Osteoconductive and hemostatic properties of apatite formed on/in agarose gel as a bone-grafting material

Osteoconductive and hemostatic properties of apatite formed on/in agarose gel as a bone-grafting material

The biologic behavior of hydroxyapatite formed on/in agarose (HA/agarose) gels with the use of a novel alternate soaking process was compared with commercially available Bone Ject (True‐Bone ceramic–collagen combined bone‐graft material, Koken, Japan) as a filler for the tooth‐extraction sockets of...

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Published in:Journal of biomedical materials research. Part B, Applied biomaterials Vol. 67B; no. 2; pp. 680 - 688
Main Authors: Tabata, Masashi, Shimoda, Toru, Sugihara, Kazumasa, Ogomi, Daisuke, Serizawa, Takeshi, Akashi, Mitsuru
Format: Journal Article
Language:English
Published: Hoboken Wiley Subscription Services, Inc., A Wiley Company 15-11-2003
Subjects:
Animals
apatite-agarose composite
biodegradable
Bone and Bones - cytology
Bone Development
Bone Substitutes - chemistry
bone-graft material
Durapatite
Haplorhini
Hemostasis
hemostatic property
Hydrogels - chemistry
osteoblast
Sepharose
Surface Properties
Tooth Extraction
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Summary:The biologic behavior of hydroxyapatite formed on/in agarose (HA/agarose) gels with the use of a novel alternate soaking process was compared with commercially available Bone Ject (True‐Bone ceramic–collagen combined bone‐graft material, Koken, Japan) as a filler for the tooth‐extraction sockets of six adult monkeys (Macasa fascicularis). After the monkeys' first premolars were extracted, the defects created were replaced with one of the following materials: (a) HA/agarose created by 12 soaking cycles, (b) HA/agarose created by 9 soaking cycles, (c) Bone Ject, and (d) no material implantation (control). The time of hemostasis in each extraction site was estimated, and the samples were then studied histologically. In the controls, the time of hemostasis was about 5 min. The Bone Ject particles were easily washed out by bleeding, and the time of hemostasis was about 15 min. The HA/agarose gel was densely packed into the bony defect. The hemorrhage from the defects stopped within a few seconds after graft placement. This hemostasis was most likely related to the compactibility and adhesiveness of the material. After 12 weeks of implantation, free Bone Ject particles surrounded by inflammatory cells were observed. The bony defect filled with the HA/agarose gels was completely absorbed and replaced by newly formed bone possessing bone marrow. There was no difference in the biologic behavior of HA/agarose gels created by 9 versus 12 soaking cycles. The present study suggests that HA/agarose gels may play an important role as an alternative biodegradable bone‐graft material for autogenous bone in humans. © 2003 Wiley Periodicals, Inc. J Biomed Mater Res Part B: Appl Biomater, 67B: 680–688, 2003
Bibliography:ArticleID:JBM10063
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ISSN:1552-4973
1552-4981
DOI:10.1002/jbm.b.10063