聚乳酸-聚羥基乙酸共聚物(PLGA),可定制(共聚比例和分子量)
一、產品規格:
| 規格 | 價格(元) | 折扣(%)
| 實付(元) | 是否現貨 |
| 1g | 75 |
|
| 2周之內發貨 |
| 5g | 350 |
|
| 2周之內發貨 |
| 1kg詢價 | / |
|
| 咨詢 |
二、產品介紹:
貨號 | PL-3004-PLGA,90:10~50:50可定制 |
名稱 | 聚乳酸-羥基乙酸共聚物,聚丙交酯-乙交酯,PLGA |
英文名 | poly(lactic-co-glycolic acid),Poly(ctide-co-glycolide) |
同用名 | 聚丙交酯-乙交酯, 聚乳酸-聚羥基乙酸,丙交酯-乙交酯共聚物,聚乳酸-羥基乙酸共聚物,poly(lactic-co-glycolic acid),Poly(ctide-co-glycolide),PLGA |
基本描述 | 聚乳酸-羥基乙酸共聚物(poly(lactic-co-glycolic acid),PLGA)是一種降解速率可調的可降解高分子有機化合物,是聚乳酸(PLA)和聚羥基乙酸(PGA)的無規共聚物,化學式為[C3H4O2]m[C2H2O2]n,由一定比例的乙交酯(LA)和丙交酯(GA)兩種單體通過開環聚合而成。PLGA具有良好的生物降解性、生物相容性、無毒、良好的成囊和成膜的性能,被廣泛應用于制藥、醫用工程材料和現代化工業領域。由于LA和GA的降解速率存在明顯區別,因此可以通過調節LA與GA的投料比而獲得不同降解時間的共聚物。商品化PLGA醫用產品包括可吸收手術縫合線、藥物載體、骨釘骨板、血管支架等。PLGA的良好力學性能、易加工性能及支持細胞粘附和生長作用,使它具有潛在的組織工程和再生醫學應用性,可用于組織或器官的3D支架。而其體內可降解性和降解速率可調的特性,使其普遍適用于人體不同組織、器官的再生與修復需要。因此,PLGA也是一種理想的再生醫學材料。 
PLGA分子結構式 |
CAS號 | 30846-39-0 |
外觀 | 白色顆粒或粉末。 |
特性粘度 |
|
存儲條件 | 真空或低溫保存。 |
使用方法 | 溶劑溶解或熔融成型。 |
分裝規格 | 1g/5g/1kg |
注釋 | 本品僅供科研使用,不可用于人體臨床實驗。 |
三、使用方法:
(一)玻片涂膜(用于細胞培養)
1、取一定量聚合物溶于氯仿,制成0.1%聚合物溶液。為獲得均質薄膜,溶解過程中需攪拌子攪拌或超聲處理20-30min,以確保聚合物完全溶解。
2、取10-30ul聚合物溶液,滴加在硅化玻片表面,快速推片或拉片涂膜,常溫下自然干燥30min,真空干燥6-12h。
3、置于多孔板中,紫外照射10-15分鐘,或臭氧熏蒸30分鐘后用于細胞培養。
4、根據研究目的不同,還可對玻片表面的聚合物薄膜進行表面修飾處理。不同組別可設置3-5個平行樣,以便進行定量分析。
5、其它研究方法可參照文獻進行。
(二)使用方法及案例(參考文獻):
1、骨組織工程支架
① 溶液澆鑄/粒子瀝濾法
In vivo mineralization and osteogenesis of nanocomposite scaffoldof poly(lactide-co-glycolide) and hydroxyapatite surface-grafted withpoly(l-lactide). Biomaterials, 2009, 30:58-70.
Peibiao Zhang, Zhongkui Hong, Ting Yu, Xuesi Chen, Xiabin Jing.
RGD-conjugated copolymer incorporated into composite ofpoly(lactide-co-glycotide) and poly(l-lactide)-grafted nanohydroxyapatite forbone tissue engineering. Biomacromolecules, 2011, 12(7):2667-2680.
PeibiaoZhang, Haitao Wu, Han Wu, ZhongwenLu, Chao Deng, Zhongkui Hong,XiabinJing, XuesiChen
In vivo degradation behavior of porous composite scaffolds ofpoly(lactide-co-glycolide) and nano-hydroxyapatite surface grafted withpoly(L-lactide). Chinese Journal of Polymer Science, 2014, 32(6):805-816.
