Synthesis and characterization of poly(ethylene oxide)-based glycopolymers and their biocompatibility with osteoblast cells

Trinadh, Mummuluri; Govindaraj, Kannan; Rajasekhar, Tota; Dhayal, Marshal; Sainath, Annadanam V. Sesha

doi:10.1002/pi.4854

Cited by 14 publications

(11 citation statements)

References 56 publications

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“…Preparation of P(MTAGP) was carried using our earlier report. 30 That is, MTAGP monomer (5 g;0.012 mol) and 15.0 mL of dry 1,4-dioxane solvent were placed into a 50 mL schlock flask fitted with rubber septa and cleansed with nitrogen for 20 min. A total of 0.276 g of HMTETA (0.0012 mol) and 0.117 g of EBrIB homopolymer initiator (0.0006 mol) were added to the monomer solution through micro syringe and then the mixture was degassed with nitrogen for 10 min to remove air.…”

Section: Glycomacromolecular Architectures Via Atrp Methodsmentioning

confidence: 99%

“…The product was isolated using the procedure reported earlier. 30 This procedure was adopted for the synthesis of 3-and 4-armed glycopolymer architectures [3-armed P(MTAGP) and 4-armed Figure S4). 13 Figure S5).…”

Section: Glycomacromolecular Architectures Via Atrp Methodsmentioning

confidence: 99%

“…Methacryl-2,3,4,6-tetra-O-acetyl-D-glucopyranoside (MTAGP) was prepared, and the formation of the product was authenticated by 1 H NMR, 13 C NMR, and FT-IR according to a published protocol. 30 3-Armed Initiator: 2-[(2-bromo-2-methylpropanoyloxy) methyl]-2-Ethylpropane-1,3-Diyl Bis(2-bromo-2-methylpropanoate) Initiator. A total of 100 mL THF was taken in a 250 mL round bottomed flask and added trimethylolpropane (TMP) (5.0 g;0.0379 mol) and Et 3 N (23.78 g; 0.235 mol).…”

Section: Synthesismentioning

confidence: 99%

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Synthesis of homo/3‐ and 4‐armed hydrophilic glycopolymers: To promote aniline to polyaniline‐glycopolymers for fluorescence, electro active material, and electrostatic discharge applications

Karri

Nakka

Sainath

et al. 2019

J of Applied Polymer Sci

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Preparation of electrically conducting polymer film with homogeneity is very important work for electrical and electronic applications. In order to make homogenous conductive polyaniline film, we selected water soluble glycopolymer (GP), as dopant for polyaniline. Pendant carbohydrates water soluble glycopolymer architectures, such as, homo, 3 and 4 multi-armed polymers were prepared from methacryl-2,3,4,6-tetra-O-acetyl-D-glucopyranoside (MTAGP) monomer and EBrIB and 3-and 4-aremed initiators via ATRP polymerization followed by deacetylation process. This water soluble glycopolymer was used as dopant for polyaniline salt via the chemical oxidative emulsion polymerization of aniline using glycopolymer and surfactant by ammonium persulfate oxidant. Sulfate and dodecylhydrogen sulfate (DHS) groups are doped on polyaniline system via protonating H + , whereas, glycopolymer involves on polyaniline through hydrogen bonding (PANI-DHS-SA-GP). Coated film of PANI-DHS-SA-GP salt showed resistance in ESD range. PANI-DHS-SA-GP showed fluorescence and Hydrophilicity. Electrochemical performance of PANI-DHS-SA-GP as electrode material in supercapacitor cell was found from chargedischarge measurement.Among the conducting polymers, polyaniline is an important conducting polymer because of their many essential properties, applications, and low-cost material. 9 Although the insoluble and recalcitrant nature of mineral, acid doped polyaniline hindering an impeding job for its applications first and foremost, throughout the years, endeavors by a few research groups have extensively enhanced the field regarding combination, processability, and gadget applications. 10-13 Solution processable polyaniline salt discovers applications in different regions, for example, sensors, 14 electro chromic gadgets, 15 light-producing diodes, 16 solar cells, 17 rechargeable batteries, 18 super capacitors, 19 energy components, 20 anticorrosion coatings, 21 electrostatic discharge materials. 22

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Section: Glycomacromolecular Architectures Via Atrp Methodsmentioning

confidence: 99%

Section: Glycomacromolecular Architectures Via Atrp Methodsmentioning

confidence: 99%

Section: Synthesismentioning

confidence: 99%

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Synthesis of homo/3‐ and 4‐armed hydrophilic glycopolymers: To promote aniline to polyaniline‐glycopolymers for fluorescence, electro active material, and electrostatic discharge applications

