Cross-linked hydrogel and polyester resorbable ventilation tubes in a Chinchilla model

Fabrication and Evaluation of Hyaluronidase-Responsive Scaffolds by Electrospinning with Antibacterial Properties for Tympanic Membrane Repair

Tympanic membrane perforation (TMP) is prevalent in clinical settings. Patients with TMPs often suffer from infections caused by Staphylococcus aureus and Pseudomonas aeruginosa, leading to middle ear and external ear canal infections, which hinder eardrum healing. The objective of this study is to fabricate an enzyme-responsive antibacterial electrospun scaffold using poly(lactic-co-glycolic acid) and hyaluronic acid for the treatment of infected TMPs. The properties of the scaffold were characterized, including morphology, wettability, mechanical properties, degradation properties, antimicrobial properties, and biocompatibility. The results indicated that the fabricated scaffold had a core-shell structure and exhibited excellent mechanical properties, hydrophobicity, degradability, and cytocompatibility. Furthermore, in vitro bacterial tests and ex vivo investigations on eardrum infections suggested that this scaffold possesses hyaluronidase-responsive antibacterial properties. It may rapidly release antibiotics when exposed to the enzyme released by S. aureus and P. aeruginosa. These findings suggest that the scaffold has great potential for repairing TMPs with infections.

Diseño, modelado 3D y optimización del comportamiento mecanoacústico de un nuevo tubo de ventilación transtimpánico

Introducción y Objetivos: En este trabajo mostramos un nuevo tubo de ventilación transtimpánico cuyo diseño pretende solventar los efectos indeseables aparecidos durante la inserción de tubos de ventilación actualmente comercializados; analizamos su comportamiento mecánico en un modelo 3D del oído a fin de optimizar su comportamiento acústico. Métodos: Para el diseño del tubo se empleó un software autoCAD; El comportamiento mecánico se analizó en un modelo computadorizado dinámico 3D del oído humano basado en el método de los elementos finitos (FEM). Resultados: El nuevo tubo de ventilación posee un tamaño y una masa significativamente menores a los actualmente disponibles en el mercado lo que provoca un menor interferencia en la vibración del sistema tímpano-osicular; su diseño facilita que permanezca insertado mientras las condiciones del paciente así lo aconsejen evitando su caída hacia la caja o su precoz extrusión. Conclusiones: Las ventajas teóricas biológicas y acústicas del nuevo tubo desarrollado (con menor masa y cuyo diseño evita las complicaciones de los actuales) puede abrir una nueva posibilidad de tratamiento de la otitis media seromucosa crónica.

Silk Protein Bioresorbable, Drug-Eluting Ear Tubes: Proof-of-Concept

Otitis media with effusion (OEM) is a common pediatric pathology treated with topical fluoroquinolones (ear drops) and tympanoplasty tube, also referred to as ear tube, implantation for middle ear drainage. Commercially available ear tubes are fabricated using poly (lactic-co-glycolic acid) synthetic materials that are associated with long-complications due to premature extrusion. Resorbable materials have emerged as desirable alternatives to reduce extrusion-related complications, but often limited by fast resorption rates. Therefore, resorbable tubes with long-term functional integrity are required for future clinical translation. In this communication, a proof-of-concept study is reported on a bioresorbable and drug-eluting silk ear tube device. Preliminary in vitro assessments reveal time-dependent drug elution and antimicrobial properties, while maintaining long-term functional integrity in vivo. This report provides evidence of a silk ear tube with potential for future clinical translation and OEM treatment.