Yu-feng Tang, Jian-guo Liu, Zong-liang Wang, Yu Wang, Li-guo Cui, Pei-biaoZhang*, Xue-si Chen.
Tissue-engineered composite scaffold ofpoly(lactide-co-glycolide) and hydroxyapatite nanoparticles seeded withautologous mesenchymal stem cell (MSCs) for bone regeneration. J ZhejiangUniv-Sci B (Biomed & Biotechnol), 2017, 18(11):963-976.
Bing ZHANG, Pei-biao ZHANG, Zong-liang WANG, Han WU.
② 熔融成型/粒子瀝濾法
The Nano-Composite Scaffold of Poly(lactide-co-glycolide)andHydroxyapatite Surface-Grafted with L-lactic Acid Oligomer for Bone Repair.Acta Biomaterialia, 2009, 5:2680-2692.
Yang Cui, Yi Liu, Yi Cui, Xiabin Jing, Peibiao Zhang*, XuesiChen.
Enhanced in vitro mineralization and in vivo osteogenesis ofcomposite scaffolds through controlled surface grafting of L-lactic acidoligomer on nano-hydroxyapatite. Biomacromolecules, 2016, 17(3):818-829.
Wang, Zongliang, Xu, Yang, Wang, Yu , Ito, Yoshihiro, Zhang, Peibiao*, Chen,Xuesi
③ 單溶劑冷凍成型法
Preparation ofPorous Nanocomposite Scaffolds with HoneycombMonolith Structure by OnePhase Solution Freeze-Drying Method. Chinese Journalof Polymer Science, 2011, 29(2):215-224.
Yang Xu, Duo Zhang**, Zong-liang Wang, Zhan-tuanGao, Pei-biao Zhang* and Xue-siChen.
④ 可注射原位固化成型法
An injectable hydroxyapatite/poly(lactide-co-glycolide)composite reinforced by micro/nano-hybrid poly(glycolide) fibers for bonerepair. Materials Science and Engineering: C, 2017, 80:326-334.
Yuhang Zhu,Zongliang Wang,Hongli Zhou,Linlong Lib,Qingsan Zhu*,Peibiao Zhang*.
In vitro degradation behavior ofhydroxyapatite/poly(lactide-co-glycolide) composite reinforced bymicro/nano-hybrid poly(glycolide) fibers for bone repair. Journal of MaterialsChemistry B, 2017, 5(44):8695-8706.
Yuhang Zhu, Zongliang Wang*, Linlong Li, Daqian Gao, Qinli Xu, Qingsan Zhu*,Peibiao Zhang*.
⑤ 靜電紡絲載藥纖維氈
Methylsulfonylmethane-loaded electrospunpoly(lactide-coglycolide) mats for cartilage tissue engineering. RSC Advances,2015, 5:96725-32.
Zongliang Wang, Yu Wang, Peibiao Zhang*, and Xuesi Chen.
⑥ 熔融旋碟紡絲纖維
A Novel Nano/Micro-Fibrous Scaffold by Melt-Spinning Method forBone Tissue Engineering. Journal of Bionic Engineering, 2015, 12(1):117-128.
Liguo Cui, Ning Zhang, Weiwei Cui, Peibiao Zhang, Xuesi Chen.
Improved cellular infiltration into 3D interconnectedmicrochannel scaffolds formed by using melt-spun sacrificial microfibers. RSCAdvances, 2016, 6:2131-33.
Zongliang Wang, Tianlin Gao, Liguo Cui, Yu Wang, Peibiao Zhang* and Xuesi Chen.
⑦ 溶劑交換3D打印成型法
3D-printing of solvent exchange deposition modeling (SEDM) for abilayered flexible skin substitute of poly (lactide-co-glycolide) withbioorthogonally engineered EGF. Materials Science & Engineering C, 2020,112:110942.
Daqian Gao, Zongliang Wang, Zhenxu Wu, Xincui Shi, Min Guo, Yu Wang*, ZhenhuaGao*, and Peibiao Zhang*, Yoshihiro Ito.
