Adhithi Kanthan Lakshmikanthan scite author profile

Adhithi Kanthan Lakshmikanthan

2Publications

3Citation Statements Received

58Citation Statements Given

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Rutgers, The State University of New Jersey

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Characterization of a prevascularized biomimetic tissue engineered scaffold for bone regeneration

et al. 2019

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Significant bone loss due to disease or severe injury can result in the need for a bone graft, with over 500,000 procedures occurring each year in the United States. However, the current standards for grafting, autografts and allografts, can result in increased patient morbidity or a high rate of failure respectively. An ideal alternative would be a biodegradable tissue engineered graft that fulfills the function of bone while promoting the growth of new bone tissue. We developed a prevascularized tissue engineered scaffold of electrospun biodegradable polymers PLLA and PDLA reinforced with hydroxyapatite, a mineral similar to that found in bone. A composite design was utilized to mimic the structure and function of human trabecular and cortical bone. These scaffolds were characterized mechanically and in vitro to determine osteoinductive and angioinductive properties. It was observed that further reinforcement is necessary for the scaffolds to mechanically match bone, but the scaffolds are successful at inducing the differentiation of mesenchymal stem cells into mature bone cells and vascular endothelial cells. Prevascularization was seen to have a positive effect on angiogenesis and cellular metabolic activity, critical factors for the integration of a graft.

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The design and development of osteoinductive and osteoconductive pre-vascularised 3D printed scaffolds with high porosity and load bearing properties for bone regeneration

Lakshmikanthan¹

2018

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