Effects of added sodium alginate on mechanical strength of apatite cement

Dental Materials Journal

Volumn 23, Issue 3, 2004, Pages 329-334

  Tajima, Shinya ^a   Nishimoto, Norihiko ^a   Kishi, Yuji ^a   Matsuya, Shigeki ^b   Ishikawa, Kunio ^b  

^a Japan Institute for Advanced Dentistry   (Japan)

^b KYUSHU UNIVERSITY   (Japan)

Author keywords

Apatite cement; Mechanical strength; Sodium alginate

Indexed keywords

ALGINIC ACID; APATITE; CEMENT; SODIUM CHLORIDE;

ARTICLE; BODY FLUID; HUMIDITY; POROSITY; TENSILE STRENGTH;

EID: 10044229475     PISSN: 02874547     EISSN: None     Source Type: Journal    
DOI: 10.4012/dmj.23.329     Document Type: Article

References (39)

1. Monma H, Kanazawa T. The hydration of a tricalcium phosphate. Yogyo-Kyokai-Shi 1976; 84: 209-213.
2. Brown WE, Chow LC. Paste as Mineralizers and Cements. US Patent No. 4-612-053 (1986).
3. Brown WE, Chow LC. "A New Calcium Phosphate, Water-setting Cement" in Cements Research Progress, American Ceramic Society, Westerville (OH), 1987; pp.351-379.
4. Ishikawa K, Takagi S, Chow LC, Ishikawa Y. Properties and mechanisms of fast-setting calcium phosphate cements. J Mater Sci: Mater Med 1995; 6: 528-533.
5. Ishikawa K, Miyamoto Y, Kon M, Nagayama M, Asaoka K. Non-decay type fast-setting calcium phosphate cement: composite with sodium alginate. Biomaterials 1995; 16: 527-532.
6. Constantz BR, Ison IC, Fulmer MT, Poser RD, Smith ST, VanWagoner M, Ross J, Goldstein SA, Jupiter JB, Rosenthal DI. Skeletal repair by in situ formation of the mineral phase of bone. Science 1995; 267: 1796-1799.
7. Kurashina K, Kurita H, Kotani A, Takeuchi H, Hirano M. In vivo study of a calcium phosphate cement consisting of alpha-tricalcium phosphate/dicalcium phosphate dibasic/tetracalcium phosphate monoxide. Biomaterials 1997; 18: 147-151.
8. Yokoyama A, Yamamoto S, Kawasaki T, Kohgo T, Nakasu M. Development of calcium phosphate cement using chitosan and citric acid for bone substitute materials. Biomaterials 2002; 23: 1091-1101.
9. Driessens FCM, Boltong MG, Bermudez O, Planell JA, Ginebra MP, Fernandez E. Effective formulations for the preparation of calcium phosphate bone cements. J Mater Sci: Mater Med 1994; 5: 164-170.
10. Ishikawa K, Asaoka K. Estimation of ideal mechanical strength and critical porosity of calcium phosphate cement. J Biomed Mater Res 1995; 29: 1537-1543.
11. Ishikawa K, Miyamoto Y, Takechi M, Ueyama Y, Suzuki K, Nagayama M, Matsumura T. Effects of neutral sodium hydrogen phosphate on setting reaction and mechanical strength of hydroxyapatite putty. J Biomed Mater Res 1999; 44: 322-329.
12. Ooms EM, Wolke JG, van de Heuvel MT, Jeschke B, Jansen JA. Histological evaluation of the bone response to calcium phosphate cement implanted in cortical bone. Biomaterials 2003; 24: 989-1000.
13. Ooms EM, Egglezos EA, Wolke JG, Jansen JA. Soft-tissue response to injectable calcium phosphate cements. Biomaterials 2003; 24: 749-757.
14. Dickson KF, Friedman J, Buchholz JG, Flandry FD. The use of BoneSource hydroxyapatite cement for traumatic metaphyseal bone void filling. J Trauma 2002; 53: 1103-1108.
15. Yetkinler DN, Goodman SB, Reindel ES, Carter D, Poser RD, Constantz BR. Mechanical evaluation of a carbonated apatite cement in the fixation of unstable intertrochanteric fractures. Acta Orthop Scand 2002; 73: 157-164.
16. Arriaga MA, Chen DA. Hydroxyapatite cement cranioplasty in translabyrinthine acoustic neuroma surgery. Otolaryngol Head Neck Surg 2002; 126: 512-517.
17. Saito T, Kin Y, Koshino T. Osteogenic response of hydroxyapatite cement implanted into the femur of rats with experimentally induced osteoporosis. Biomaterials 2002; 23: 2711-2716.
18. Welch RD, Berry BH, Crawford K, Zhang H, Zobitz M, Bronson D, Krishnan S. Subchondral defects in caprine femora augmented with in situ setting hydroxyapatite cement, polymethylmethacrylate, or autogenous bone graft: biomechanical and histomorphological analysis after two years. J Orthop Res 2002; 20: 464-472.
