Angular artery island flap for eyelid defect reconstruction

Biopolymeric Innovations in Ophthalmic Surgery: Enhancing Devices and Drug Delivery Systems

The interface between material science and ophthalmic medicine is witnessing significant advances with the introduction of biopolymers in medical device fabrication. This review discusses the impact of biopolymers on the development of ophthalmic devices, such as intraocular lenses, stents, and various prosthetics. Biopolymers are emerging as superior alternatives due to their biocompatibility, mechanical robustness, and biodegradability, presenting an advance over traditional materials with respect to patient comfort and environmental considerations. We explore the spectrum of biopolymers used in ophthalmic devices and evaluate their physical properties, compatibility with biological tissues, and clinical performances. Specific applications in oculoplastic and orbital surgeries, hydrogel applications in ocular therapeutics, and polymeric drug delivery systems for a range of ophthalmic conditions were reviewed. We also anticipate future directions and identify challenges in the field, advocating for a collaborative approach between material science and ophthalmic practice to foster innovative, patient-focused treatments. This synthesis aims to reinforce the potential of biopolymers to improve ophthalmic device technology and enhance clinical outcomes.

Polymers and Biomaterials for Posterior Lamella of the Eyelid and the Lacrimal System

The application of biopolymers in the reconstruction of the posterior lamella of the eyelid and the lacrimal system marks a significant fusion of biomaterial science with clinical advancements. This review assimilates research spanning 2015 to 2023 to provide a detailed examination of the role of biopolymers in reconstructing the posterior lamella of the eyelid and the lacrimal system. It covers the anatomy and pathophysiology of eyelid structures, the challenges of reconstruction, and the nuances of surgical intervention. This article progresses to evaluate the current gold standards, alternative options, and the desirable properties of biopolymers used in these intricate procedures. It underscores the advancements in the field, from decellularized grafts and acellular matrices to innovative natural and synthetic polymers, and explores their applications in lacrimal gland tissue engineering, including the promise of 3D bioprinting technologies. This review highlights the importance of multidisciplinary collaboration between material scientists and clinicians in enhancing surgical outcomes and patient quality of life, emphasizing that such cooperation is pivotal for translating benchtop research into bedside applications. This collaborative effort is vital for restoring aesthetics and functionality for patients afflicted with disfiguring eyelid diseases, ultimately aiming to bridge the gap between innovative materials and their clinical translation.

Surgical Strategies for Eyelid Defect Reconstruction: A Review on Principles and Techniques

Reconstruction of eyelid defects, especially the posterior lamella, remains challenging because of its anatomical complexity, functional considerations, and aesthetic concerns. The goals of eyelid reconstruction include restoring eyelid structure and function and achieving an aesthetically acceptable appearance. An in-depth understanding of the complex eyelid anatomy and several reconstructive principles are mandatory to achieve these goals. Currently, there are multiple surgical treatment options for eyelid reconstruction, including different flaps, grafts, and combinations of them. This comprehensive review outlines the principles of reconstruction and discusses the indications, advantages, and disadvantages of currently available surgical techniques. We also propose our clinical thinking for solving specific clinical questions in eyelid reconstruction and offer perspectives on new potential methodologies in the future.

[Repair of eyelid and periocular soft tissue defects with Pacman flap]

Objective

To explore the effectiveness and safety of Pacman flap for repair of eyelid and periocular soft tissue defects.

Methods

The clinical data of 12 patients who underwent repair of eyelid and periocular soft tissue defects with Pacman flap between April 2015 and September 2020 was retrospectively reviewed. There were 5 males and 7 females, aged from 18 to 87 years, with a median age of 63 years. The disease duration ranged from 6 months to 50 years, with a median time of 3 years. The defect was located on the lateral eyelid in 5 cases, inferior eyelid in 3 cases, inferior and medial eyelid in 2 cases, inferior and lateral eyelid in 2 cases, and lateral eyebrow in 1 case. Pathological diagnosis included 4 cases of basal cell carcinoma, 4 cases of squamous cell carcinoma, 1 case of junction nevus, 1 case of intradermal nevus, 1 case of seborrheic keratosis, and 1 case of keratoacanthoma. The size of defects ranged from 1.4 cm×1.2 cm to 5.5 cm×5.0 cm. According to the skin mobility and toughness around the defects, Pacman flaps with the size of 1.6 cm×1.4 cm to 10.0 cm×6.0 cm were designed and advanced to repair the defects.

Results

All flaps survived completely with no necrosis. One patient had infection, and another patient had partial wound dehiscence, but the wounds healed after dressing change without further debridement. Other patients all recovered successfully. The follow-up time ranged from4 to 51 months, with a median time of 12 months. No recurrence and metastasis occurred, and the scars were invisible without deformity of eyelid and brow. All patients were satisfied with the aesthetic and functional outcomes of the eyes.

Conclusion

Pacman flap is a simple and feasible technique for repair of eyelid and periocular soft tissue defects, with satisfactory effectiveness.

Using Buccal Mucosa and Auricular Cartilage With a Local Flap for Full-Thickness Defect of Lower Eyelid

ABSTRACT

Reconstruction of full-thickness eyelid wounds is challenging. In this case, using buccal mucosa to repair the conjunctival surface of the lower eyelid defect maintain the function of the conjunctival surface, reduce the damage to the original ocular surface environment. Using autologous auricular cartilage as the skeleton of the eyelid defect, provided better support for the flap, and the site had a good esthetic appearance after surgery. Using skin flap to repair the skin surface of the lower eyelid defect, the eyelid defect can be repaired and good clinical results can be obtained.

Novel "all-in-one" sandwich technique for reconstruction of full-thickness defects of the lower eyelid: a case report

The current paper presents a case report of lower eyelid reconstruction after removal of a basal cell carcinoma. Our novel reconstruction method consists of translation and rotation of a paramedian forehead flap into the defect, conjunctivorhinostomy for reconstruction of the nasolacrimal duct, and placement of a sandwich ear cartilage graft that is primarily seated into the forehead flap to maintain the vertical dimension of the eyelid. This “all-in-one” technique has the advantage of one-step reconstruction, avoiding multiple surgical procedures.