Understanding the relationship between pore structure and properties of triply periodic minimal surface bone scaffolds
Y Sun, Y Wang, B Dong, P Yang, C Ji, Y Li… - Journal of Materials …, 2025 - Springer
The number of patients with bone defects caused by trauma and diseases has been
increasing year by year. The treatment of bone defects remains a major challenge in clinical …
increasing year by year. The treatment of bone defects remains a major challenge in clinical …
Evaluation of heat transfer in porous scaffolds under cryogenic treatment: a numerical study
The present work had evaluated the effect of cryogenic treatment (233 K) on the degradation
of polymeric biomaterial using a numerical model. The study on effect of cryogenic …
of polymeric biomaterial using a numerical model. The study on effect of cryogenic …
Numerical analysis of scaffold degradation in cryogenic environment: impact of cell migration and cell apoptosis
K Deshmukh, A Bit - Biomedical Physics & Engineering Express, 2024 - iopscience.iop.org
The analysis of degradation in the presence of cell death and migration is a critical aspect of
research in various biological fields, such as tissue engineering, regenerative medicine, and …
research in various biological fields, such as tissue engineering, regenerative medicine, and …
Design and parametrization of TPMS lattice using computational and experimental approach
Triply periodic minimal surface (TPMS) based lattices are extensively explored as a scaffold
design for bone regeneration. TPMS maintains zero mean curvature at each point and offers …
design for bone regeneration. TPMS maintains zero mean curvature at each point and offers …
Minimal Surface Based Hybrid Cellular Material Model for Use in Healthcare Engineering
Abstract Triply Periodic Minimal Surface (TPMS) is distinctive structure that supports
numerous cellular activities and encapsulating trabecular bonemimicking hyperboloidal …
numerous cellular activities and encapsulating trabecular bonemimicking hyperboloidal …