Bone graft and bone graft substitutes: A review of current technology and applications

Damien, Christopher; Parsons, J. R.

doi:10.1002/jab.770020307

Cited by 930 publications

(589 citation statements)

References 176 publications

(40 reference statements)

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“…37 This biomaterial represents purified bovine extracellular calcified bone matrix and is regarded as having physicochemical properties similar to those of autologous bone grafts, which are considered to be the "gold standard" for bone regeneration. 1,2,42 As it has been shown that the resorbability of this xenogeneic material is delayed, the presented results raise the question of whether the low numbers of multinucleated giant cells in the case of the analyzed biphasic materials also lead to a low rate of degradation and therefore a prolonged material standing time. 37,43 However, the increase of the numbers of MNGCs and especially of their TRAP-positive subforms at the end of the study period in the case of the small-sized BC 400-700 are interesting.…”

Section: 41mentioning

confidence: 85%

“…1,2 Calcium phosphates, specifically hydroxyapatite (HA) and b-tricalcium phosphate (b-TCP), are primarily used because of their chemical similarity to the calcified bone matrix and the related osteoconductive regeneration mechanisms. 3,4 However, it has been shown that these 2 ceramics exhibit different resorption patterns characterized by different dissolution properties and degrees of induction of phagocytosis based on mono-and multinucleated cells.…”

Section: Introductionmentioning

confidence: 99%

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Small-sized granules of biphasic bone substitutes support fast implant bed vascularization

et al. 2015

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Section: 41mentioning

confidence: 85%

Section: Introductionmentioning

confidence: 99%

Small-sized granules of biphasic bone substitutes support fast implant bed vascularization

et al. 2015

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“…Ripamonti et al (1989) reported bone induction in a composite allogeneic bone/alloplastic implant; Zhang et al (1991), Osborn (1991), and Ripamonti (1991a) discovered bone formation at ectopic sites after implantation of porous calcium phosphate ceramic materials in dogs and baboons. Later, osteoinductive bioceramics began to be reported by different labs in pigs, sheep, rabbits, and other large animal models all over the world (Damien and Parsons, 1991;Toth et al, 1993;Li et al, 1994;Yuan et al, 2000;2001a;Nihouannen et al, 2005;Ye et al, 2007;Fellah et al, 2008). Since then, generous attention was paid to these kinds of biomaterials, such as synthetic hydroxyapatite ceramics (HA), porous biphasic calcium phosphate ceramics (BCP), tricalcium phosphate ceramics (TCP), calcium pyrophosphate ceramics, and coralderived hydroxyapatite.…”

Section: Introductionmentioning

confidence: 99%

Osteoinduction by Ca-P biomaterials implanted into the muscles of mice

Yang

Cheng

et al. 2011

J. Zhejiang Univ. Sci. B

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Abstract:The osteoinduction of porous biphasic calcium phosphate ceramics (BCP) has been widely reported and documented, but little research has been performed on rodent animals, e.g., mice. In this study, we report osteoinduction in a mouse model. Thirty mice were divided into two groups. BCP materials (Sample A) and control ceramics (Sample B) were implanted into the leg muscle, respectively. Five mice in each group were killed at 15, 30, and 45 d after surgery. Sample A and Sample B were harvested and used for hematoxylin and eosin (HE) staining, immunohistochemistry (IHC) staining, and Alizarin Red S staining to check bone formation in the biomaterials. Histological analysis showed that no bone tissue was formed 15 d after implantation (0/5) in either of the two groups. Newly-formed bone tissues were observed in Sample A at 30 d (5/5) and 45 d (5/5) after implantation; the average amounts of newly-formed bone tissues were approximately 5.2% and 8.6%, respectively. However, we did not see any bone tissue in Sample B until 45 d after implantation. Bone-related molecular makers such as bone morphogenesis protein-2 (BMP-2), collagen type I, and osteopontin were detected by IHC staining in Sample A 30 d after implantation. In addition, the newly-formed bone was also confirmed by Alizarin Red S staining. Because this is the report of osteoinduction in the rodent animal on which all the biotechnologies were available, our results may contribute to further mechanism research.

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“…However, these methods have severe limitations and thus impose high cost on the health care system. The shortcomings associated with autograft include severe pain, morbidity of the harvested site, structural and anatomical problems, and high rate of resorption during healing [1,2]. Likewise, allograft may elicit disease transmission and rejection, further compounded by shortage of donors [3,4].…”

Section: Introductionmentioning

confidence: 99%

Bioactivity of quaternary glass prepared from bentonite clay

Adams

Essien

2016

J Adv Ceram

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Alkoxysilane precursors are the most widely used silica source for sol-gel preparation of silicate-based bioactive glass. However, due to their high cost, alternative sources such as bentonite clay are desirable. In the present work, bentonite clay was reacted with sodium hydroxide (NaOH) to extract sodium metasilicate (Na 2 SiO 3 ). The obtained Na 2 SiO 3 was converted to gel which was then sintered at 950 ℃ for 3 h to give the bioactive glass in the quaternary composition SiO 2 -NaO-CaO-P 2 O 5 . The resulting glass was incubated in simulated body fluid (SBF) for 0-7 days to evaluate the bioactivity. Furthermore, glass samples were characterized before and after SBF study by scanning electron microscopy (SEM), energy dispersive X-ray spectroscopy (EDX), X-ray diffraction (XRD), and Fourier transform infrared spectroscopy (FTIR). Results obtained showed the presence of Na 2 Ca 2 Si 3 O 9 (combeite) crystal as the major crystalline phase and the formation of hydroxyapatite (HA) and hydroxycarbonated apatite (HCA) on the surface of the glass after immersion in SBF. The material showed potentials for application as scaffold in bone tissue repair.

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Bone graft and bone graft substitutes: A review of current technology and applications

Cited by 930 publications

References 176 publications

Small-sized granules of biphasic bone substitutes support fast implant bed vascularization

Small-sized granules of biphasic bone substitutes support fast implant bed vascularization

Osteoinduction by Ca-P biomaterials implanted into the muscles of mice

Bioactivity of quaternary glass prepared from bentonite clay

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