• Title/Summary/Keyword: porous bone substitute

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A Study of a Biodegradale Inorganic-Organic Composite Artificial Bone Substitute -Part 1. Synthesis of an Apatite with Similar Crystallinity to Bone-

  • Choon Ki Lee;Hwal Suh
    • Journal of Biomedical Engineering Research
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    • v.15 no.2
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    • pp.195-200
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    • 1994
  • To develop an artificial bone substitute that is gradually degraded and replaced by the regenerated natural bone, the authors designed a composite that consists consisted of calcium phosphate and collagen according to the natural bone's main composition. The crystallinity of the synthesized apatite was shown to depend on the synthesis temperature. Carbonate apatite synthesized at $58{\circ}C$ demonstrated crystallinity very similar to that of the natural bone. By sintering the apatite over $700{\circ}C$ in vacuum, porous carbonate apatite could be obtained, and the pore extent was controllable according to the additive hydrogenperoxide volume.

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Biocompatibility and Bone Conductivity of Porous Calcium Metaphosphate Blocks (생분해성 다공질 Calcium Metaphosphate 블록의 조직적합성에 관한 연구)

  • Lee, Yong-Moo;Kim, Seok-Young;Shin, Seung-Yun;Ku, Young;Rhyu, In-Chul;Chung, Chong-Pyoung
    • Journal of Periodontal and Implant Science
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    • v.28 no.4
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    • pp.559-568
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    • 1998
  • direct bone apposition during bone remodelling. To address these problem, we developed a new ceramic, calcium metaphosphate(CMP), and report herein the biologic response to CMP in subcutaneous tissue, muscle and bone. Porous CMP blocks were prepared by condensation of anhydrous $Ca(H_2PO_4)_2$ to form non-crystalline $Ca(PO_3)_2$. Macroporous scaffolds were made using a polyurethane sponge method. CMP block possesses a macroporous structure with approximate pore size range of 0.3-1mm. CMP blocks were implanted in 8mm sized calvarial defect, subcutaneous tissue and muscle of 6 Newzealand White rabbits and histologic observation were performed at 4 and 6 weeks later. CMP blocks in subcutaneous tissue and muscle were well adapted without any adverse tissue reaction and resorbed slowly and spontaneously. Histologic observation of calvarial defect at 4 and 6 weeks revealed that CMP matrix were mingled with and directly apposed to new bone without any intervention of fibrous connective tissue. CMP blocks didn't show any adverse tissue reaction and resorbed spontaneously also in calvarial defect. This result revealed that CMP had a high affinity for bone and was very biocompatible. From this preliminary result, it was suggested that CMP was a promising ceramic as a bone substitute and tissue engineering scaffold for bone formation.

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Preparation of Biodegradable Porous Calcium Metaphosphate Matrix (생분해성 다공질 Calcium Metaphosphate Matrix의 제조)

  • 이중환;김석영
    • Journal of Biomedical Engineering Research
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    • v.19 no.5
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    • pp.449-454
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    • 1998
  • It is well known that new tissue or blood vessel is grown into a porous calcium phosphate ceramics used as a bone graft substitute due to their excellent biocompatibility. In this study, the most chemically stable porous $\beta$-crystalline form in various forms of calcium metaphosphate, Ca(PO$_3$)$_2$is prepared by the controlled thermolysis of monocalcium phosphate, Ca(H$_2$PO$_4$)$_2$.The diameter of cylindrical pores formed during cooling was controlled by a holding time at the melting point of a monocalcium phosphate and by the change of a crystallization temperature, to obtain the most appropriate size (about 200$\mu$m) of pores for the application of bone substitutes and matricuts. It was observed that the increasing holding time at the melting point of monocalcium phosphate results in the decreases of cylindrical pore sizes.

