Hydroxyapatite formed on/in agarose gel induces activation of blood coagulation and platelets aggregation |
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| Authors: | Arimura Shin-ichiro Kawahara Ko-ichi Biswas Kamal Krishna Abeyama Kazuhiro Tabata Masashi Shimoda Toru Ogomi Daisuke Matsusaki Michiya Kato Shinya Ito Takashi Sugihara Kazumasa Akashi Mitsuru Hashiguchi Teruto Maruyama Ikuro |
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| Affiliation: | Developmental Therapeutics Course, Oral and Maxillofacial Rehabilitation, Department of Maxillofacial Diagnostic and Surgical Science, Kagoshima University Graduate School of Medical and Dental Sciences, Kagoshima, Japan. |
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| Abstract: | We reported earlier that hydroxyapatite (HA) formed on/in agarose gels (HA/agarose) produced by alternate soaking process is a bone-filling material possessing osteoconductive and hemostatic effects. This process could allow us to make bone-like apatite that was formed on/in organic polymer hydrogel matrices. Here, we investigated the mechanism of hemostasis induced by HA/agarose and found that HA/agarose, but not agarose or HA powder, significantly shortened activated partial thromboplastin time (APTT). While HA/agarose did not show significant platelet aggregation, it markedly enhanced adenosine diphosphate (ADP)-induced platelet aggregation. Moreover, Western blot analysis revealed selective adsorption of vitronectin onto HA/agarose. We also observed marked differences between HA powder and HA/agarose in their XRD patterns. The crystallinity of HA powder was much higher compared to that of HA/agarose. Furthermore, 50-100 nm of tube-form aggregations was observed in HA powder on the other hand 100-200 nm of particles was observed in HA/agarose by SEM observation. Thus 100-200 nm of low crystallized particles on the surface structure of HA/agarose may play an important role in hemostasis. Our results demonstrated a crucial role of HA/agarose in the mechanism of hemostasis and suggested a potential role for HA/agarose as a bone-grafting material. |
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