Biomaterials scienceBone RegenerationAnimalsRabbitsFinite Element AnalysisBiocompatible Materials
Bioresorbable-bioactive auxetic "personalised" phalanx with a CT-guided AI-driven model towards in vivo prediction of bone regeneration.
Samir Das, Masud Rana, Radha K Prabhu, Subhodeep Jana, Nantu Dogra, Kolimi Prashanth Reddy, Amit Roy Chowdhury, Pallab Datta, Ashutosh Bagade, Punit Fulzele, Quazi Zahiruddin, Santanu Dhara
Published: 202610.1039/d5bm01337b
Abstract
Trauma and diseases such as gangrene, diabetes mellitus, leprosy, or advanced-stage cancer requiring resections may lead to digit loss due to the limited capacity of tissue regeneration. The increasing global incidence of phalanx fractures necessitat…
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