⑧ 微流控二流法制備微載體(微球)
Assessment of nano-Hydroxyapatite and Poly(Lactide-co-Glycolide) nanocomposite microspheres fabricated by novel airflowshearing technique for in vivo bone repair.Materials Science and Engineering:C,2021, 128: 112299
Song Wenzhi*, Wang Dezhou, Guo Min, Han Chunyu, Zhao Lanlan, Zhang Peibiao*.
2、涂膜法研究成骨活性
聚乳酸接枝改性納米生物玻璃/PLGA復合材料的制備、表面性質及生物活性. 高等學校化學學, 2009, 30(5):1018-1023.
董樹君, 于婷, 魏俊超, 景遐斌, 周延民, 章培標*, 陳學思.
改性納米羥基磷灰石/PLGA復合材料的制備及生物活性. 高等學校化學學, 2009, 30(7):1439-1444.
于婷, 劉婭, 王宇, 景遐斌, 章培標*, 陳學思.
脈沖電刺激對改性納米羥基磷灰石/聚丙交酯-乙交酯復合材料表面成骨細胞增殖及成骨活性的影響[J]. 中國組織工程研究與臨床康復, 2009, 13(16):3065-3069.
于婷, 劉婭, 鄔海濤, 崔巍巍, 王宇, 景遐斌, 章培標*, 陳學思.
電活性可生物降解納米復合材料PAP/op-HA/PLGA的制備及成骨活性. 高等學校化學學, 2011, 32(5):1181-1187.
鄔海濤, 于婷, 朱慶三, 焦自學, 危巖, 章培標*, 陳學思.
Photo-immobilization of Bone Morphogenic Protein 2 on PLGA/HANanocomposite to Enhance the Osteogenesis of Adipose-Derived Stem Cells. RSCAdv., 2016, 6:20202-20210.
Tianlin Gao, Weiwei Cui, Zongliang Wang, Yu Wang, Ya Liu, Ponnurengam SivakumarMalliappan, Yoshihiro Ito and Peibiao Zhang*.
Improved Cell Adhesion and Osteogenesis of op-HA/PLGA Compositeby Poly(dopamine)-Assisted Immobilization of Collagen Mimetic Peptide and OsteogenicGrowth Peptide. ACS Applied Materials & Interfaces, 2016, 8(40):26559-69.
Wang, Zongliang; Chen, Li; Wang, Yu; Chen, Xuesi; Zhang, Peibiao*.
3、功能材料開發
① 載IGF-1微載體用于骨再生
Biodegradable Microcarriers of Poly(Lactide-co-Glycolide) andNano-Hydroxyapatite Decorated with IGF-1 via Polydopamine Coating for EnhancingCell Proliferation and Osteogenic Differentiation. Macromol Biosci., 2015,15(8):1070-80.
Tianlin Gao, Ning Zhang, Zongliang Wang, Yu Wang, Ya Liu, Yoshihiro Ito,Peibiao Zhang*.
DOPA-derived electroactive copolymer and IGF-1 immobilizedpoly(lactic-co-glycolic acid)/hydroxyapatite biodegradable microspheres forsynergistic bone repair.Chemical Engineering Journal, 2021, 416: 129129
Huanhuan Yan, Zongliang Wang, Linlong Li, Xincui Shi, Erna Jia, Qingming Ji, YuWang*, Yoshihiro Ito, Yen Wei, Peibiao Zhang*.
② 可MRI示蹤材料
In vivo MRI and X-ray bifunctional imaging of polymericcomposite supplemented with GdPO4*H2O nanobundles for tracing bone implant andbone regeneration. Advanced Healthcare Materials, 2016, 5(17):2182-90.
Jing Huang; Zhongwen Lv; Yu Wang; Zongliang Wang; Tianlin Gao; Ning Zhang; MinGuo; Haifeng Zou*; Peibiao Zhang*.
Incorporation of Gadolinium Oxide and Gadolinium OxysulfideMicrospheres: MRI/CT Monitoring and Promotion of Osteogenic/ChondrogenicDifferentiation for Bone Implants.ChemNanoMat,2020,6(12):1819-1832.
Jing Huang, Zhaoyun Tang, Min Guo, Yu Wang, Zongliang Wang, Zhenxu Wu, PeibiaoZhang*.
