Composite biopolymers for bone regeneration enhancement in bony defects
K Jahan, M Tabrizian - Biomaterials science, 2016 - pubs.rsc.org
For the past century, various biomaterials have been used in the treatment of bone defects
and fractures. Their role as potential substitutes for human bone grafts increases as donors …
and fractures. Their role as potential substitutes for human bone grafts increases as donors …
Biological aspects of segmental bone defects management
Segmental bone defect management is among the most demanding issues in orthopaedics
and there is a great medical need for establishing an appropriate treatment option. Tissue …
and there is a great medical need for establishing an appropriate treatment option. Tissue …
Nanomechanical map** of hard tissues by atomic force microscopy: An application to cortical bone
Force map** of biological tissues via atomic force microscopy (AFM) probes the
mechanical properties of samples within a given topography, revealing the interplay …
mechanical properties of samples within a given topography, revealing the interplay …
Addition of mesenchymal stem cells to autologous platelet-enhanced fibrin scaffolds in chondral defects: does it enhance repair?
Background: The chondrogenic potential of culture-expanded bone-marrow-derived
mesenchymal stem cells (BMDMSCs) is well described. Numerous studies have also shown …
mesenchymal stem cells (BMDMSCs) is well described. Numerous studies have also shown …
BEM evaluation of surface octahedral strains and internal strain gradients in 3D-printed scaffolds used for bone tissue regeneration
Most of the mechnoregulatory computational models appearing so far in tissue engineering
for bone healing predictions, utilize as regulators for cell differentiation mainly the octahedral …
for bone healing predictions, utilize as regulators for cell differentiation mainly the octahedral …
The role of three‐dimensional scaffolds in treating long bone defects: evidence from preclinical and clinical literature—a systematic review
A Roffi, GS Krishnakumar, N Gostynska… - BioMed Research …, 2017 - Wiley Online Library
Long bone defects represent a clinical challenge. Bone tissue engineering (BTE) has been
developed to overcome problems associated with conventional methods. The aim of this …
developed to overcome problems associated with conventional methods. The aim of this …
Layer-by-layer bioassembly of cellularized polylactic acid porous membranes for bone tissue engineering
V Guduric, C Metz, R Siadous, R Bareille… - Journal of Materials …, 2017 - Springer
The conventional tissue engineering is based on seeding of macroporous scaffold on its
surface (“top–down” approach). The main limitation is poor cell viability in the middle of the …
surface (“top–down” approach). The main limitation is poor cell viability in the middle of the …
Mechanical deviation in 3D-Printed PLA bone scaffolds during biodegradation
Large or carcinogenic bone defects may require a challenging bone tissue scaffold design
ensuring a proper mechanobiological setting. Porosity and biodegradation rate are the key …
ensuring a proper mechanobiological setting. Porosity and biodegradation rate are the key …
[HTML][HTML] Polycaprolactone for Hard Tissue Regeneration: Scaffold Design and In Vivo Implications
F Ramírez-Ruiz, I Núñez-Tapia, MC Piña-Barba… - Bioengineering, 2025 - mdpi.com
In the last thirty years, tissue engineering (TI) has emerged as an alternative method to
regenerate tissues and organs and restore their function by implanting specific lineage cells …
regenerate tissues and organs and restore their function by implanting specific lineage cells …
Polymer based scaffolds for tissue regeneration by stereolithography
Stereolithography is a rapid prototy** technique, introduced in the 1980s, that enables the
realization of complex 3D structures for tissue engineering directly from a computer model …
realization of complex 3D structures for tissue engineering directly from a computer model …