摘要
本文用氯乙醇作为醚化剂在碱性条件下与甲壳素进行醚化,合成了具有良好水溶性的羟乙基甲壳素(hydroxyethyl chitin,HECH)。由单因素实验确定了该醚化反应的主要影响因素,用正交实验的方法得出了HECH制备的最优条件为:碱含量15%,氯乙醇与甲壳素质量比为39:5,反应时间10小时,反应液固比(g:mL)为5:250,室温反应;对于醚化反应的收率影响因素最为重要的是氯乙醇用量,其次是液固比、碱含量和反应时间。用红外光谱和元素分析的方法对产品进行了结构表征。红外光谱的结果表明:经过醚化改性,3500cm~(-1)伯胺基伸缩振动小肩峰消失,与缔合羟基峰部分重合,证明部分游离氨基反应;3420cm~(-1)羟基吸收峰加强,出现羟基缔合的宽峰;元素分析的结果表明:HECH的取代度随着氯乙醇用量的增加而增加,基本上呈线性关系;当取代度大于1.619时,产物的水溶性较好;取代度小于1.619时,产物的水溶性不好。
用甲壳素与常用的吸湿保湿剂甘油、1,2丙二醇对比,对HECH的吸湿保湿性能进行了研究。结果表明:羟乙基甲壳素的吸湿性比甲壳素有较大的提高,在41%的相对湿度下,羟乙基甲壳素的吸湿率小于甘油和丙二醇约10%,保湿率与甘油和丙二醇相差不大;在81%的相对湿度下,羟乙基甲壳素的吸湿率比甘油和丙二醇低约40%,保湿率比甘油和丙二醇低约20%。
用NDJ-4旋转黏度计对HECH水溶液的流变性能进行了研究,发现HECH水溶液的黏度随浓度增加而增大,在2.0%浓度以上黏度急速增加,在质量浓度为1.0%-2.8%范围,为剪切变稀的假塑性流体,流动曲线符合幂律定律,利用多元线性回归方法对实验数据进行处理,获得恒定温度下稠度系数和非牛顿指数的经验关系式;在实验的温度范围25℃-45℃,不同质量浓度的流动活化能为4~16KJ/mol,求得了其黏流活化能与浓度经验关系式;HECH水溶液黏度在pH=7时最大,随着pH的增大或减小,黏度均下降;在2.5%的HECH水溶液中加入0.1~0.4mol/L的Na_2CO_3和Na_3PO_4时,其黏度值明显递增,随阴离子价数增高,影响增大;而加入0.1~0.4mol/L的NaCl和AlCl_3时,其黏度值逐渐减小,随阳离子价数增高,影响增大;用“剪切—静置法”研究了羟乙基甲壳素水溶液的触变性以及不同离子强度、pH值、不同表面活性剂,不同有机物对其触变性的影响,各流体均表现为正触变性。
中国海洋大学硕二}一学位论文
分别用戊二醛、环氧氯丙烷、丙三醇三缩水甘油醚作为交联剂对HECH进行
交联得到GA一HECH、ECH一HECH、PTGE一HECH三种以HECH为骨架材料的交联水凝胶,
研究了交联反应的条件及产物的pH和温度的敏感性。结果表明:l、交联剂的种
类对水凝胶的溶胀性和凝胶中的游离氨基含量有较大的影响,戊二醛交联水凝胶
的游离氨基含量最小并且pH敏感性最差,另外两种水凝胶具有较好的pH敏感性;
2、交联剂的用量越大,交联度就越高,凝胶的游离氨基含量就越少,同时一pH敏
感性就越差。3、三种交联凝胶都属于pH敏感性凝胶,在pH6.98~pH3.O的缓冲
溶液中的溶胀度大于pH10.08~pH6.98的缓冲溶液中的溶胀度。4、三种凝胶的
溶胀度都随着温度的升高而增大,属于“热胀型”的凝胶。
用环氧氯丙烷活化法对ECH--HECH水凝胶进行了活化,并用正交实验考察了
活化的最优条件,用乙二胺和己二胺对活化凝胶进行胺化,得到两种多胺基水凝
胶。结果表明:胺化凝胶的溶胀度和pH敏感性与游离氨基含量和胺化剂的碳链
长度有关,己二胺胺化的凝胶游离氨基含量大于乙二胺胺化凝胶,但己二胺的碳
链比乙二胺长,溶胀度和敏感性比后者小。两种胺化凝胶都属于“热胀型”凝胶。
用化学交联法制备了由聚丙烯酸(P从)和llECH复合的互穿网络(Ip劝水凝
胶。研究了交联剂含量、p从含量、pH和温度对于水凝胶的溶胀性能的影响。结
果表明:该水凝胶在弱碱性(pH7.4,卜0.1)条件下的溶胀度远大于在酸性
(pHI .4,1二0.1)条件下的溶胀度,是一种PH敏感性水凝胶。随着温度的提高,
凝胶的溶胀度也随着上升,该水凝胶也属于一种“热胀型”的水凝胶。
以GA一HECH和尸AA/HECH两种凝胶体系作为载体,分别包埋布洛芬和双氯芬
酸钾两种药物,制成药物缓释制剂,体外释放实验结果表明:1、GA一HECH布洛
芬体系第1h的累积释放率达到64%,前4h累积释放率达到82%,此后药物累积
释放率基本不再增大。PAA/HECH布洛芬体系第lh的累积释放率达到28叹、,前4卜
累积释放率达到81%。2、GA一HECH双氯芬酸钾体系第lh的累积释放率达到40%,
药物在前6h累积释放率达到85%。PAA/HECH双氯芬酸钾体系第lh的累积释放
率达到17%,12h内几乎是匀速释放,累积释放率达到扎%。因此,尸AA/HEC日比
GA一HECH的药物缓释性能优异,体外释放效果良好,达到药物缓释制剂的要求。
