Bone Regeneration Using Nanotechnology – Calcium Silicate Nano-Composites Journal Article

Calcium phosphate ceramics are rapidly degraded faster than the rate of tissue formation, which makes no Scaffolding enough strength and makes it unsuitable for applications that are bearing the load. Therefore Bio-Ceramic a new generation of ceramics, with calcium silicate (Ca-Si) attention attracted to. One way to improve the biochemical properties of these metal ions into their structure is Bio-Ceramic Add. Nowadays, along with approaching the normal structure of bones and making use of the properties of nanotechnology researchers to build nano-composite scaffolds were driven.

"Bone Regeneration Using Nanotechnology – Calcium Silicate Nano- Composites Vahid Kheiry Mollaqasem*1, Masood Hafezi Ardakani2, Saeed Hesaraki3 1,2,3 Department of Biomedical Engineering, Islamic Azad University, Yazd Research and Sciences Branch *Corresponding author’s E-mail:V. One way to improve the biochemical properties of these metal ions into their structure is Bio- Ceramic Add. Nowadays, along with approaching the normal structure of bones and making use of the properties of nanotechnology researchers to build nano-composite scaffolds were driven. Bio Ceramics are a class of natural or synthetic materials to repair , reinforce or replace the defective or disabled part of the body's tissues and organs used for limited or unlimited . 3. Methods of making ceramic scaffolds So far, several methods to produce porous scaffolds for bone tissue engineering for various applications have been studied Each has its own advantages and limitations of some of the most important of these processes is given below. This scaffold percent of the original variable in the process of making calcium silicate powder is added to the two-component composite .. Here can be reduced by increasing the porosity of the composite scaffolds received calcium silicate . PH changes are the result of nano- composite scaffolds after immersion in intervals of 3, 7 , 14 and 21 days in SBF solution can be seen in Figure 4 . Ceramic composites as matrices and scaffolds for drug delivery in tissue engineering. Effect of process parameters on the characteristics of porous calcium phosphate ceramics for bone tissue scaffolds."