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Silica Release from Silane Cross-Linked Gelatin Based Hybrid Scaffold Affects Cell Proliferation
Date Issued
21-01-2020
Author(s)
Balavigneswaran, Chelladurai Karthikeyan
Venkatesan, Ramya
Karuppiah, Prakash Shyam
Kumar, Gaurav
Paliwal, Pankaj
Krishnamurthy, Sairam
Kadalmani, Balamuthu
Mahto, Sanjeev Kumar
Misra, Nira
Abstract
Earlier, we had reported the synthesis and characterization of star-shaped poly(d,l-lactide)-b-gelatin (ss-pLG) to improve cell adhesion and proliferation, but the stability of ss-pLG scaffolds remained a persistent issue. Here we show an increase in the stability of ss-pLG using 3-glycidoxypropyl trimethoxysilane (GPTMS) as a covalent cross-linker (h-ss-pLG). The rate of cell proliferation within Hep-G2 cultured h-ss-pLG scaffolds increased until the third day, and afterward it drastically declined. Further, we identified the release of inorganic silica from GPTMS cross-linked h-ss-pLG, which may be associated with the decrease in the rate of HepG2 cell proliferation. However, the cross-linking did not affect red blood cells (RBCs) and they were completely hemocompatible. In addition, our in vivo experiments in female rats showed that the hybrid h-ss-pLG scaffolds were not degraded completely after 4 weeks, as they were covalently cross-linked with silane. These results suggest the significance of the cross-linker selection, which is one of the other key factors, and needs to be considered while designing scaffolds.
Volume
3