中文
Earlier issues
Announcement
More
Progress in Chemistry 1997, Vol. 9 Issue (01): 90- Previous Articles   Next Articles

• Review •

Medical Bioceramics and Its Clinical Applications

Zeng Shaoxian   

  1. ( Shanghai Institute of Ceramics, Chinese Academy of Sciences, Shanghai 200050)
  • Received: Revised: Online: Published:
PDF ( 2669 ) Cited
Export

EndNote

Ris

BibTeX

Ceramics used for the repair and reconstruction of diseased or damaged parts of the musculo skeletal system , termed bioceramics, may be bioinert, resorbable,bioactive. Clinical applications include replacements for hips, knees, teeth, tendons and ligaments, repair for periodental disease,maxillofacial reconstruction, augmentation and stabilization of the jaw bone, spinal fusion and bone fillers after tumor surgery, carbon coatings for prosthetic heart valves. A dvanced techniques such as biomimetic process and ion implantation can be used to form coatings with the bone-like apatite layer on polymer,which are useful as substitutes not only for hard tissues but also for soft tissues, since it exhibits high bioactivity as well as ductility. Bioactive ferrom agnetic glass ceramics and chemically durable radioactive glasses are expected to be usefu l for cancert reatments.

Key words: bioceramics, bioactive, hydroxyapatite, inert, resorbable, biodegradation

CLC Number: 

