Progress in heparin and heparin-like/mimicking polymer-functionalized biomedical membranes

Cheng, Chong; Sun, Shudong; Zhao, Changsheng

doi:10.1039/c4tb01390e

Cited by 152 publications

(120 citation statements)

References 172 publications

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“…However, its intensity vanishes at higher blend composition of PU i.e., the 70/30 and 60/40 membranes (Fig. 54,36 This result establishes the better compatibility between the individual polymers. Pure PU membrane ( Fig.…”

Section: Ftir Analysis Of the Pan/peg Blend Membranesmentioning

confidence: 59%

“…Zavastin et al 31 reported the successful application of PU/CA blend membranes in wastewater treatment in the textile industry. [34][35][36] In addition, better antifouling and antithrombotic properties using PES/PU composite membranes during dialysis was carried out by Yin et al 37 A recent report by Roy et al 38 showed that a PSF/PVP/PEG blend membrane was found to have adequate cyctocompatibility and blood compatibility for hemodialysis. The ux and protein rejection were increased for the blend ultraltration (UF) membranes with dimethylacetamide (DMAc) when compared to dimethylformamide (DMF) as a solvent.…”

Section: Introductionmentioning

confidence: 99%

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Preparation, characterization and antifouling properties of polyacrylonitrile/polyurethane blend membranes for water purification

Panda

2015

RSC Adv.

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Casting of flat sheet polyacrylonitrile (PAN)/polyurethane (PU) blend membranes was reported for the first time in this work. PU makes the membrane more porous. Ternary phase diagram indicates that the addition of PU increases the thermodynamic instability of the blend. The average pore size of the membrane increased from 11 nm to 18 nm for pure PAN and the PAN/PU blend membranes. The membranes were characterized in terms of permeability, porosity, molecular weight cut-off (MWCO), contact angle, mechanical strength, scanning electron microscope (SEM), atomic force microscope (AFM), differential scanning calorimetry (DSC) and Fourier transform infrared spectroscopy (FTIR). The AFM images indicated that the surface roughness of the membrane increased with an increase in the concentration of PU. Addition of PU also imparted hydrophilicity to the membranes. FTIR and DSC measurements confirm the polymer compatibility of the PAN/PU blend. The PAN/PU blend 70/30 membrane exhibited the maximum antifouling characteristics with a 99% flux recovery ratio associated with the complete removal of turbidities and organic matter.

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Section: Ftir Analysis Of the Pan/peg Blend Membranesmentioning

confidence: 59%

Section: Introductionmentioning

confidence: 99%

Preparation, characterization and antifouling properties of polyacrylonitrile/polyurethane blend membranes for water purification

Panda

2015

RSC Adv.

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“…[28][29][30][31] The purified platelets are used as the models for platelet capture on the patterned surface. [28][29][30][31] The purified platelets are used as the models for platelet capture on the patterned surface.…”

Section: Cell Capture On the Patterned Surfacementioning

confidence: 99%

Capturing red blood cells from the blood by lectin recognition on a glycopolymer-patterned surface

et al. 2016

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A newly glycopolymer-patterned surface for capturing red blood cells (RBCs) is demonstrated. Our strategy is based on the surface-initiated photopolymerization of 2-acryl-amido-2-methylpropane sulfonic acid (AMPS) on a thermoplastic elastomer, the patterning of poly(D-gluconamidoethyl methacrylate) (PGAMA, glycopolymer) micro-domains on the PAMPS layer with photomask-assisted photolithography, followed by the generation of a phytohemagglutinin (PHA) array on the patterned surface through lectin-carbohydrate recognition. We demonstrate that the bi-component polymerpatterned surface with high lateral resolution is successfully fabricated; the PAMPS layer with patterned glycopolymer domains remains hydrophilic to resist non-specific plasma protein adsorption and cell adhesion; the PHA array on the patterned PGAMA domains induces nearly no platelet adhesion on the patterned surface, but shows high capability for capturing RBCs in the blood, and in addition, the captured RBCs maintain cellular integrity and function. Our work presented herein not only paves a new way for capturing RBCs from the blood, but also establishes a basic principle to capture non-adherent cells in the blood or biological fluid without damage.

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“…Therefore, much attention has been paid to developing new synthetic macromolecules to replace heparin . It is believed that the bioactivity of heparin is mainly caused by the active sequence of pentasaccharide, molecular conformation, and ionic functional groups (sulfonate, sulfamide, and carboxylate) . Recent studies indicated that polymers with sulfonate, sulfamide, and/or carboxylate as pendant groups possess partial functions of heparin, such as anticoagulant ability and cell affinity .…”

Section: Introductionmentioning

confidence: 99%

Super-Anticoagulant Heparin-Mimicking Hydrogel Thin Film Attached Substrate Surfaces to Improve Hemocompatibility

Cui

Jiang

et al. 2016

Macromol. Biosci.

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In this study, heparin-mimicking hydrogel thin films are covalently attached onto poly(ether sulfone) membrane surfaces to improve anticoagulant property. The hydrogel films display honeycomb-like porous structure with well controlled thickness and show long-term stability. After immobilizing the hydrogel films, the membranes show excellent anticoagulant property confirmed by the activated partial thromboplastin time values exceeding 600 s. Meanwhile, the thrombin time values increase from 20 to 61 s as the sodium allysulfonate proportions increase from 0 to 80 mol%. In vitro investigations of protein adsorption and blood-related complement activation also confirm that the membranes exhibit super-anticoagulant property. Furthermore, gentamycin sulfate is loaded into the hydrogel films, and the released drug shows significant inhibition toward E. coli bacteria. It is believed that the surface attached heparin-mimicking hydrogel thin films may show high potential for the applications in various biological fields, such as blood contacting materials and drug loading materials.

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Progress in heparin and heparin-like/mimicking polymer-functionalized biomedical membranes

Cited by 152 publications

References 172 publications

Preparation, characterization and antifouling properties of polyacrylonitrile/polyurethane blend membranes for water purification

Preparation, characterization and antifouling properties of polyacrylonitrile/polyurethane blend membranes for water purification

Capturing red blood cells from the blood by lectin recognition on a glycopolymer-patterned surface

Super-Anticoagulant Heparin-Mimicking Hydrogel Thin Film Attached Substrate Surfaces to Improve Hemocompatibility

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