On October 31, 2021, Van de Voorde, Babs; Benmeridja, Lara; Giol, Elena Diana; Van der Meeren, Louis; Van Damme, Lana; Liu, Zhen; Toncheva, Antoniya; Raquez, Jean-Marie; Van den Brande, Niko; Skirtach, Andre; Declercq, Heidi; Dubruel, Peter; Van Vlierberghe, Sandra published an article.Recommanded Product: Pentane-1,5-diol The title of the article was Potential of poly(alkylene terephthalate)s to control endothelial cell adhesion and viability. And the article contained the following:
Poly(ethylene terephthalate) (PET) is known for its various useful characteristics, including its applicability in cardiovascular applications, more precisely as synthetic bypass grafts for large diameter (≥ 6 mm) blood vessels. Although it is widely used, PET is not an optimal material as it is not interactive with endothelial cells, which is required for bypasses to form a complete endothelium. Therefore, in this study, poly(alkylene terephthalate)s (PATs) have been studied. They were synthesized via a single-step solution polycondensation reaction, which requires mild reaction conditions and avoids the use of a catalyst or additives like heat stabilizers. A homologous series was realized in which the alkyl chain length varied from 5 to 12 methylene groups (n = 5-12). Molar masses up to 28,000 g/mol were obtained, while various odd-even trends were observed with modulated differential scanning calorimetry (mDSC) and rapid heat-cool calorimetry (RHC) to access the thermal properties within the homologous series. The synthesized PATs have been subjected to in vitro cell viability assays using Human Umbilical Vein Endothelial Cells (HUVECs) and Human Dermal Microvascular Endothelial Cells (HDMECs). The results showed that HUVECs adhere and proliferate most pronounced onto PAT(n = 9) surfaces, which could be attributed to the surface roughness and morphol. as determined by at. force microscopy (AFM) (i.e. Rq = 204.7 nm). HDMECs were investigated in the context of small diameter vessels and showed superior adhesion and proliferation after seeding onto PAT(n = 6) substrates. These preliminary results already pave the way towards the use of PAT materials as substrates to support endothelial cell adhesion and growth. Indeed, as superior endothelial cell interactivity compared to PET was observed, time-consuming and costly surface modifications of PET grafts could be avoided by exploiting this novel material class. The experimental process involved the reaction of Pentane-1,5-diol(cas: 111-29-5).Recommanded Product: Pentane-1,5-diol
The Article related to polyalkylene terephthalate endothelial cell adhesion viability, endothelial cell adhesion, poly(alkylene terephthalate), solution polycondensation, synthetic bypass graft and other aspects.Recommanded Product: Pentane-1,5-diol
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