19. Ooms EM, Wolke JG, van der Waerden JP, Jansen JA. Trabecular bone response to injectable calcium phosphate (Ca-P) cement. J Biomed Mater Res 2002; 61: 9-18.
20. Baker SB, Weinzweig J, Kirschner RE, Bartlett SP. Applications of a new carbonated calcium phosphate bone cement: early experience in pediatric and adult craniofacial reconstruction. Plast Reconstr Surg 2002; 109: 1789-1796.
21. Miyamoto Y, Ishikawa K, Takechi M, Yuasa M, Kon M, Nagayama M, Asaoka K. Non-decay type fast-setting calcium phosphate cement: setting behavior in calf serum and its tissue response. Biomaterials 1996; 17: 1429-1435.
22. Tanaka S, Kishi T, Shimogoryo R, Matsuya S, Ishikawa K. Biopex® acquires anti-washout properties by adding sodium alginate into its liquid phase. Dent Mater J 2003; 22: 301-312.
23. Miyamoto Y, Ishikawa K, Takechi M, Toh T, Yoshida Y, Nagayama M, Kon M, Asaoka K. Tissue response to fast-setting calcium phosphate cement in bone. J Biomed Mater Res 1997; 37: 457-464.
24. Takechi M, Ishikawa K, Miyamoto Y, Nagayama M, Suzuki K. Tissue responses to anti-washout apatite cement using chitosan when implanted in the rat tibia. J Mater Sci: Mater Med 2001; 12: 597-602.
25. Ueyama Y, Ishikawa K, Mano T, Koyama T, Matsumura T, Suzuki K. Initial tissue response to anti-washout apatite cement in the rat palatal region: comparison with conventional apatite cement. J Biomed Mater Res 2001; 55: 652-660.
26. Ishikawa K, Miyamoto Y, Toh T, Yuasa T, Ito A, Nagayama M, Suzuki K. Fabrication of Zn containing apatite cement and its initial evaluation using human osteoblastic cells. Biomaterials 2002; 23: 423-428.
27. Oda M, Kaku T, Ookubo A, Matsuya S, Ishikawa K. The effects of hardening environment on the conversion to apatite and the mechanical strength of apatite cement. J J Soc Oral Impl 2003; 16: 400-408.
28. Fukase Y, Eanes ED, Takagi S, Chow LC. Setting reactions and compressive strength of calcium phosphate cement. J Dent Res 1990; 69: 1852-1856.
29. Miyamoto Y, Ishikawa K, Fukao H, Sawada M, Nagayama M, Kon M, Asaoka K. In vivo setting behavior of fast-setting calcium phosphate cement. Biomaterials 1995; 16: 855-860.
30. Ishikawa K, Miyamoto Y, Takechi M, Ueyama Y, Suzuki K, Nagayama M, Matsumura T. Effects of neutral sodium hydrogen phosphate on setting reaction and mechanical strength of hydroxyapatite putty. J Biomed Mater Res 1999; 44: 322-329.
31. Fujisawa K, Sugawara A, Kusama K, Nishiyama M, Murai S, Takagi S, Chow LC. Fluorescent labeling analysis and electron probe microanalysis for alveolar ridge augmentation using calcium phosphate cement. Dent Mater J 2002; 21: 296-305.
32. Tsunoda M. Degradation of poly (DL-lactic acid-coglycolic acid) containing calcium carbonate and hydroxyapatite fillers - effect of size and shape of the fillers. Dent Mater J 2003; 22: 371-382.
33. Arita K, Lucas ME, NishinoM. The effect of adding hydroxyapatite on the flexural strength of glass ionomer cement. Dent Mater J 2003; 22: 126-136.
34. Ban S, Kamiya A, Sonoda T. Calcium-ion incorporation into titanium surfaces accompanied by electrochemical apatite-deposition. Dent Mater J 2002; 21: 306-313.
35. Tamura Y, Yokoyama A, Watari F, Kawasaki K. Surface properties and biocompatibility of nitrided titanium for abrasion resistant implant materials. Dent Mater J 2002; 21: 355-372.
36. Nagai M, Hayakawa T, Fukatsu A, Yamamoto M, Fukumoto M, Nagahama F, Mishima H, Yoshinari M, Nemoto K, Kato T. In vitro study of collagen coating of titanium implants for initial cell attachment. Dent Mater J 2002; 21: 250-260.
37. Kon M, Hirakata LM, Miyamoto Y, Kawano F, Asaoka K. Surface-layer modification of hydroxyapatite ceramic with acid and heat treatments. Dent Mater J 2002; 21: 170-180.
38. Ishikawa K, Miyamoto Y, Suzuki K. Mechanism of the inflammatory reaction of conventional calcium phosphate cement. Key Eng Mater 1997; 301-304.
39. Yamane M. The role and characteristic of gypsum products in dentistry. J Soc Mater Sci Jpn 1980; 29: 421-427.