Scientists claim to have found new template for bone regrowth
Graphene based polymer nanocomposites are processed differently while making 2-D substrates and 3-D scaffolds.
Trending Photos
New Delhi: Researchers at the Indian Institute of Science (IIS) have claimed to have discovered a new template for bone tissue regeneration by using 3-D scaffolds of graphene composites as they mimic the environment of the bone.
The field of 'tissue engineering' involves the use of a synthetic material as a 3-D support structure to help the cells grow and subsequently heal and restore the original tissue.
Tissues or organs of the body often undergo damage in the course of various diseases or due to external injury caused during accidents. Most of the time, these are treated using tissue or organ transplants from healthy donors. In some cases, devices (such as pacemakers for heart) can compensate for the loss of function of these organs.
However, the focus of today's research is on making materials that the body's own cells can grow on and repair the damage.
Dr Kaushik Chatterjee, at the IISc's department of Materials Engineering, and his students investigated how and why do cells respond differently to 2D versus 3D scaffolds.
Chatterjee and his students attempted to make the Polycaprolactone (PCL) scaffold stronger by the addition of Graphene (known for its high mechanical strength). The resulting Graphene+ PCL scaffold was found to be stronger than PCL alone.
"PCL is a biodegradable polymer and by itself is a very soft scaffold. This makes it unsuitable for use as a template for bone engineering," the research paper states.
The paper "3D scaffold alters cellular response to graphene in a polymer composite for orthopedic applications" was published online in the Journal of Biomedical Materials Research.
They also investigated the response of osteoblast cells (bone precursors) to Graphene based polymer nanocomposites in 2-D substrates and 3-D scaffolds.
Graphene based polymer nanocomposites are processed differently while making 2-D substrates and 3-D scaffolds.
The physical and chemical properties of these scaffolds differ depending on the kind of graphene used and the nature of the processing involved.
The research also revealed that bone cell precursors (osteoblasts) behave differently depending on the nature (2-D versus 3-D) of the scaffold. This difference in behaviour is due to the chemical difference in the method of preparation of the scaffold and the graphene used, which in turn affects the nature of the surface generated for housing the cells.
Another disadvantage of using PCL alone as a scaffold in tissue engineering is its inherent hydrophobic (water-hating) nature, making it a difficult home for cells (cells prefer a more hydrophilic i.E. Water-loving environment). A solution to this problem is to mix PCL with other substances to make it more hydrophilic.
In this study, the addition of graphene increased the wettability (the degree to which a substance absorbs or can be made to absorb moisture) of the scaffold making it a better home for osteoblasts. They also find that cells in 3-D scaffolds have a compact arrangement similar to what is seen inside bone tissue, in contrast to the random distribution seen in case of 2-D substrates.
In addition to this, bone mineralisation (process needed for strengthening the bone) was found to be higher in 3-D scaffolds as compared to 2-D substrates.
"The purpose of the scaffold is to provide only a temporary home for the regenerating cells. The scaffold should degrade slowly over time allowing for healthy tissue to eventually replace the scaffold.
"An ideal scaffold is one that is not only non-toxic to the body and non-immunogenic (does not incite an immune reaction from the body) but also supports attachment of cells and actively encourages healthy cells surrounding the damaged tissue to grow into the scaffold and repair the damaged area," said Sachin Kumar, lead author of the study.
Stay informed on all the latest news, real-time breaking news updates, and follow all the important headlines in india news and world News on Zee News.
Live Tv