events of special interest (AESIs); changes from baseline in best-corrected visual acuity (BCVA) and center point thickness (CPT); supplemental ranibizumab treatment between refill-exchange procedures; and PDS Patient Preference Questionnaire results.

RESULTS

In the All-PDS safety population (mean follow-up, 111 weeks), 137 (24.7%) patients had ≥1 ocular AESI; most common were cataract (11.4%), vitreous hemorrhage (6.1%), and conjunctival thickening (bleb)/filtering bleb leak (6.3%). Endophthalmitis occurred in 11 of 555 (2.0%) patients. For Ladder-to-Portal patients previously treated with PDS 100 mg/mL or monthly ranibizumab, BCVA remained stable from baseline to month 48; mean (95% confidence interval) changes from baseline were 0.1 (-6.6 to 6.8; n = 31) and 2.3 (-9.4 to 14.1; n = 15) letters, respectively; CPT remained stable through month 48. Approximately 95% of patients did not need supplemental treatment before each refill-exchange for >2 years since Portal enrollment. Of Ladder-to-Portal previous monthly ranibizumab patients, 92% preferred the PDS over injections.

CONCLUSIONS

Interim results from Portal suggest 4-year maintenance of visual/anatomic outcomes with PDS 100 mg/mL, with the PDS preferred to monthly injections. Long-term safety profile of the PDS is well characterized.

FINANCIAL DISCLOSURE(S)

Proprietary or commercial disclosure may be found in the Footnotes and Disclosures at the end of this article.

Endophthalmitis in Eyes Treated with the Port Delivery System with Ranibizumab: Summary of Cases during Clinical Trial Development

PURPOSE

The Port Delivery System with ranibizumab (PDS) is approved in the United States for neovascular age-related macular degeneration. The United States Prescribing Information has a Boxed Warning for endophthalmitis and reports the incidence rate in patients developing endophthalmitis after receiving the PDS compared with monthly intravitreal ranibizumab. Endophthalmitis cases noted in the Boxed Warning, treatment outcomes, potential contributing factors, and potential mitigations are summarized.

DESIGN

Retrospective review of endophthalmitis cases in PDS-treated patients in the phase II Ladder (NCT02510794) and phase III Archway (NCT03677934) and Portal (NCT03683251) trials.

PARTICIPANTS

Endophthalmitis cases in the pooled all-PDS safety population (N = 555) including PDS patients in Ladder, Archway, or Portal.

METHODS

Ladder patients received PDS (10, 40, or 100 mg/ml) with pro re nata refill-exchanges. Archway patients received PDS 100 mg/ml with fixed refill-exchanges every 24 weeks (PDS Q24W). Portal patients received PDS Q24W from day 1.

MAIN OUTCOME MEASURES

Clinical features, management, and visual outcomes were summarized. Cases were summarized by date of PDS implant and/or refill, other prior invasive procedures/refills, and preceding/concurrent conjunctival complications.

RESULTS

Twelve endophthalmitis events were reported in 11 patients (11/555 [2.0%]) through March 12, 2021. All were cultured (3 were culture positive) and treated with intravitreal antibiotics. Two cases (2/555 [0.4%]) occurred in the immediate postoperative period (days 5 and 6). Nine cases occurred later (day range: 57-853), including 4 before the first refill-exchange (day range: 57-161). Five patients received between 1 and 11 refill-exchanges before the event (onset: 6-168 days after last refill-exchange). Seven cases (7/11 [63.6%]) had preceding/concurrent conjunctival complications. At last follow-up, 7 patients recovered vision to study baseline levels or ≥20/40; 4 patients experienced vision loss of ≥15 ETDRS letters.

CONCLUSIONS

Endophthalmitis is a serious complication that can endanger vision after any ocular procedure, including PDS implantation. Most, but not all, of this limited series of endophthalmitis cases were late onset, associated with conjunctival breach, and recovered vision with treatment. Meticulous attention to PDS surgical techniques with vigilant monitoring of conjunctiva during follow-up may minimize risk of endophthalmitis. Prompt treatment is critical for optimizing patient outcomes.