Karri

Nakka

Sainath

et al. 2019

J of Applied Polymer Sci

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“…For example, atom transfer radical polymerization (ATRP) was used to synthesize water‐soluble copolymers based on the unprotected glycomonomer 2‐{[( d ‐glucosamin‐2‐N‐yl)carbonyl]oxy}ethyl and butyl acrylate that present the capability to self‐assemble in water and to interact with lectin. ATRP was also used for poly(ethylene oxide)‐ block ‐poly(methacryl‐ d ‐glucopyranoside) synthesis . This copolymer is also water soluble, amorphous, and presents osteoblast cell adhesion.…”

Section: Introductionmentioning

confidence: 99%

“…This copolymer is also water soluble, amorphous, and presents osteoblast cell adhesion. Both ATRP‐synthesized copolymers showed a low molar mass dispersity ( Đ M ) and typical controlled polymerization kinetics . Reversible addition–fragmentation chain transfer polymerization (RAFT) was used to synthesize poly(acryloyl glucosamine) (PAGA), a block copolymer PAGA‐ b ‐P( N ‐isopropylacrylamide) and a three‐arm PAGA star‐like structure .…”

Section: Introductionmentioning

confidence: 99%

Sucrose Methacrylate-Based Amphiphilic Block Copolymers

Almeida

Loiola

Petzhold

et al. 2016

Macromol. Chem. Phys.

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Amphiphilic block copolymers based on sucrose methacrylate (SMA) and alkyl methacrylates (alkyl  =  ethyl, butyl, and hexyl) are synthesized by atom transfer radical polymerization, employing CuBr/CuBr2/2,2,2‐tribromoethanol/1,1,4,7,10,10‐hexamethyltriethylenetetramine as a catalyst/deactivator/initiator/ligand system. Poly(alkyl methacrylate)s with similar polymerization degrees are used as macroinitiators for SMA polymerization. The introduction of PSMA blocks with molar mass varying from 2000 to 12 000 g mol−1 results in changes in the solubility, thermal stability, and water swelling capacity. The copolymers are able to stabilize water/oil emulsion and also to self‐assemble in solution, as verified by gel permeation chromatography and dynamic light scattering, as well as in solid state, as verified by atomic force microscopy.

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Rationally designed curcumin laden glycopolymeric nanoparticles: Implications on cellular uptake and anticancer efficacy

Rao

Sharma

Palodkar

et al. 2020

J of Applied Polymer Sci

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Overexpression of glucose transport proteins (GLUTs) plays a pivotal role in the survival of cancer cells. Hence, targeting GLUTs receptors using glucose‐based polymers can fill up the lacuna of cancer treatment by confining the dissemination and accumulation of chemotherapeutic drugs on cancer cells. The present study addressed the preparation of glycohomopolymer (PMG), PEG‐based di‐ (PEG‐b‐PMG) and tri‐block (PMG‐b‐PEG‐b‐PMG) polymers using atom transfer radical polymerization and their potential in the development of novel nanoparticulate drug delivery system. Curcumin‐loaded glycopolymer nanoparticles were fabricated by nanoprecipitation method and investigated for various physicochemical parameters such as particle size, zeta potential, polydispersity index, drug loading, morphology, and dissolution profile. Homoglycopolymer nanoparticles exhibited lower average particle size (240.16 ± 21.41 nm), higher zeta potential (−28.72 ± 4.25 mV), and entrapment efficiency (74.61 ± 5.03%) compared to their block copolymer counterparts. Optimized formulation exhibited diffusion and dissolution‐controlled drug release behavior. In vitro cell line studies demonstrated significantly superior cytotoxicity, clonogenic inhibitory and cellular uptake potential in MCF‐7 cells besides receptor recognizing property of optimized curcumin nanoparticulate formulation compared to free curcumin. These findings elucidate that curcumin homoglucopyranoside nanocarriers can be a promising drug delivery option for effective management of breast cancer. © 2020 Wiley Periodicals, Inc. J. Appl. Polym. Sci. 2020, 137, 48954.

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Synthesis and characterization of poly(ethylene oxide)-based glycopolymers and their biocompatibility with osteoblast cells

Abstract: Poly(ethylene oxide)-block-poly(methacryl-D-glucopyranoside) (PEO-GP) and poly(methacryl-D-glucopyranoside) (H-GP

Cited by 14 publications

References 56 publications

Synthesis of homo/3‐ and 4‐armed hydrophilic glycopolymers: To promote aniline to polyaniline‐glycopolymers for fluorescence, electro active material, and electrostatic discharge applications

Synthesis of homo/3‐ and 4‐armed hydrophilic glycopolymers: To promote aniline to polyaniline‐glycopolymers for fluorescence, electro active material, and electrostatic discharge applications

Sucrose Methacrylate-Based Amphiphilic Block Copolymers

Rationally designed curcumin laden glycopolymeric nanoparticles: Implications on cellular uptake and anticancer efficacy

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