Journal of the mechanical behavior of biomedical materials | 2021
Design and development of electrospun SPEEK incorporated with aminated zirconia and curcumin nanofibers for periodontal regeneration.
Abstract
Periodontal disease disturbs the supportive tissues around the teeth such as connective tissue, gingival tissue, periodontal ligaments and alveolar bone. Previously, treatment of periodontitis was embattled by repopulating the affected site with cells that has capacity to regenerate damaged tissue by endorsing the perception of guided tissue regeneration but it entails additional surgery owing to non-biodegradability. Biodegradable polymeric nanofibrous scaffold imitating extracellular matrix (ECM) delivering functionalized nanoparticles loaded with therapeutic drug have the ability to support cellular functions thereby enhancing regeneration. Present study explores novel amine functionalized zirconia nanoparticle loaded curcumin incorporated SPEEK nanofibrous scaffolds to address periodontal regeneration. Zirconia - crown of dental therapeutics, its amine functionalization further enhanced the strength and cyto-compatibility. Carbon-Silica NMR (59.9 and 69.8\xa0ppm), FT-IR (3426\xa0cm-1), EDAX and XRD (28.9°, 31.6° and 38.2° pertaining to [-1 1 1], [1 1 1] and [1 2 0] planes) analysis confirmed the effective functionalization of the zirconia nanoparticle with the amine group. Electrospinning was carried out at a voltage of 20\xa0kV and flow rate of 0.05\xa0ml/h. Fabricated nanofibers were highly dense, porous with interconnected fibrous structures that bio-mimic ECM. They exhibited an average diameter of 187\xa0±\xa02\xa0nm (SPEEK), 192\xa0±\xa02\xa0nm (SPEEK\xa0+\xa0NH2-ZrO2), and 256\xa0±\xa017\xa0nm (SPEEK\xa0+\xa0NH2-ZrO2+Cur). Extensively discovered anti-bacterial traits of curcumin supplemented the advantage for the treatment of periodontitis. Incorporated materials improve the physico-chemical, mechanical and biological characteristics of nanofibers. FT-IR, EDAX and XRD analysis of the fabricated nanofibrous scaffold demonstrated the effective incorporation of aminated zirconia loaded curcumin. Results of cyto-compatibility analysis of SPEEK\xa0+\xa0NH2-ZrO2+Cur nanofibrous scaffold depicted a cell viability of 100\xa0±\xa01.62%. Results of anti-bacterial assay with zone of inhibition was 6.5\xa0±\xa00.5\xa0mm (SPEEK), 7.5\xa0±\xa01\xa0mm (SPEEK\xa0+\xa0NH2-ZrO2), and 8\xa0±\xa01\xa0mm (SPEEK\xa0+\xa0NH2-ZrO2+Cur). Thus, the fabricated bio-material is cyto-compatible, non-toxic and effective against pathogens exploiting higher potential for periodontal regeneration applications.