Biodegradable GdPO4·H2O/PLGAmicrocarriers for stem cell delivery and non-invasive MRI translocationtracing[J]. Journal of Materials Science, 2022, 57(28):13632-13646.
Wenhao Zhu,Zhenxu Wu,Peng Wang,Tianyi Liu,Min Guo,JiansongJi,Mingfeng He*,Haifeng Wang,Peibiao Zhang*
③ 載DOPA-IGF-1用于神經再生
A Novel Approach via Surface Modification of Degradable PolymersWith Adhesive DOPA-IGF-1 for Neural Tissue Engineering. J Pharm Sci., 2019,108(1):551-562.
Yi Zhang, Zongliang Wang, Yu Wang, Linlong Li, Zhenxu Wu, Yoshihiro Ito, XiaoyuYang*, Peibiao Zhang
Nerve implants with bioactive interfaces enhance neuriteoutgrowth and nerve regeneration in vivo. Colloids and Surfaces B:Biointerfaces, 2022, 218: 112731.
Zongliang Wang, Yi Zhang, Liqiang Wang, Yoshihiro Ito, Gang Li, Peibiao Zhang*.
④ DOPA-NGF微載體用于神經再生
Bioorthogonal DOPA-NGF activated tissue engineering microunitsfor recovery from traumatic brain injury by microenvironment regulation. ActaBiomaterialia, 2022, 150: 67-82.
Wenhao Zhu, Li Chen, Zhenxu Wu, Wenzhong Li, Xiaolong Liu, Yu Wang, Min Guo,Yoshihiro Ito, Liqiang Wang, Peibiao Zhang*, Haifeng Wang*.
⑤ 電活性導電復合材料
電活性和生物活性多巴-胰島素樣生長因子-1@聚(乙交酯-丙交酯)/聚(3-己基噻吩)靜電紡絲纖維的制備及神經組織工程應用.應用化學,2019, 36 (9): 1003-1014.
張守燕, 胡江磊, 史新翠, 章培標, 伊藤嘉浩
Electroactive Composite of FeCl3 -Doped P3HT/PLGA withAdjustable Electrical Conductivity for Potential Application in Neural TissueEngineering.Macromol Biosci. 2019,19(10):e1900147.
Shouyan Zhang, Huanhuan Yan, Jui‐Ming Yeh, Xincui Shi*,Peibiao Zhang*.
⑥ 磁響應性智能材料
Synergistic osteogenesis promoted by magnetically actuatednano-mechanical stimuli. Nanoscale, 2019, 11, 23423-2343.
Hao, Lili; Li, Linlong; Wang, Peng; Wang, Zongliang; Shi, Xincui; Guo, Min ;Zhang, Peibiao*.
Spatiotemporal magnetocaloric microenvironment for guiding thefate of biodegradable polymer implants. Advanced Functional Materials, 2021,31(15): 2009661.
L. Hao, J. Li, P. Wang, Z. Wang, Z. Wu,Y. Wang, Z. Jiao, M. Guo,* T. Shi,Q.Wang, Y. Ito, Y. Wei,P. Zhang*.
⑦ 電和磁共響應性智能材料
The electric and magnetic responsive nanocomposite of GdPO4·H2O/P3HT/PLGA with electrical stimulation for synergisticallyenhancing the proliferation and differentiation of pre-osteoblast.New Journalof Chemistry,2019,43:17315-17326
Yan, Huanhuan; Li, Linlong; Wang, Yu; Huang, Jing; Wang, Zongliang; Shi,Xincui; Zhang, Peibiao*.
⑧ 可載干細胞PVA /PLGA雙層敷料
Stem Cell Seeded and Silver Nanoparticles Loaded BilayerPLGA/PVA Dressings for Wound Healing.Macromolecular Bioscience,2020,20(10):e2000141
Tianlin Gao, Chunyan Tian, Zepeng Ma, Zunyan Chu, Zongliang Wang, PeibiaoZhang.
⑨ 壓電性雙示蹤智能材料
Gadolinium-doped BTO Functionalized Nanocomposites with EnhancedDual-imaging of MRI and X-Ray to Simulate the Electrical Properties of Bone”. ACS Applied Materials & Interfaces, 2020, 12(44): 49464-49479
Peng Wang, Lili Hao, Zongliang Wang, Yu Wang, Min Guo*, Peibiao Zhang
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