Miyamoto Y, Ishikawa K, Takechi M, Yuasa M, Kon M, Nagayama M, Asaoka K
First Department of Oral and Maxillofacial Surgery, School of Dentistry, Tokushima University, Japan.
Biomaterials. 1996 Jul;17(14):1429-35. doi: 10.1016/0142-9612(96)87286-3.
Non-decay type fast-setting calcium phosphate cement (nd-FSCPC) was evaluated in terms of its setting behaviour in calf serum and its tissue response to investigate the feasibility of its clinical use in surgical applications. Non-decay type cements were prepared by adding various amounts of sodium alginate to the liquid phase of base cements, fast-setting calcium phosphate cement (FSCPC) and conventional calcium phosphate cement (c-CPC). Cement pastes were immersed in serum at 37 degrees C immediately after mixing, and decay behaviour, setting time and mechanical strength were measured to evaluate the possibility of their use in surgical applications. Also, nd-FSCPC was implanted into rat subcutaneous tissue for the initial evaluation of biocompatibility of this potential bioactive cement. nd-FSCPC set in approximately 6-7 min in serum, even when the cement paste was immersed in the serum immediately after mixing, whereas c-CPC and FSCPC decayed completely upon immersion. nd-FSCPC transforms to hydroxyapatite (HA) within 24 h and shows a diametral tensile strength of approximately 4-5 MPa. As a result of transformation to HA, nd-FSCPC showed excellent tissue response when implanted subcutaneously in rats. We conclude that nd-FSCPC has good potential value for use in orthopaedics, plastic and reconstructive surgery, and oral and maxillofacial surgery, where the cement is exposed to blood.
对非降解型快凝磷酸钙骨水泥(nd-FSCPC)在小牛血清中的凝固行为及其组织反应进行了评估,以研究其在外科手术应用中临床使用的可行性。通过向基础骨水泥、快凝磷酸钙骨水泥(FSCPC)和传统磷酸钙骨水泥(c-CPC)的液相中添加不同量的海藻酸钠来制备非降解型骨水泥。水泥浆混合后立即在37℃下浸入血清中,测量其降解行为、凝固时间和机械强度,以评估其在外科手术应用中的使用可能性。此外,将nd-FSCPC植入大鼠皮下组织,对这种潜在生物活性骨水泥的生物相容性进行初步评估。nd-FSCPC在血清中大约6-7分钟凝固,即使水泥浆混合后立即浸入血清中,而c-CPC和FSCPC浸入后完全降解。nd-FSCPC在24小时内转化为羟基磷灰石(HA),并显示出约4-5MPa的径向拉伸强度。由于转化为HA,nd-FSCPC皮下植入大鼠时显示出优异的组织反应。我们得出结论,nd-FSCPC在骨科、整形和重建外科以及口腔颌面外科中具有良好的潜在应用价值,这些领域中骨水泥会接触到血液。
