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《Macromolecular bioscience》2017,17(11)
Polymeric drug delivery system termed as “polyprodrug amphiphile” poly(2‐methylacryloyloxyethyl phosphorylcholine)‐b‐poly(10‐hydroxy‐camptothecin methacrylate (pMPC‐b‐pHCPT) is developed for the prolonged‐acting cancer therapy. It is obtained by two‐step reversible addition–fragmentation chain transfer polymerization of zwitterionic monomer MPC and an esterase‐responsive polymerizable prodrug methacrylic anhydride–CPT, respectively. This diblock polymer is composed of both antifouling (pMPC) and bioactive (pHCPT) segments and the drug is designed as a building block to construct the polymer skeleton directly. Due to its distinct amphiphilicity, the polymer can self‐assemble into micelles with different dynamic sizes by facilely tuning the ratio of MPC/HCPT under physiological conditions. The outer pMPC shell is superhydrophilic to form dense hydrate layer preventing the nanosystem from unwanted nonspecific protein adsorption, which is the main lead cause of the rapid clearance of nanoparticles in vivo, thus facilitating the accumulation of drugs in tumor sites via enhanced permeability and retention effect. The configuration of the polyprodrug amphiphile is confirmed by several measurements. The resistance to albumin adsorption, prolonged plasma retention time, accumulation in tumor sites, and anticancer activity of the micelles is also investigated in vitro and in vivo. This novel amphiphile can be expected as a promising agent for the passive targeted prolonged‐acting cancer therapy. 相似文献
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Pulsed Plasma Polymerization of Cyclic Ethers: Production of Biologically Nonfouling Surfaces 总被引:1,自引:0,他引:1
Wu Yuliang J. Griggs Andrew J. Jen James S. Manolache S. Denes F. S. Timmons Richard B. 《Plasmas and Polymers》2001,6(3):123-144
Polymerization of low molecular weight cyclic ethers was investigated under pulsed plasma conditions. Film formation conditions were adjusted to optimize retention of ethylene oxide (EO) content of the monomers in the resultant plasma generated polymers. To a large extent this goal was achieved with the 12-crown-4 and 15-crown-5 monomers, but not with dioxane. Films obtained from the 12-crown-4 monomer under ultra low power inputs are shown to be highly resistant to protein adsorption, while exhibiting good chemical compositional stability and adhesion during prolonged immersion in aqueous solutions. The dramatic differences observed in contrasting polymer film compositions from 12-crown-4 and dioxane are believed to arise from distinctive differences in the low electron impact fragmentation patterns of these two compounds, as discussed in this report. 相似文献
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Zwitterionic polymers are generally viewed as a new class of nonfouling materials. Unlike their poly(ethylene glycol) (PEG) counterparts, zwitterionic polymers have a broader chemical diversity and greater freedom for molecular design. In this Minireview, we highlight recent microbiological applications of zwitterionic polymers and their derivatives, with an emphasis on several unique molecular strategies to integrate antimicrobial and nonfouling properties. We will also discuss our insights into the bacterial nonfouling performance of zwitterionic polymers and one example of engineering zwitterionic polymer derivatives for antimicrobial wound‐dressing applications. 相似文献
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Chun‐Jen Huang Yuting Li Jordan B. Krause Norman D. Brault Shaoyi Jiang 《Macromolecular rapid communications》2012,33(11):1003-1007
In this work, we study how film thickness and chain packing density affect the protein‐resistant properties of polymer brushes in complex media. Polymer brushes based on dual‐functional poly(carboxybetaine acrylamide) (pCB) were prepared via surface‐initiated photoiniferter‐mediated polymerization. By adjusting UV radiation time and solvent polarity, pCB films with different thicknesses can be achieved and characterized using an ellipsometer. The packing density of pCB polymer chains is directly related to the swelling ratio of swollen to collapsed film thicknesses. Results showed that the dry film thickness alone, used often in the literature, is not sufficient to correlate with nonfouling properties and the chain packing density must be considered for the design of nonfouling surface coatings. 相似文献
