E Esser scite author profile

Abdominal adhesions are one of the major problems associated with abdominal surgeries or abdominal trauma. There are many different therapeutic options to prevent these adhesions, for example, the application of barrier films made of biodegradable polymers like alginate. For many application relevant parameters (mechanical stability, elasticity, erosion, and mucoadhesivity of the films), the extent of cross-linking with divalent cations, such as calcium, is essential to obtain alginate films with clinically ideal properties. All these properties can eventually be strongly influenced by the composition of the films. For this reason, the manufacture of thin films (≈20 µm) was improved to accurately control the calcium content and distribution as well as the time and process of cross-linking. The aim of this work was to find the best suited method to evenly distribute the calcium ions in the alginate films and to obtain films with controlled erosion times as well as sufficient flexibility and stability. Furthermore, the influence of plasticizers on the mechanical stability and elasticity was tested to find the amount and type of plasticizers that have to be added to produce the best suited films.

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Bilateral PLA/alginate membranes for the prevention of postsurgical adhesions

Keßler

Esser

Groll

et al. 2015

J Biomed Mater Res

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A bilateral barrier membrane for the prevention of postsurgical adhesions was developed. Thereby, a smooth PLA side was supposed to keep the affected tissues glidingly separated, while a mucoadhesive side made of alginate was meant to keep the barrier resident on the site of injury so that suturing becomes redundant or at least the membrane stays long enough to facilitate surgical handling. Because hydrophilic alginate and lipophilic PLA films show only low cohesion, solution electrospun meshes of PLA and PLA-PEG-PLA triblock copolymers with varying poly(ethylene glycol) [PEG] content were investigated as cohesion promoter to avoid an easy separation of the functionally different layers. Using direct electrospinning onto the PLA film, a modified contact surface of the mesh was created, which allowed the tested alginate solutions (3%, 5%) to infiltrate to different extents. Thereby, an increasing content of hydrophilic PEG within the mesh copolymer and a lower alginate concentration facilitated the infiltration. As a result, the PLA film with a PLA35k-PEG10k-PLA35k (racemic PLA chains) mesh and an alginate layer cast from a 3% alginate solution appeared to be the most effective combination as examined by means of a t peel test, a mucoadhesion test, a tensile test and optical evaluations. © 2015 Wiley Periodicals, Inc. J Biomed Mater Res Part B: Appl Biomater, 104B: 1563-1570, 2016.

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Preparation of well‐defined calcium cross‐linked alginate films for the prevention of surgical adhesions

Bilateral PLA/alginate membranes for the prevention of postsurgical adhesions

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