Bioengineering / Biyomühendislik
Permanent URI for this collectionhttps://hdl.handle.net/11147/4529
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Article Citation - WoS: 27Citation - Scopus: 27In Vivo Bone Regeneration Capacity of Multiscale Porous Polycaprolactone-Based High Internal Phase Emulsion (polyhipe) Scaffolds in a Rat Calvarial Defect Model(American Chemical Society, 2023) Aldemir Dikici, Betül; Chen, Min-Chia; Dikici, Serkan; Chiu, Hsien-Chung; Claeyssens, FrederikGlobally, one of the most common tissue transplantationproceduresis bone grafting. Lately, we have reported the development of polymerizedhigh internal phase emulsions (PolyHIPEs) made of photocurable polycaprolactone(4PCLMA) and shown their potential to be used as bone tissue engineeringscaffolds in vitro. However, it is essential to evaluatethe in vivo performance of these scaffolds to investigatetheir potential in a clinically more relevant manner. Therefore, inthis study, we aimed to compare in vivo performancesof macroporous (fabricated using stereolithography), microporous (fabricatedusing emulsion templating), and multiscale porous (fabricated usingemulsion templating and perforation) scaffolds made of 4PCLMA. Also,3D-printed macroporous scaffolds (fabricated using fused depositionmodeling) made of thermoplastic polycaprolactone were used as a control.Scaffolds were implanted into a critical-sized calvarial defect, animalswere sacrificed 4 or 8 weeks after implantation, and the new boneformation was assessed by micro-computed tomography, dental radiography,and histology. Multiscale porous scaffolds that include both micro-and macropores resulted in higher bone regeneration in the defectarea compared to only macroporous or only microporous scaffolds. Whenone-grade porous scaffolds were compared, microporous scaffolds showedbetter performance than macroporous scaffolds in terms of mineralizedbone volume and tissue regeneration. Micro-CT results revealed thatwhile bone volume/tissue volume (Bv/Tv) values were 8 and 17% at weeks4 and 8 for macroporous scaffolds, they were significantly higherfor microporous scaffolds, with values of 26 and 33%, respectively.Taken together, the results reported in this study showed the potentialapplication of multiscale PolyHIPE scaffolds, in particular, as apromising material for bone regeneration.Article Citation - WoS: 14Citation - Scopus: 16Synergistic Effect of Type and Concentration of Surfactant and Diluting Solvent on the Morphology of Emulsion Templated Matrices Developed as Tissue Engineering Scaffolds(Elsevier, 2022) Claeyssens, Frederik; Aldemir Dikici, Betül; Dikici, SerkanEmulsion templating is an advantageous route for the fabrication of tissue engineering scaffolds. Emulsions are mostly stabilised using surfactants, and the performances of the surfactants depend on various parameters such as emulsification temperature and the presence of the electrolytes. In this study, we suggest that diluting solvent type also has a dramatic impact on the efficiency of the surfactant and morphology of the polymerised emulsions. For this, morphologies of polycaprolactone methacrylate-based polymerised emulsions, which are designed for tissue engineering applications and in vitro biocompatibilities, were shown by our group, prepared using four different surfactants, and three different solvents were investigated. Results showed that the diluting solvent used in the emulsion composition has a strong impact on the performance of the surfactant and consequently on the morphology of polymerised emulsions. Increasing surfactant concentration and diluting solvent volume have an opposite impact on the characteristics of emulsions. Scaffolds with average pore sizes changing from 10 to 78 μm could be fabricated. Establishing these relations enables us to have control over the overall morphology of polymerised emulsions and precisely engineer them for specific tissue engineering applications by tuning solvent and surfactant type and concentration.