Add to ORKGOBJECTIVE: Engineering bone in 3D is important for both regenerative medicine purposes and for the development of accurate in vitro models of bone tissue. The changing material stiffness of bone tissue had not yet been monitored throughout the process of mineralisation and bone nodule formation by osteoblasts either during in vitro engineering or in development perspective. RESULTS: Within this short research note, stiffness changes (Young's modulus) during in vitro bone formation by primary osteoblasts in dense collagen scaffolds were monitored using atomic force microscopy. Data analysis revealed significant stiffening of 3D bone cultures at day 5 and 8 that was correlated with the onset of mineral deposition (p < 0.00005)
AbstractOsteogenic cells respond to mechanical changes in their environment by altering their spread...
With an ageing world population and ~20% of adults in Europe being affected by bone diseases, there ...
Bone is an engineering marvel that achieves a unique combination of stiffness and toughness exceedin...
A successful bone tissue engineering strategy entails producing bone-scaffold construct with adequat...
Bone is a dynamic tissue that remodels continuously in response to local mechanical and chemical sti...
Collagen-glycosaminoglycan (GAG) scaffolds were initially designed for use in skin regeneration and ...
Bone tissue continuously adapts to changes in mechanical load. This process can also result in a mal...
This article contains data related to the research article entitled “Stiffness memory of indirectly ...
Osteocytes are terminally differentiated bone cells, derived from osteoblasts, which comprise over 9...
Anchorage dependent cells respond to mechanical and physical properties of biomaterials. One such cu...
Osteogenic cells respond to mechanical changes in their environment by altering their spread area, m...
Bone remodelling is the continuous turnover of bone by resorption and formation. It is controlled by...
As a biophysical cue, matrix stiffness can decide the stem cell fate. However, most methods to const...
Osteoporosis is the most common skeletal disorder that thins and weakens the bones, yet the detailed...
In vitro tissue engineered bone constructs have been developed, but models which mimic both formatio...
AbstractOsteogenic cells respond to mechanical changes in their environment by altering their spread...
With an ageing world population and ~20% of adults in Europe being affected by bone diseases, there ...
Bone is an engineering marvel that achieves a unique combination of stiffness and toughness exceedin...
A successful bone tissue engineering strategy entails producing bone-scaffold construct with adequat...
Bone is a dynamic tissue that remodels continuously in response to local mechanical and chemical sti...
Collagen-glycosaminoglycan (GAG) scaffolds were initially designed for use in skin regeneration and ...
Bone tissue continuously adapts to changes in mechanical load. This process can also result in a mal...
This article contains data related to the research article entitled “Stiffness memory of indirectly ...
Osteocytes are terminally differentiated bone cells, derived from osteoblasts, which comprise over 9...
Anchorage dependent cells respond to mechanical and physical properties of biomaterials. One such cu...
Osteogenic cells respond to mechanical changes in their environment by altering their spread area, m...
Bone remodelling is the continuous turnover of bone by resorption and formation. It is controlled by...
As a biophysical cue, matrix stiffness can decide the stem cell fate. However, most methods to const...
Osteoporosis is the most common skeletal disorder that thins and weakens the bones, yet the detailed...
In vitro tissue engineered bone constructs have been developed, but models which mimic both formatio...
AbstractOsteogenic cells respond to mechanical changes in their environment by altering their spread...
With an ageing world population and ~20% of adults in Europe being affected by bone diseases, there ...
Bone is an engineering marvel that achieves a unique combination of stiffness and toughness exceedin...