Chitin is the second most abundant natural polymer in the world . Hydroxyethyl chitin (HECH) is a water soluble chitin derivative which was prepared by etherification of chitin. Ethylene chlorohydrin was used as etherification reagent . Series of experiments were carried out on different amount of alkali and amount of chlorethyl alcohol, and different reaction time respectively. Monofactorial experiment and orthogonal design were used to acquire optimal values of experimental factors.The optimal combination of the reaction is as follows : alkalinity content (15%), reaction time (10 hours) , ethylene chlorohydrin: chitin (w/w)=39:5, the ratio of solid and liquid is 5g:250ml, room temperature . The structure of product was analyzed by infrared spectrum and elementary analysis. The IR spectra of chitin and HECH showed that there were marked difference between them: association hydroxyl peaks (3200cm~ 3500 cm ) were appeared in HECH which manifested strengthen of hydroxyl group .Amino-group (3450 cm) of chitin w
ere disappeared in HECH ; The elemental analysis results showed that substituting degree increased with the increase of amount of ethylene chlorohydrin, which show linear relation .Hygroscopicity and humidity-retaining ability of chitin and HECH were studied by comparing to glycerine and propylene glycol . The results showed that hygroscopicity and humidity-retaining ability of HECH was better than chitin ,but not as good as glycerine and propylene glycol.
The factors of influence on rheological property of HECH water solution were studied at different mass percentage (1%-2.8%) and different temperature (25 -45). The results show it was a pseudoplastic fluid. The flowing behaviour was coincided with power-law. As far as the experimental data were concerned, they were processed with regression method. Thus, the semi-experimental data fitting formula
under certain temperature were gotten. The result of thixotropic experiment of series different HECH solution shows they are positive thixotropic liquid. Three novel hydrogels based on HECH was obtained by using glutaraldehyde(GA) epichlorohydrin (ECH) and PTGE as crosslinking reagents respectively. The swelling behaviour, swelling kinetics of HECH hydrogels and the effects of temperature , pH value on the swelling ratio of hydrogels were studied . The results showed that : (1) the swelling ratio of hydrogels decreased with the increase of dosage of crosslink reagents. (2) amount of liber amino-group of hydrogels was decreased with the increase of dosage of crosslink reagents. (3) The hydrogels exhibited a typical pH-sensitivity property .
