Abstract
Abstract Individually tailored drug delivery systems (DDSs) are considered one of the most promising therapeutic tools for the creation of safe and effective treatments. DDSs as a novel approach should be beneficial in curing systemic as well as local ailments, where a high topical concentration of the drug and a reduction of side effects are desirable. It could also be favorable for patients requiring customized treatments, showing atypical profiles of drug metabolism. Development of particular drug delivery devices require the selection of a suitable scaffold material, which should exhibit proper mechanical and biological properties, but also enable adjustment of the drug release according to a specific need. Thus, it is extremely important to expand the knowledge concerning potential DDS components. Poly(ethylene glycol) diacrylate (PEGDA) according to its properties can be easily used as a DDS resin and shaped into a desired structure with the employment of techniques based on photopolymerization, including some novel 3D printing techniques. As a continuation of our previous works, in this paper drug release studies from conventionally prepared PEGDA scaffolds are presented. We have shown that in PEGDA materials, the release profile of the low molecular weight model drug acetylsalicylic acid can be altered by water content. PEGDA as a delivery material should be further investigated to specify its potential as a comonomer and a matrix for pharmaceutical agents.
Highlights
The improvement of diagnostic tools provided a deep understanding of the disposition of pharmaceutical compounds in the human body
The ultrapure water required for obtaining Poly(ethylene glycol) diacrylate (PEGDA)/H2O samples was obtained from the arium® purifying device (Sartorius GmbH, Göttingen, Germany)
The slope of acetylsalicylic acid (ASA) release in PEGDA + H2O samples is steeper in comparison with their corresponding PEGDA pure samples and the release is finished rapidly
Summary
The improvement of diagnostic tools provided a deep understanding of the disposition of pharmaceutical compounds in the human body. It revealed a serious issue concerning pharmacotherapy: the individual variability [1]. One of frequently used material for this purpose is poly(ethylene glycol) diacrylate (PEGDA) – a photopolymerisable compound, which is considered as nontoxic, cytocompatible and easy to use [5]. It can be employed in fabrication of drug delivery scaffolds of different shapes and applications.
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