通过微波辐射热致交联的方法增强改性三维壳聚糖棒材.结果表明,辐射一定时间后发牛的交联反应提高了壳聚糖溶液的旋转粘度;继续增加辐射时间,由于壳聚糖的热交联反应和热分解碳化同时并存,壳聚糖溶液的旋转粘度反而下降了.交联和高温碳化对壳聚糖分子链产生化学和物理的固定作用,使其吸水膨胀困难,从而降低了壳聚糖俸材的吸水率.热交联反应使壳聚糖分子链间形成体型网络状结构,从而有效地改善了三维壳聚糖棒材的力学性能.微波辐射4 min后,壳聚糖棒材的弯曲强度和弯曲模量可达182.8 MPa、5.6 GPa,比未辐射的壳聚糖棒材分别提高了97.8%、36.6%.
参考文献
| [1] | TAO Mingtao,YU Xiangan,Research status and advances on the complex drug delivery system for the treatment of nonunion,China Pharmacy,18(20),1586(2007)(陶明涛,于香安,治疗"骨不连"的复合释药系统研究现状与进展.中国药房,18(20),1586(2007)) |
| [2] | WANG Zhengmei,FAN Shuxian,XIE Xuejian,GAO Guizhi,Research progress on bone fracture internal fixation materials,Journal of Nantong University:Medical Sciences,25(3),229(2005)(王正梅,樊曙先,谢学俭,高桂芝,骨折内同定器材料的研究进展,南通大学学报:医学版,25(3),229(2005)) |
| [3] | M.Van der elst,A.R.A.Dijkema,C.P.A.T.Klein,P.Patka,H.J.T.M.Haarman,Tissue reaction on PLLA versus stainless steel interlocking screws for fracture fixation:an animal study,Biomaterials,16,103(1995) |
| [4] | C.M.Agrawal,K.A.Athanasiou,Technique to control pH in vicinity of biodegrading PLA-PGA implants,Journal of Biomedical Materials Research,38(2),105(1997) |
| [5] | K.S.Katti,D.R.Katti,R.Dash,Synthesis and characterization of a novel chitosan/ montmurillonite/hydroxyapatite nanocomposite for bone tissue engineering,Biomedical Materials,3(3),34122(2008) |
| [6] | T.Honma,T.Senda,Y.Inoue,Thermal properties and crystallization behaviour of blends of poly(ε-caprolactone)with chitin and chitosan,Polymer International,52(12),1839(2003) |
| [7] | V.G.Mir,J.Heinamaki,O.Antikainen,O.B.Revoredo,A.I.Colarte,O.M.Nieto,J.Yliruusi,Direct compression properties of chitin and chitosan,European Journal of Pharmaceutics and Biopharmaceutics,69(3),964(2008) |
| [8] | B.Krajewska,Membrane-based processes performed with use of chitin/chitosan materials,Separation and Purification Technology,41(3),305(2005) |
| [9] | Y.C.Kuo,I.N.Ku,Cartilage regeneration by novel polyethylene oxide/chitin/chitosan scaffolds,Biomacromolecules,9(10),2662(2008) |
| [10] | HU Qiaoling,QIAN Xiuzhen,LI Baoqiang,SHEN Jiacong.Studies on chitosan rods prepared by in situ precipitation method,Chemical Journal of Chinese UniversitiesChinese,24(3),528(2003)(胡巧玲,钱秀珍,李保强,沈家骢,原位沉析法制备壳聚糖棒材的研究,高等学校化学学报,24(3),528(2003)) |
| [11] | L.Y.Lim,E.Khor,C.E.Ling,Effects of dry heat and saturated steam on the physical properties of chitosan,Journal of Biomedical Materials Research,48(2),111(1999) |
| [12] | J.M.Wasikiewicz,F.Yoshii,N.Nagasawa,R.A.Wach,H.Mitomo,Degradation of chitosan and sodium alginate by gamma radiation,sonochemical and ultraviolet methods,Radiation Physics and Chemistry,73(5),287(2005) |
| [13] | G.Cardenas,J.Diaz,M.F.Melendrez,C.Cruzat,Physicochemical properties of edible films from chitosan composites obtained by microwave heating,Polymer Bulletin,61(6),737(2008) |
| [14] | P.Wongpanit,N.Sanchavanakit,P.Pavasant,P.Supaphol,S.Tokura,R.Rujiravanit,Preparation and characterization of microwave-treated carboxymethyl chitin and carboxymethyl chitosan films for potential use in wound care application,Macromolecular Bioscience,5(10),1001(2005) |
| [15] | JIANG Tingda,Chitosan,(Beijing,Chemical Industry Press,2006) p.103(蒋挺大,壳聚糖,(北京,化学工业出版社,2006)p.103) |
| [16] | Q.L.Hu,B.Q.Li,M.Wang,J.C.Shen,Preparation and characterization of biodegradable chitosan/hydroxyapatite nanocomposite rods via in situ hybridization:a potential material as internal fixation of bone fracture,Biomaterials,25,779(2004) |
| [17] | Z.K.Wang,Q.L.Hu,L.Cai,Chitin fiber and chitosan 3D composite rods,International Journal of Polymer Science,2010,369759(2010) |
| [18] | WANG Zhengke,HU Qiaoling,LV Jia,WANG Youxiang,SHEN Jiacong,Chitosan rod reinforced with absorbent cotton fibers,Journal of Zhejiang University(Engineering Science),43(7),1312(2009)(王征科,胡巧玲,吕佳,王幽香,沈家骢,脱脂棉纤维增强壳聚糖棒材,浙江大学学报:工学版,43(7),1312(2009)) |
| [19] | HU Wenjie,HE Xueyin,DENG Yujie,XIE Feng,LIU Xiangyan,CHEN Mingjun.A clinical study on Dikfix absorbable internal fixation screws,Chinese Journal of Orthopaedic Trauma,4(4),258(2002)(胡文杰,何学银,邓宇杰,谢峰,刘相燕,陈明俊,Dikfix 可吸收骨折内固定螺钉的临床观察,中华创伤骨科杂志,4(4),258(2002)) |
| [20] | G.O.Hofmann,F.D.Wagner,New implant designs for bioresorbable devices in orthopaedic surgery,Clinical Materials,14(3),207(1993) |
上一张
下一张
上一张
下一张
计量
- 下载量()
- 访问量()
文章评分
- 您的评分:
-
10%
-
20%
-
30%
-
40%
-
50%