ECH-HECH hydrogel was activated by epoxy chloropropane on which ethanediamine and hexamethylendiamine were bonded as spacers. Orthogonal design was used to acquire optimal reaction conditions of activation. The amount of amino-group , swelling behaviour , swelling kinetics of hydrogels and the effects of temperature , pH value on the swelling ratio of hydrogel were studied . The results showed that ammates hydrogels had better pH sensitivity than former hydrogels .
A series of interpenetrating polymer network hydrogels composed of different amount of PAA and HECH was prepared. The IR spectra and scanning electron microscope of HECH, PAA and IPN hydrogels confirmed that PAA and HECH was formed through chemical bond interaction. The IPN hydrogel exhibited a typical pH-sensitivity. The swelling ratio of hydrogels increased with the increase of temperature in artificial intestinal juice.
The sustained-release drug systems of dichlofenac potassium and ibuprofen based on PAA/HECH IPN were prepared . The release experiments showed perfect release behaviors in artificial intestinal juice, especially for dichlofenac potassium sustained-release drug systems . This IPN system was expected to be used as a good drug delivery system for enteric medicine .
引文
1.杜予民.甲壳素化学与应用的新进展.武汉大学学报(自然科学版),2000,46(2):181-186
2.康卓,董哲.甲壳素开发应用的新进展.辽宁化工,2001,30(5):208-211
3.张舫,刘祖亮,叶志文 甲壳素/壳聚糖改性研究评述.应用开发,2000,28(12):27-29
4.叶昌明,吴云丹,韩怀芬.水溶性甲壳素衍生物的制备、性质及应用.化工纵橫,1999,(11):5-10
5. Ronald Hackman, Mary Goldberg. Carbohydrate Reseach, 1974,(38):34-45
6. Hidennori Yamada, Taiji Imoto. A convenient synthesis of glycolchitin, a substrate of lysozyme. Carbohydrate Research 1981(92):160-162
7.章朝晖,黄平.甲壳素衍生物的制备工艺.广西化工:2000,29(3):21-24
8. Martinou Aggeliki, Koutsioulis Dimitris, Bouriotis Vassilis. Protein Expression and Purification, 2002 24(1):111-116
9. Szewczyk Krzysztof W, Orzeszak, Malgorzata. Purification and properties of chitin deacetylase from Absidia orchidis 2002(2):48-59