[1 ] Hench L L , Adv. Ceram. Mater. , 1989, 1, 306~ 324.
[2 ] Hench L L , J. Am. Ceram. Soc. , 1991, 74 (7) , 1487~ 1510.
[3 ] Hulblert S F, Bokros J C, Hench L L et al. , Biomaterials: Ceramics in Clinical Applications, Past,Presentand Future, High Tech. Ceram. (ed. Vinangin P) , Elsevier, Amsterdam , 1987, 189~ 213.
[4 ] Hench L L , Ethrige E C, Biomaterials: An Interfacial Approach, Academic Press, New York, 1982.
[5 ] Ritter J E, Greenspan D C, Palmer R A , Hench L L , J. Biomed. Mater. Res. , 1979, 13, 251~ 263.
[6 ] Christel P, Meunier A , Dorlot J M et al. , Bioceramics:Material Characteristicsversusinvivo Behavior, Vol. 523 (eds. Ducheyne P, Lemons J ) , Annals of New York Academy of Sciences, New York,1988, 234~ 240.
[7 ] Boretos J W , CHEM TECH , April, 1987, 224~ 231.
[8 ] McKinney R V Jr, Lemons J , The Dental Implant, PSG Littleton, MA , 1985, 31~ 50.
[9 ] White E W , Webber J N , Roy D M et al. , J. Biomed. Mater. Res. Symp. , 1975, 6, 23~ 27.
[10 ] Chiroff R T , White E W , Webber J N , Roy D M , J. Biomed. Mater. Res. Symp. , 1975, 6, 29~ 45.
[11 ] Bokros J D, Carbon, 1977, 18, 355.
[12 ] Thomos M B, J. Mater. Sci. , 1980, 16, 891.
[13 ] Dalgleish B J , Rawlings R D, J. Biomed. Mater. Res. , 1981, 15, 527.
[14 ] Henbold A D, Concise Encyclopedia of Medicaland Dental Materials, New York, 1990, 95.
[15 ] Kuniomi Ito, Yoshi Coil, Handbookof Bioactive Ceramics, Vol. ê (eds. Yamarnuro T , Hench L L ,Wilson J ) , CRC Press, Boca Roton, FL , 1990, 39.
[16 ] De Groot K, Bioceramics of Calcium Phosphate, CRC Press, Boca Roton, FL , 1983, 1~ 32.
[17 ] De Groot K, Bioceramics:Material Characteristicsversusinvivo Behavior, Vol 523 (eds. Ducheyne P,Lemons J ) , Annals of New York Academy of Sciences, New York, 1988, 268~ 277.
[18 ] De Groot K, Klein P A T , Wolke J G C,de Blieck-Hogervorst J , Handbookof Bioactive Ceramics,Vol ê (eds. Yamamuro T , Hench L L , Wilson J ) , CRC Press, Boca Raton, FL , 1990, 3~ 15.
[19 ] Doyle C,ibid , 1990, 195~ 208.
[20 ] Jarcho M , Salsbury R L ,ibid , 1990, 1~ 3.
[21 ] Soltez U , Bioceramics:Materials Charateristicsversusinvivo Behavior, Vol. 523 (eds. Ducheyne P,Lemons J ) , Annals of New York Academy of Sciences, New York, 1988, 137~ 156.
[22 ] Jarcho M , Bolen O , Thomas M et al. , J. Mater. Sci. , 1976, 11, 2020~ 2035.
[23 ] Peelen J , Rejda B,de Groot K, Ceramurgia International, 1978, 2 (4) , 71~ 74.
[24 ] Sontos J , Morrey S, Hastings G et al. , Bioceramics, Vol. 4 (eds. Bonfield W , Hastinge GW , Funner K E) Butterworth-Heinemmann, Gulford, 1991, 71~ 78.
[25 ] Rivalda M A , Pereira M , Hench L L , J. Sol-Gel Science and Technology , 1996, 7, 59~ 68.
[26 ] Jarcho M , Clin. Orthop. Relat. Res. , 1981, 157, 259.
[27 ] Williams D F, Biocompatibility of Tissue Analog , Vol. ê (ed. Williams D F) , CRC Press, Boca Raton, FL , 1985, 43~ 66.
[28 ] Hench L L , Splinter R J , Allen W C, Greenlee T Jr, J. Biomed. Mater. Res. , 1972, 2 (1) , 117~141.
[29 ] Hench L L , Bioceramics, Vol . 7 (eds. Anderson O H, Happonen R P, Yli-Urpo A ) , Great Britainat The Uni. Press, Cambridge, 1994, 3~ 161
[30 ] Le Geros R F, Bone G, Le Geros R, Calcified Tissue Res. , 1978, 111 (26).
[31 ] Kokubo T , 3rd Euro-Ceramics, Vol. 3 (eds. Duran P, Fernandez F ) , Faenza Editrice Iberica,Spain, 1993, 1~ 16.
[32 ] Ogino M , Ohuchi F, Hench L L , J. Biomed. Mater. Res. , 1980, 14, 55~ 64.
[33 ] Luder A A , Borrelli N F, Panzario J N et al. , Radiation Res. , 1983, 94, 190~ 198.
[34 ] Ikenaga M , Ohura K, Nakamura T et al. , Bioceramics, Vol. 4 (eds. Bonfield W , Hastinge G W ,Funner K E) , Butterworth-Heinemann, Guilford, 1991, 255~ 262.
[35 ] Kokubo T , Ebisawa Y, Sugimoto Y et al. , Bioceramics, Vol. 3 (eds. Hulbert J E, Hulbert S F) ,Rose-Huhman Instituteof Technology, Terre Haute, 1992, 213~ 223.
[1] Bingyan Jiang, Tao Peng, Shuai Yuan, Mingyong Zhou. Passive Focusing Techniques of Particles in Microfluidic Device [J]. Progress in Chemistry, 2021, 33(10): 1780-1796.
[2] Peng Ning, Yunhui Cheng, Zhou Xu, Li Ding, Maolong Chen. Application of Metal-Organic Framework Materials in Enrichment of Active Peptides [J]. Progress in Chemistry, 2020, 32(4): 497-504.
[3] Yang Wang, Chusen Huang, Nengqin Jia. Molecular Fluorescent Probe for Monitoring Cellular Microenvironment and Active Molecules [J]. Progress in Chemistry, 2020, 32(2/3): 204-218.
[4] Cong Zhang, Qiaoli Yue, Lixia Tao, Yingying Hu, Chen-Zhong Li, Bo Tang. Construction of Photochemical Method and Cell Imaging Based on Nucleic Acid Probes [J]. Progress in Chemistry, 2019, 31(6): 858-871.
[5] Qiwei Ying, Jianguo Liao, Minhang Wu, Zhihao Zhai, Xinru Liu. Research on Bioactive Glass Nanospheres as Delivery [J]. Progress in Chemistry, 2019, 31(5): 773-782.
[6] Yuanyuan Wu, Haihua Pan, Ruikang Tang. Collagen Mineralization and Tissue Repair [J]. Progress in Chemistry, 2018, 30(10): 1503-1510.
[7] Rui Ding, Feng Zhao. Intimate Coupling of Photocatalysis and Biodegradation to Synchronously Degrade Pollutants [J]. Progress in Chemistry, 2017, 29(9): 1154-1158.
[8] Wang Rongmin, Sun Kangqi, Wang Jianfeng, He Yufeng, Song Pengfei, Xiong Yubing. Preparation and Application of Natural Polymer/Hydroxyapatite Composite [J]. Progress in Chemistry, 2016, 28(6): 885-895.
[9] Yin Lina, Wang Bin, Ma Ruixue, Yuan Honglin, Yu Gang. Enantioselective Environmental Behavior and Effect of Chiral PPCPs [J]. Progress in Chemistry, 2016, 28(5): 744-753.
[10] Chen Feng, Zhu Yingjie. Microwave-Assisted Synthesis of Calcium Phosphate Nanostructured Materials in Liquid Phase [J]. Progress in Chemistry, 2015, 27(5): 459-471.
[11] Liao Jianguo, Li Yanqun, Duan Xingze, Zhu Lingli. Nano-Hydroxyapatite/Polymer Composite as Bone Repair Materials [J]. Progress in Chemistry, 2015, 27(2/3): 220-228.
[12] Ma Jinlian, Ma Chen, Tang Jia, Zhou Shungui, Zhuang Li. Mechanisms and Applications of Electron Shuttle-Mediated Extracellular Electron Transfer [J]. Progress in Chemistry, 2015, 27(12): 1833-1840.
[13] Wang Jiali, Tang Jian, Zhang Peng, Wang Jue, Li Yangde, Qin Ling. Indication of Electrochemical Measurements of Magnesium Alloys in vitro for Their Degradation Behavior in vivo [J]. Progress in Chemistry, 2012, 24(04): 598-605.
[14] Xiang Nan, Zhu Xiaolu, Ni Zhonghua. Application of Inertial Effect in Microfluidic Chips [J]. Progress in Chemistry, 2011, 23(9): 1945-1958.
[15] Zhang Dinglin, Zhao Huawen, Zhao Xianying, Liu Yimin, Chen Hua, Li Xianjun. Application of Hydroxyapatite as Catalyst and Catalyst Carrier [J]. Progress in Chemistry, 2011, 23(4): 687-694.