NIT Rourkela Study Aims to Advance Bone Regeneration Technology

NIT Rourkela study aims to advance bone regeneration technology

New Delhi: Researchers from the National Institute of Technology (NIT) Rourkela have uncovered how natural sugar-like molecules in the human body can alter the behaviour of a protein responsible for bone formation and repair.  The findings, published in the journal Biochemistry, can be used for advanced treatments in bone and cartilage regeneration, improved implants, and more effective protein-based medicines. From building tissues and supporti…

NIT Rourkela study to boost bone regeneration technology

New Delhi: Researchers from the National Institute of Technology (NIT) Rourkela have uncovered how natural sugar-like molecules in the human body can alter the behaviour of a protein responsible for bone formation and repair. The findings, published in the journal Biochemistry, can be used for advanced treatments in bone and cartilage regeneration, improved implants, and more effective protein-based medicines. From building tissues and supportin…

NIT Rourkela study to boost bone regeneration technology – THIP Media

Last Updated on August 13, 2025 by Team THIP New Delhi, Aug 13 (IANS) Researchers from the National Institute of Technology (NIT) Rourkela have uncovered how natural sugar-like molecules in the human body can alter the behaviour of a protein responsible for bone formation and repair. The findings, published in the journal Biochemistry, can be […] The post NIT Rourkela study to boost bone regeneration technology appeared first on THIP Media.

NIT Rourkela Scientists decode sugar molecules and bone protein complex to boost bone regeneration technology - Express Healthcare

National Institute of Technology (NIT) Rourkela, Researchers have uncovered how natural sugar-like molecules in the human body can alter the behaviour of Bone Morphogenetic Protein-2 (BMP-2), a protein responsible for bone formation and repair. Published in the journal Biochemistry, the findings of this research can be used for advanced treatments in bone and cartilage regeneration, improved implants, and more effective protein-based medicines. …