10.李柯,陈自力,陈蕾等.甲壳质及其衍生物的化学活性和应用.合成技术及应用,15(1):36-40
11. Majeti N.V., Ravi Kumar. Areview of chitin and chitosan application Reactive & Functional Polymers, 2000 (46): 1-27
12.黄光佛,卿胜波,李胜彪等.多糖类生物医用材料—甲壳素和壳聚糖的研究及应用.高分子通报.2001(3):43-49
13.李鹏程,宋金明.甲壳质/壳聚糖及其衍生物的应用化学.海洋科学.1998(5):25-29
14.董炎明,汪剑炜,袁清.甲壳素—一类新的液晶性多糖.化学进展.1999,11(4):416-428
15.董炎明,袁清.生物高分子液晶的新家族—甲壳素及其衍生物.高分子通报,1999(4):48-56
16.张秋华.唐小琪.水溶性甲壳素衍生物保湿性能的研究.日用化妆品工业,1995(3):13-15
17.刘玉兰,王娟,张吉平.皮肤保湿剂及其性能评价方法的研究.日用化学工业,1999(5):52-54
18.陈碧琼,孙康,范永忠等.甲壳素溶液流变性能的初步研究.功能高分子学报.2000(15):311-314
19.张黎明,黄少杰,陈丹青等.均相CMC/HEC复合溶液的流变性.化学物理学报,1999(3):380-383
20.王铁群,阮金月,颜少琼等。纤维素LiCl/DMAc溶液流变性能研究。纤维素科学与技术,1996(4):32-36
21.张军,吴石山,郑昌仁等。SBS浓溶液流动行为与黏度模型的研究.高分子材料科学与工程,2002(5):163-166
22.戴肖南,侯万国,李淑萍等.Mg-Al-MMH-高岭土分散体系触变性研究.高等学校化学学报.2001,22:1578-1580
23.李淑萍,侯万国,戴肖南等.剪切速率对Fe-Al-Mg-MMH/钠质蒙脱土悬浮体触变性的影响.化学学报.2002,60(4):749-752
24.李淑萍,侯万国,戴肖南等.pH值对Fe-Al-Mg-MMH/钠质蒙脱土悬浮体触变性的影响.高等学校化学学报.2002,23:1763-1766
25.刘科.剪切速率和静置时间对Fe-Al-Mg-MMH/钠质蒙脱土悬浮体复合触变性体系触变性的影响.胶体与聚合物.2002,20(3):24-26
26.陈坤杰.蜂乳的触变性研究.食品科学.2001,22(4):28~31
27.龚剑萍智能型凝胶海外高分子科学新进展.1997
28.翟茂林,哈鸿飞.水凝胶的合成、性质及应用.大学化学.2001,16(5):22-27
29.卓仁禧,张先正.温度及pH敏感聚(丙烯酸)/聚(N-异丙基丙烯酰胺)互穿聚合物网络水凝胶的合成及性能研究.高分子学报.1998(1):39-42
30.卓仁禧,张先正.温度及pH敏感聚(丙烯酸)-co-(丙烯腈)水凝胶的合成及性能研究.高分子学报.1997(4):500-503
31.张先正,卓仁禧.温度敏感(N-异丙基丙烯酰胺)/聚(乙烯醇)水凝胶的制备及性能研究,高等学校化学学报,2000,21:1776-1778
32.张先正,卓仁禧.快速温度敏感聚(N-异丙基丙烯酰胺-co-丙烯酰胺)水凝胶的制备及性能研究.高等学校化学学报,2000,21:1309-1311
33.王金环,杜声亮,王士奎等。壳聚糖水凝胶溶胀性能的研究,化学世界,1993:122-125
34.蒋丽霞,李智,董加喜.壳聚糖温敏性凝胶的制备及其热敏性实验研究.上海生物医学工程.2002,23(2):19-21
35.李文俊,王汉夫,卢玉华等.壳聚糖/聚丙烯酸配合物半互穿聚合物网络膜及其对pH
和离子的刺激响应.高分子学报.1997(1):106-110
36. Jin Hong Kim, Young Moo Lee. Synthesis and properties of diethylaminoethyl chitosan. Polymer. 1993,34(9):1952-1956
37.黄荣华,杜予民,陈凌云等.pH值对壳聚糖/羧甲基壳聚糖水凝胶溶胀行为的影响.武汉大学学报.2003(4):465-469
38.何东保,石毅,冯峰等.壳聚糖/黄原胶凝胶化性能的研究.武汉大学学报.2001(6):717-720
39.方波,江体乾.磺化羟丙基壳聚糖凝胶选择吸附血液低密度脂蛋白.华东理工大学学报.1998(2):134-138