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Preparation of Biodegradable Porous Calcium Phosphate Ceramics for Bone Fillers (뼈 충진재용 생분해성 다공질 Calcium Phosphate 세라믹스의 제조)

  • Lee, Joong-Hwan;Kim, Suk-Young
    • Proceedings of the KOSOMBE Conference
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    • v.1996 no.05
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    • pp.130-132
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    • 1996
  • It is well known when porous calcium phosphate ceramics are used as a bone graft substitute, new tissues or blood vessels are grown into the porous implant due to their excellent biocompatibility. In this study, the ${\beta}$-crystalline form of calcium metaphosphate, $Ca(PO_{3})_{2}$ is prepared by the controlled thermolysis of monocalcium phosphate, $Ca(H_{2}PO_{4})_{2}$. The diameter of cylindrical pores formed during cooling was controlled by a holding time at the melting point of a monocalcium phosphate and by the change of a recrystallization temperature, to obtained the most appropriate size (about $200{\mu}m$) of pores. It was observed that the increasing holding time at the melting point of monocalcium phosphate results in the decreases of pore sizes.

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Fabrication and Characterization of Functional Gradient Ceramic Bone Substitutes

  • Kim, Min-Seong;Min, Yeong-Gi;Yang, Hun-Mo;Song, Ho-Yeon;Lee, Byeong-Taek
    • Proceedings of the Materials Research Society of Korea Conference
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    • 2010.05a
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    • pp.42.2-42.2
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    • 2010
  • Recently, highly porous bone substitutes, which have interconnected open pore structure, have been focused on improving their mechanical properties and modifying their functions. Especially, it is highly required to develop functional gradient structured bone substitute which is available for controlling their material properties such as bioresorption rate and elastic modulus. Porous $ZrO_2$ scaffold was fabricated by the sponge replica method using PU sponge. After 3 times of dip coating and the subsequent oven drying, burning out and microwave sintering were carried out. Various $ZrO_2$-BCP powder mixtures were prepared depending on the ratio and coated on the $ZrO_2$ scaffold by dip coating process. X-ray diffraction analysis was performed to characterize the phase identification of the scaffolds. Microstructures of the bone substitutes were observed using scanning electron microscopy.

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Effect of Strontium Doped Porous BCP as Bone Graft Substitutes on Osteoblast (스트론튬(Strontium)이 도핑된 다공성 BCP 뼈 이식제가 조골세포에 미치는 영향)

  • Byun, In-Seon;Sarkar, Swapan Kumar;Seo, Hyung-Seok;Lee, Byong-Taek;Song, Ho-Yeon
    • Korean Journal of Materials Research
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    • v.20 no.3
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    • pp.155-160
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    • 2010
  • In this study, we investigated primary biocompatibility and osteogenic gene expression of porous granular BCP bone substitutes with or without strontium (Sr) doping. In vitro biocompatibility was investigated on fibroblasts like L929 cells and osteoblasts like MG-63 cells using a cell viability assay (MTT) and one cell morphological observation by SEM, respectively. MTT results showed a cell viability percent of L929 fibroblasts, which was higher in Sr-BCP granules (98-101%) than in the non-doped granules (92-96%, p < 0.05). Osteoblasts like MG-63 cells were also found to proliferate better on Sr-doped BCP granules (01-111%) than on the non-doped ones (92-99%, p < 0.05) using an MTT assay. As compared with pure BCP granules, SEM images of MG-63 cells grown on sample surfaces confirmed that cellular spreading, adhesion and proliferation were facilitated by Sr doping on BCP. Active filopodial growth of MG-63 cells was also observed on Sr-doped BCP granules. The cells on Sr-doped BCP granules were well attached and spread out. Gene expression of osteonectin, osteopontin and osteoprotegrin were also evaluated using reverse transcriptase polymerase chain reaction (RT-PCR), which showed that the mRNA phenotypes of these genes were well maintained and expressed in Sr-doped BCP granules. These results suggest that Sr doping in a porous BCP granule can potentially enhance the biocompatibility and bone ingrowth capability of BCP biomaterials.

