“…In advanced molecular dentistry, focus has been towards multidisciplinary approaches exploiting combination of advanced tissue engineering, stem cells, scaffolds, biomaterials, and digital technology that exhibit significant potentials for extra-oral and intra-oral regeneration 1 . Stem cells play a vital role in treatment modalities including tissue engineering of hard and soft tissue defects.…”
Regeneration therapies have widely permeated advanced research that aims to reproduce and repair a lost or damaged organ or tissue in order to restore the function and architecture as close to its original state as possible. Tissue engineering refers to the process of regeneration using techniques such as scaffold based cell cultures, stem cell therapy, and biomolecular signaling.
“…In advanced molecular dentistry, focus has been towards multidisciplinary approaches exploiting combination of advanced tissue engineering, stem cells, scaffolds, biomaterials, and digital technology that exhibit significant potentials for extra-oral and intra-oral regeneration 1 . Stem cells play a vital role in treatment modalities including tissue engineering of hard and soft tissue defects.…”
Regeneration therapies have widely permeated advanced research that aims to reproduce and repair a lost or damaged organ or tissue in order to restore the function and architecture as close to its original state as possible. Tissue engineering refers to the process of regeneration using techniques such as scaffold based cell cultures, stem cell therapy, and biomolecular signaling.
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