40.朱爱萍,王石泉,成大明等.成纤维细胞在壳聚糖PHEA水凝胶膜上的粘附与生长行为.生物工程学报.2002(1):109-111
41.吴宁萍,张小平,焦长宽.双氯芬酸钠缓释微丸胶囊的制备.中国现代应用约学杂志.2001,18(4):290-292
42.杜青,张汝华,孙淑英.布洛芬缓释颗粒的制备及其溶出度研究.中国医药工业杂志.1993,24(3):117-120
43.庄意冰,王春龙.一种双氯芬酸钠控释片的制备及体外释放研究.中国药学杂志.1999.34(1):30-32
44.卢凤琦.曹宗顺,赵焰.中国医药工业杂志,1996:27(6):247
45.王亚敏,石庭森.顺铂壳聚糖微球制备工艺的研究.军事医学科学院院刊.1996,20(3):195~198
46. Fwu-long Mi, Yi-Mei Lin, Yu-Bey Wu, Chitin/PLOA blend microspHeres as a biodegradable drug-delivery system: pHase-separation, degradation and release behavior. Biomaterials. 2002(23):3257-3267
47.王奎旗,管华诗.5-氟尿嘧啶壳聚糖缓释微囊制备工艺研究.青岛海洋大学学报.2000(4):614-618
48.黄月文,罗宣干,卓仁禧.甲壳胺药膜的控制释放研究.广州化学.1996(4):58-63
49.刘晨光,刘成圣,孟祥红等.壳聚糖作为药物缓释材料的研究进展.高技术通讯.2003(3):98-103
50.孟平蕊,李良波.张建群等.壳聚糖/生发药物缓释膜的制备及性能.化学通报.2002(12):836-839
51.陶杰,王文伟,丁星等.几丁糖万古霉素缓释放系统的制备.中国矫形外科杂志.2002.9(7):694-695
52.刘祖雄,李晓东,汤韧等.壳聚糖—恶丙嗪缓释片的研制.中国药房.2001(9):532-533
53.杨红梅,葛为公,文灿丽等.阿司匹林壳聚糖缓释片的试制.广西医科大学学报.2002,19(5):690—691
54.李方,赵峰,尹玉姬等.壳聚糖基智能凝胶材料及其应用,化学通报.2001(3):129-133
55.丁明,施建军,皇甫立霞等.壳聚糖微球的制备研究.化学世界.1998(12):636-640
56.白渝平,杨荣杰,李建民等.PVA-PAA IPN水凝胶的制备及其溶胀性质研究.高分子材料科学与工程.2002,18(1):99-101
57.刘鹏飞,彭静,吴季兰.辐射交联制备改性CMC水凝胶的溶胀行为研究.高分子学报.2002.(6):756-759
58.董聿生,梁峰,金红霞等.新型磁性亲和吸附剂的制备及其在尿激酶纯化中的应用研究.高等学校化学学报.2002,23:1013-1017
59.刘建国,丛威,欧阳藩等.环氧氯丙烷活化甲基丙烯酸羟乙酯-苯乙烯共聚球状珠体及其在固定青霉素酰化酶中的应用.化工冶金.2000,21(3):278-282
60.董聿生,梁峰,余向阳.磁性琼脂糖亲和吸附剂的合成与应用.西北大学学报.2001,31(2):121-123
61.董聿生,梁峰,余向阳.新型磁性葡聚糖亲和吸附剂的制备及其在尿激酶纯化中的应用研究.色谱.2001,19(1):21-24
62.曲荣军,刘庆俭.PEG双缩水甘油醚交联壳聚糖的制备及其对金属离子的吸附性能.环境化学.1996,15(1):41-46
63.许立忠,马建标,何炳林.以交联聚乙烯醇为载体的阴离子交换剂的合成与性能研究.高等学校化学学报.1996,17:151-155
64.孔德领,代军,陈长治等.球形纤维素固定化DNA制备免疫吸附刑.高等学校化学学报.2000,21:1848-1851
65.魏斌,袁直,何炳林.含氨基、羟基吸附剂对胆红素的吸附.离子交换与吸附.1997,13(4):373-377
66.景利,曾仁杰,唐勇胜.布洛芬人工骨的制备及体外释药试验.中国医院药学杂志,1999,19(11):659-662
67.尹承慧,侯春林,蒋丽霞等.环丙沙星/壳聚糖植入微球的制备及其体外释放研究.第二
军医大学学报.2002,23(5):536-539
68.中华人民共和国卫生部药典委员会编.中华人民共和国约典:一九九五年版(二部)北京:化学工业出版社,1995.114:附录68:附录177:506
69.蒋挺大.壳聚糖.[M]北京:化学工业出版社.2001.12:160-203