Lateral bone augmentation with newly developed β‐tricalcium phosphate block: an experimental study in the rabbit mandible

Abstract: The newly developed β-TCP blocks presented subsequent replacement by newly formed bone, in conjunction with maintaining the external morphology.

“…The replacement by new bone allows a bone matrix to become established within the material, giving the host area physical properties similar to the bone Ono et al. .…”

“…There were no inflammatory reactions near either the implant or the controls. The replacement by new bone allows a bone matrix to become established within the material, giving the host area physical properties similar to the bone Ono et al 2011. According to Araujo et al 2010, who studied an in vivo experimental model, the material produced appropriate bone replacement, cell differentiation, and stimulated osteoblasts, the authors observing increased amounts of mineralized bone and osteoblast activity.…”

Retracted: Bone neoformation of a novel porous resorbable Si‐Ca‐P‐based ceramic with osteoconductive properties: physical and mechanical characterization, histological and histomorphometric study

“…The replacement by new bone allows a bone matrix to become established within the material, giving the host area physical properties similar to the bone Ono et al. .…”

“…There were no inflammatory reactions near either the implant or the controls. The replacement by new bone allows a bone matrix to become established within the material, giving the host area physical properties similar to the bone Ono et al 2011. According to Araujo et al 2010, who studied an in vivo experimental model, the material produced appropriate bone replacement, cell differentiation, and stimulated osteoblasts, the authors observing increased amounts of mineralized bone and osteoblast activity.…”

Retracted: Bone neoformation of a novel porous resorbable Si‐Ca‐P‐based ceramic with osteoconductive properties: physical and mechanical characterization, histological and histomorphometric study

“…Rapid replacement by new bone allows a bone matrix to become established within the material, giving the host area physical properties similar to the bone (Ono et al. ).…”

Retracted:Bone neo‐formation and mineral degradation of 4Bone.^®PartII: histological and histomorphometric analysis in critical size defects in rabbits

“…Synthetic Ca-P based materials, such as sintered HA and β-tricalcium phosphate (β-TCP), mimic their osteoconductive properties by facilitating cellular movement and extracellular matrix attachment to their matrices. Additionally, porous scaffolds made from these materials facilitate mineralized tissue ingress [10–12]. However, these materials degrade too slowly and it is difficult for the bone to completely resorb them [13, 14].…”

Human periosteum cell osteogenic differentiation enhanced by ionic silicon release from porous amorphous silica fibrous scaffolds