A STUDY ABOUT EARLY OSTEOCONDUCTIVITY OF POROUS ALLOPLASTIC CARBONAPATITE AND ANORGANIC BOVINE XENOGRAFT IN CANINE MAIXLLIARY AUGMENTATION MODEL (탄산아파타이트로 된 인공골과 소뼈에서 유래한 무기질 골의 초기 골전도에 대한 연구)

  • Kim, Do-Kyun;Cho, Tae-Hyung;Song, Yun-Mi;Pan, Hui;Lee, Su-Yeon;Jin, Im-Geon;Kim, In-Sook;Hong, Kug-Sun;Hwang, Soon-Jung
    • Maxillofacial Plastic and Reconstructive Surgery
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    • v.29 no.6
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    • pp.485-493
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    • 2007
  • Introduction: Although several types of calcium-phosphate coumpound have been frequently applied to osseous defects at maxillofacial area for many years, there is a controversy about its efficiency on bone conductivity comprared to xenograft bone substitute. Alloplastic carbonapatite has been introduced to improve disadvantages of hydroxyapatite and to mimic natural bone containing carbon elements. However, a preclinical study about its efficiency of osteoconductivity has not been reported. This study was performed to evaluate the early osteoconductive potential of synthetic carbonapatite with multiple pores relative to anorganic bovine xenograft. Materials and methods: Total 5 beagle dogs were used for maxillary augmentation model. The control (anorganic bovine xenograft) and experimental groups (synthetic carbonapatite) were randomly distributed in the mouth split design. After bone graft, all animals were sacrificed 4 weeks after surgery. Histological specimens with Masson Trichrome staining were made and histomorphometrically analysed with image analyser. The statistical analysis was performed using paired t-test. Results: In both groups, all animals had no complications. The experimental group showed relatively much new bone formation around and along the bone substitutes, whereas it was clearly reduced in the control group. The ratios of new bone area to total area, to material area and to the residual area excluding materials were higher in the experimental group ($0.13{\pm}0.03,\;0.40{\pm}0.13,\;0.20{\pm}0.06$ respectively) than in the control group ($0.01{\pm}0.01,\;0.03{\pm}0.02,\;0.03{\pm}0.03$, respectively). And the differences between both groups were statistically significant (p<0.001, <0.01, <0.01, respectively), while the ratio of material area to total area in two groups was not significant. Conclusion: Carbonapatite showed a high osteoconductivity in the early stage of bone healing compared to bovine derived anorganic bone substitute. This study suggests that this bone materials can be applied as a reliable bone substitute in the clinical treatment.

STUDY OF POLYMETHYL METHACRYLATE BONE CEMENT CONTAINING BOVINE-DERIVED DEFATTING DEMINERALIZED BONE POWDER (탈지방탈회우골분말과 Polymethyl Methacrylate(PMMA) Bone Cement 혼합제에 관한 연구)

  • Kim, Woon-Kyu;Kim, Su-Gwan;Cho, Se-In;Ko, Young-Moo;Yoon, Jung-Hoon;Ahn, Jong-Mo
    • Journal of the Korean Association of Oral and Maxillofacial Surgeons
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    • v.27 no.6
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    • pp.491-497
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    • 2001
  • Polymethylmethacrylate(PMMA) is currently commonly used material for the reconstruction of bone defects and fixation of joint prosthetics following congenital and acquired causes. Although PMMA has widespread use, it does not possess the ideal mechanical characteristics with osteoconductivity and osteoinductivity required. In order to overcome these problem, addition of bovine bone drived defatting demineralized bone(BDB) powders to a PMMA bone cement was done for improvement of physical property and bone forming characteristics of composite. In order to investigate the influence of BDB reinforcement on the PMMA, we measured physical property of compressive, tensile, flexural strength, and scanning electron microscopic examinations. The results were obtained as follows: 1. The PMMA forms a solid cellular matrix with open cells about $100{\mu}m$ in variable size and incorporating BDB. BDB aggregates inside the cells form a porous network that is accessible from the outer surface. 2. The physical properties were compressive strength of mean $22.74{\pm}1.69MPa$, tensile strength of mean $22.74{\pm}1.69MPa$, flexural strength of mean $77.53{\pm}6.93MPa$. Scanning electron microscopic examinations were revealed that there was DBD particles form a highly porous agglomerates. BDB can be added PMMA in the form of dried powders, the composites are applicable as bone substitutes. BDB and PMMA mixture is shown to produce a class of composites that due to their microstructure and improved mechanical properties may be suitable for application as bone subsitutes. The mechanical and material properties of the BDB-PMMA bone substitute composites are competitive with those properties of a porous ceramic matrix of other hydroxyapatite and with those of natural bones.

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