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Stimuli‐responsive antifouling polyisobutylene‐based biomaterials via modular surface functionalization 下载免费PDF全文
Alejandra Alvarez Albarran Emily Q. Rosenthal‐Kim Jozsef Kantor Lingyun Liu Zhorro Nikolov Judit E. Puskas 《Journal of polymer science. Part A, Polymer chemistry》2017,55(10):1742-1749
This article demonstrates a new, modular approach to surface functionalization that harnesses chain entanglement. A layer of functionalized polyisobutylene, (PIB)‐ω, where ω = ‐OH, ‐thymine (T), ‐hexaethylene glycol (HEG), poly(ethylene glycol) (‐PEG‐OH), methoxy‐functionalized poly(ethylene glycol) (‐PEG‐OCH3), and ‐tetraethylene glycol‐α‐lipoate (TEG‐αL) was adhered to PIB‐based thermoplastic elastomer (TPE) surfaces. X‐ray photoelectron spectroscopy (XPS) at angles ranging from 20° to 75° showed decreasing polar group concentration with increasing penetration depth, confirming segregation of polar groups toward the surface. Water contact angle (WCA) of the PIB‐based TPE dropped from 95° to 79°?83° upon coating, and soaking in water for 24 h further decreased the WCA. Dynamic WCA measurements showed 40–30° receding angles, showing that stimulus from an aqueous environment elicits enrichment of polar groups on the surface. Fibrinogen (Fg) adsorption on the various surfaces was quantified using surface plasmon resonance (SPR). Static and dynamic WCA did not vary significantly among TPE + PIB‐ω surfaces, but there were dramatic differences in Fg adsorption: 256 ng/cm2 was measured on the native TPE, which dropped to 40 and 22 ng/cm2 on PIB‐PEG‐OCH3 and PIB‐PEG‐OH‐coated surfaces. PIB‐TEG‐αL‐coated surfaces presented the lowest Fg adsorption with 14 ng/cm2. © 2017 Wiley Periodicals, Inc. J. Polym. Sci., Part A: Polym. Chem. 2017 , 55 , 1742–1749 相似文献
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A free‐radical‐polymerizable SSQ/PEG blend with direct patternability has been proposed as an ideal nonfouling material for nanostructure‐based biomedical applications. Cured SSQ/PEG networks show an UV transparency of >90% at 365 nm, high resistance to organic/aqueous solutions, hydrophilicity and Young's moduli of 1.898–2.815 GPa. SSQ/PEG patterns with 25‐nm linewidths, 25‐nm spacing, and an aspect ratio of 4:1 were directly fabricated on transparent substrates by UV embossing, and cured SSQ/PEG networks with long‐term stability under chemical, thermal, and biological stress showed strong resistance to the nonspecific adsorption of biomolecules. These characteristics may offer a new strategy for the development of a number of medical nanodevice applications such as labs‐on‐a‐chip.
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Robert Luxenhofer Corinna Fetsch Arlett Grossmann 《Journal of polymer science. Part A, Polymer chemistry》2013,51(13):2731-2752
Precision synthesis of polymers has been a hot topic in recent years. While this is notoriously difficult to address for polymers with a C? C backbone, Merrifield has discovered a way many decades ago for polypeptides. Using a similar approach, N‐substituted polypeptides, so‐called polypeptoids have been synthesized and studied for about 20 years. In contrast, the living ring‐opening polymerization (ROP) of N‐substituted N‐carboxyanhydrides was among the first living polymerizations to be discovered. More recently, a surge in new synthetic approaches led to the efficient synthesis of cyclic or linear multiblock copolypeptoids. Thus, polypeptoids can be synthesized either by solid phase synthesis to yield complex and exactly defined oligo‐ and small polymers or by ROP of appropriately N‐substituted N‐carboxyanhydrides (NNCA) to give linear, cyclic, or star‐like polymers. Together with an excellent biocompatibility, this polymer family may have a bright future ahead as biomaterials. © 2013 Wiley Periodicals, Inc. J. Polym. Sci., Part A: Polym. Chem. 2013, 51, 2731–2752 相似文献
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