Add to ORKGAvailability of bone forming osteoblast cells from genetically modified green fluorescing protein (GFP) expressing mouse opens up the possibility of carrying out live cell imaging of the cells as they adhere, migrate and proliferate on nano-texture modified opaque metallic surfaces. Cells inoculated at a density of 200 cells/mm2 proliferated 131% over a one week period.https://engagedscholarship.csuohio.edu/u_poster_2012/1020/thumbnail.jp
The major objective of this work was to attach bone cells to a deformable surface for the effective ...
In bone tissue engineering, it is desirable to use materials to control the differentiation of mesen...
There is increasing demand for biomedical implants to correct skeletal defects caused by trauma, dis...
Current orthopedic implants are not conducive for optimal integration of the biomaterial with newly-...
Titanium is a viable material for prosthetic implants due to its biocompatible surface which facilit...
Item does not contain fulltextThis study investigates the utility of genetically modified cells deve...
Bone regeneration through transplantation of genetically modified cells provides an opportunity to c...
The use of human embryonic stem cells (hESCs) and induced pluripotent stem cells (iPSCs) for study a...
Bone fracture healing problems, because of the loss of tissue regeneration, can affect many old or m...
Many cellular models have been used to investigate bone substitutes including coral-derived hydroxyl...
There are a number of instances in which the use of live cell imaging has provided critical insight ...
Cell and tissue engineering, together with the development of new biomaterials, are fast growing fie...
Data were collected by experiments in which DLC was coated on the silicon plate surface, then mouse ...
[[abstract]]Background: Regenerative medicine field is still lagging due to the lack of adequate kno...
Many cellular models have been used to investigate bone substitutes including coral-derived hydroxyl...
The major objective of this work was to attach bone cells to a deformable surface for the effective ...
In bone tissue engineering, it is desirable to use materials to control the differentiation of mesen...
There is increasing demand for biomedical implants to correct skeletal defects caused by trauma, dis...
Current orthopedic implants are not conducive for optimal integration of the biomaterial with newly-...
Titanium is a viable material for prosthetic implants due to its biocompatible surface which facilit...
Item does not contain fulltextThis study investigates the utility of genetically modified cells deve...
Bone regeneration through transplantation of genetically modified cells provides an opportunity to c...
The use of human embryonic stem cells (hESCs) and induced pluripotent stem cells (iPSCs) for study a...
Bone fracture healing problems, because of the loss of tissue regeneration, can affect many old or m...
Many cellular models have been used to investigate bone substitutes including coral-derived hydroxyl...
There are a number of instances in which the use of live cell imaging has provided critical insight ...
Cell and tissue engineering, together with the development of new biomaterials, are fast growing fie...
Data were collected by experiments in which DLC was coated on the silicon plate surface, then mouse ...
[[abstract]]Background: Regenerative medicine field is still lagging due to the lack of adequate kno...
Many cellular models have been used to investigate bone substitutes including coral-derived hydroxyl...
The major objective of this work was to attach bone cells to a deformable surface for the effective ...
In bone tissue engineering, it is desirable to use materials to control the differentiation of mesen...
There is increasing demand for biomedical implants to correct skeletal defects caused by trauma, dis...