FINANCIAL DISCLOSURE(S)

Proprietary or commercial disclosure may be found in the Footnotes and Disclosures at the end of this article.

Systematic Literature Reviews Comparing the Long-Term Safety Outcomes for the Port Delivery System with Ranibizumab (PDS) Versus Other Ocular Implants

OBJECTIVES

To determine whether the types and rates of post-surgical complications associated with the Port Delivery System with ranibizumab (PDS) are comparable with those reported for other ocular implants that cross the sclera.

METHODS

Systematic literature reviews were conducted to determine the long-term (≥ 18-month) safety of ocular implants that cross the sclera in clinical trials and real-world studies. Complication types and rates were compared with those reported for the PDS in phase III clinical trials (Archway, Pagoda, and Pavilion).

RESULTS

Sixteen clinical trials (24 publications) and 43 real-world studies were identified reporting 30 complications in eyes with 15 implant types and 8 ocular diseases. Implants were associated with an acceptable, well-characterized safety profile, with most complications resolving spontaneously or with treatment. Device-related complications were reported in 0.7% (0.0-5.0%) of study eyes in clinical trials and 1.3% (0.0-14.5%) of eyes in real-world studies. Rates of conjunctival complications were 2.1% (0.0-22.8%) and 2.2% (0.9-4.6%), respectively. The overall types and rates of adverse events of special interest reported for the PDS in phase III trials (cataract, conjunctival bleb, vitreous hemorrhage, conjunctival erosion, conjunctival retraction, endophthalmitis, implant dislocation, retinal detachment, and hyphema) were within the ranges reported for other ocular implants.

CONCLUSIONS

The rates of complications reported in phase III clinical trials for the PDS were within the ranges reported for other ocular implants that cross the sclera. This suggests that the long-term safety of the PDS is consistent with other ocular devices established in ophthalmology clinical practice.

TRIAL REGISTRATION

PROSPERO international prospective register of systematic reviews: CRD5202234129, CRD42022343129.

Modified Split-Thickness Corneal Patch Graft for Conjunctival Erosions in Patients With the Port Delivery System Implant: Surgical Technique and Long-Term Outcomes

Purpose: To describe the surgical technique and long-term outcomes of a modified split-thickness corneal patch grafting for conjunctival erosions that can be seen in patients with the Port Delivery System (PDS) implant. Methods: By way of retrospective review of medical records, this interventional case series identified 2 cases in which modified split-thickness corneal patch grafting was used to repair conjunctival erosion in patients with the PDS implant. Results: The surgical approach involved creating a small opening in the corneal graft over the center of the PDS implant to improve visibility and allow for easier access during subsequent refill-exchange procedures. At the last follow-up of 6.9 years and 5.6 years, there was no recurrence of conjunctival erosions in either patient. The PDS implants remained well covered with the split-thickness corneal graft and had undergone multiple implant refills without complication or difficulty. Conclusions: Modified split-thickness corneal patch grafting with central graft aperture offers another option for long-term successful management of conjunctival erosions in patients with a PDS, especially those who have failed prior repair, by allowing sufficient visibility and access for subsequent refill-exchange procedures.

Recent advances and future prospects: current status and challenges of the intraocular injection of drugs for vitreoretinal diseases

Effective drug therapy for vitreoretinal disease is a major challenge in the field of ophthalmology; various protective systems, including anatomical and physiological barriers, complicate drug delivery to precise targets. However, as the eye is a closed cavity, it is an ideal target for local administration. Various types of drug delivery systems have been investigated that take advantage of this aspect of the eye, enhancing ocular permeability and optimizing local drug concentrations. Many drugs, mainly anti-VEGF drugs, have been evaluated in clinical trials and have provided clinical benefit to many patients. In the near future, innovative drug delivery systems will be developed to avoid frequent intravitreal administration of drugs and maintain effective drug concentrations for a long period of time. Here, we review the published literature on various drugs and administration routes and current clinical applications. Recent advances in drug delivery systems are discussed along with future prospects.