Bioactive Material Scaffolds For Periodontal Regeneration - Kaur, Harleen;Kaushal, Sumit;Kaur, Gurpreet
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The goal of biomaterial design in tissue engineering is to identify or fabricate a substance that is innately able (or has been engineered) to assume a desirable form that can be applied to both synthesize a 3D cellular microenvironment for cell accommodation and guide new tissue formation. Biomaterials of human origin are yielding an ever-growing list of products and successful clinical approaches to maintain, enhance or restore tissues and organs. These "raw materials" continue to demonstrate great potential and will have an increasingly remarkable impact on synthetic biology, tissue engineering and clinical regenerative therapies in the future.…mehr

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Produktbeschreibung
The goal of biomaterial design in tissue engineering is to identify or fabricate a substance that is innately able (or has been engineered) to assume a desirable form that can be applied to both synthesize a 3D cellular microenvironment for cell accommodation and guide new tissue formation. Biomaterials of human origin are yielding an ever-growing list of products and successful clinical approaches to maintain, enhance or restore tissues and organs. These "raw materials" continue to demonstrate great potential and will have an increasingly remarkable impact on synthetic biology, tissue engineering and clinical regenerative therapies in the future.
Autorenporträt
Dr. Harleen Kaur is a post- graduate student in Department of Periodontics & Oral Implantology, National Dental College and Hospital, Derabassi. She has participated in various conferences and completed her research work under the guidance of Dr. Sumit Kaushal, who has been working as a faculty in Department of Periodontics & Oral Implantology.