Even though a lot of research has been carried out concerning the preparation of carbonate apatite (CHA), they were related to CHA in the form of powder. In the present study, macroporous CHA bone substitutes were prepared through composition-transformation of gypsum and Ca-hydroxide. Here, we investigated the effect of added Ca-hydroxide to gypsum, carbonation periods, and hydrothermal temperatures for phos-phatization to understand the basic principle of composition-transformation of gypsum added Ca-hydroxide to fabricate CHA bone substitutes. The specimens were characterized in terms of chemical and physical properties, such as extent of transformation of macroporous gypsum added Ca-hydroxide into CHA body, type and content of carbonate,...
The inorganic component of mineralized tissues (bone and teeth) is an analogue of carbonated apatite...
The formation of apatites from calcium carbonates can be regarded as an effective way of sequesterin...
none5Calcium phosphate biogenic materials are biocompatible and promote bioactivity and osteoconduct...
Bone tissue is one of the most frequently used tissues for transplantation. The use of autologous bo...
International audienceThe mineral of bone is a biological calcium phosphate material which contains ...
Bone apatite contains about 5 to 8% carbonate groups. Sintered carbonate-containing apatite has been...
A range of crystalline and nano-sized carbonate- and silicate-substituted hydroxyapatite has been su...
Carbonate apatite (CO3Ap) block, which is a bone replacement used to repair defects, was fabricated ...
Synthesis of chemically modified or ion-substituted hydroxyapatite (HA) as a bioactive bone replacem...
Although block- or granular-type sintered hydroxyapatite are known to show excellent tissue response...
Limestone which is one of the raw materials for the manufacture of materials and medical devices obt...
Synthetic apatites are widely used both in the dental and the orthopaedic fields due to their simila...
Bone reconstructive surgery has become a common procedure, and bone transplantation has become the s...
We report the synthesis of a range of sodium-carbonate co-substituted hydroxyapatite compositions wi...
Previous synthesis routes created apatites in low crystallinity and high crystallinity states, but a...
The inorganic component of mineralized tissues (bone and teeth) is an analogue of carbonated apatite...
The formation of apatites from calcium carbonates can be regarded as an effective way of sequesterin...
none5Calcium phosphate biogenic materials are biocompatible and promote bioactivity and osteoconduct...
Bone tissue is one of the most frequently used tissues for transplantation. The use of autologous bo...
International audienceThe mineral of bone is a biological calcium phosphate material which contains ...
Bone apatite contains about 5 to 8% carbonate groups. Sintered carbonate-containing apatite has been...
A range of crystalline and nano-sized carbonate- and silicate-substituted hydroxyapatite has been su...
Carbonate apatite (CO3Ap) block, which is a bone replacement used to repair defects, was fabricated ...
Synthesis of chemically modified or ion-substituted hydroxyapatite (HA) as a bioactive bone replacem...
Although block- or granular-type sintered hydroxyapatite are known to show excellent tissue response...
Limestone which is one of the raw materials for the manufacture of materials and medical devices obt...
Synthetic apatites are widely used both in the dental and the orthopaedic fields due to their simila...
Bone reconstructive surgery has become a common procedure, and bone transplantation has become the s...
We report the synthesis of a range of sodium-carbonate co-substituted hydroxyapatite compositions wi...
Previous synthesis routes created apatites in low crystallinity and high crystallinity states, but a...
The inorganic component of mineralized tissues (bone and teeth) is an analogue of carbonated apatite...
The formation of apatites from calcium carbonates can be regarded as an effective way of sequesterin...
none5Calcium phosphate biogenic materials are biocompatible and promote bioactivity and osteoconduct...
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