The effect of hyperbranched polyglycerol coatings on drug delivery using degradable polymer nanoparticles

Deng, Yang; Saucier-Sawyer, Jennifer K.; Hoimes, Christopher J.; Zhang, Junwei; Seo, Yu-Mi; Andrejecsk, Jillian W.; Saltzman, W. Mark

doi:10.1016/j.biomaterials.2014.04.038

Cited by 123 publications

(114 citation statements)

References 31 publications

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“…We achieved a loading of CPT in our nanoparticles of $10% by weight; this value is higher than our theoretical loading of 8%, indicating that more PLGA was lost than CPT during the nanoparticle fabrication process. Loss of PLGA during nanoparticle fabrication has been reported previously (Sawyer et al, 2011), and our loading is consistent with the 5-25% loading reported by other groups encapsulating CPT in PLGA (Deng et al, 2014;McCarron et al, 2008). The average hydrated nanoparticle diameter measured by DLS ($200 nm) was larger than the diameter measured by SEM ($120 nm), which is expected, given that NPs will become hydrated in the aqueous environment required for DLS and that a fraction of nanoparticles will experience aggregation after resuspension.…”

Section: Discussionsupporting

confidence: 92%

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Intravenous delivery of camptothecin-loaded PLGA nanoparticles for the treatment of intracranial glioma

Householder

DiPerna

Chung

et al. 2015

International Journal of Pharmaceutics

109

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Effective treatment of glioblastoma multiforme remains a major clinical challenge, due in part to the difficulty of delivering chemotherapeutics across the blood-brain barrier. Systemically administered drugs are often poorly bioavailable in the brain, and drug efficacy within the central nervous system can be limited by peripheral toxicity. Here, we investigate the ability of systemically administered poly (lactic-co-glycolic acid) nanoparticles (PLGA NPs) to deliver hydrophobic payloads to intracranial glioma. Hydrophobic payload encapsulated within PLGA NPs accumulated at ∼10× higher levels in tumor compared to healthy brain. Tolerability of the chemotherapeutic camptothecin (CPT) was improved by encapsulation, enabling safe administration of up to 20mg/kg drug when encapsulated within NPs. Immunohistochemistry staining for γ-H2AFX, a marker for double-strand breaks, demonstrated higher levels of drug activity in tumors treated with CPT-loaded NPs compared to free drug. CPT-loaded NPs were effective in slowing the growth of intracranial GL261 tumors in immune competent C57 albino mice, providing a significant survival benefit compared to mice receiving saline, free CPT or low dose CPT NPs (median survival of 36.5 days compared to 28, 32, 33.5 days respectively). In sum, these data demonstrate the feasibility of treating intracranial glioma with systemically administered nanoparticles loaded with the otherwise ineffective chemotherapeutic CPT.

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Section: Discussionsupporting

confidence: 92%

“…The method for measuring release of CPT from nanoparticles was adapted from a method described previously (Deng et al, 2014). Nanoparticles (150 mg) with or without CPT were suspended in 2 ml of 1Â PBS and incubated at 37 C on a shaker.…”

Section: Controlled Releasementioning

confidence: 99%

Intravenous delivery of camptothecin-loaded PLGA nanoparticles for the treatment of intracranial glioma

Householder

DiPerna

Chung

et al. 2015

International Journal of Pharmaceutics

109

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“…PLA is one of the eco-friendly bioplastics with excellent biodegradability, processibility, less energy dependence and lower cost, which has been widely utilized in biomedical fields such as sutures, resorbable plates and screws, and drug delivery device [12][13][14][15][16]. The Food and Drug Administration (FDA) has also approved PLA for direct contact with biological fluids.…”

Section: Introductionmentioning

confidence: 99%

Surface zwitterionization of hemocompatible poly(lactic acid) membranes for hemodiafiltration

Zhu

Liu

et al. 2015

Journal of Membrane Science

111

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“…33 Polymerization of L-LA in the presence of PG and Sn(Oct) 2 Table 3 (nos. [1][2][3][4][5][6][7][8].…”

Section: Preparation Of Multi-arm Pla In Presence Of Oligoglycerolsmentioning

confidence: 99%

“…1,2 They exhibit different physical properties in comparison to their linear homologues, such as lower viscosity in dilute solutions and in the melt, 3 poor mechanical properties and less susceptibility to form crystalline phases. 4 The solubility of HBPs depends mostly on the nature of HBP end groups, degree of branching and solvent.…”

Section: Introductionmentioning

confidence: 99%

Multi‐arm star polymers of lactide obtained in melt in the presence of hyperbranched oligoglycerols

Kundys

Plichta

Florjańczyk

et al. 2016

Polymer International

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Multi-arm star poly(L-lactide) (PLLA) was synthesized in bulk, via ring-opening polymerization of L-lactide initiated by: trimethylolpropane, pentaerythritol, dipentaerythritol, myo-inositol and hyperbranched polyglycerols. The synthesis was carried out on a laboratory scale and also in a model research installation equipped with a 2 L polymerization reactor. Matrix-assisted laser desorption ionization time-of-flight analysis of the products synthesized in the presence of simple polyols and tin 2-ethylhexanoate revealed that the reactions were not entirely selective and the final products were a mixture of multi-arm star, linear and cyclic PLLA. The reactions co-initiated by polyglycerols (PGs) led to polymer mixtures with molar masses in the range 13.5-102 kg mol −1 and intrinsic viscosity significantly lower than that of linear PLLA with the same molar mass. In order to obtain more hydrophobic PG initiator, a suitable method of modification of PG structure was developed. The PG and modified PG branching agents were used to prepare multi-arm star PLLA in the model semi-technical installation. Molar masses of the resulting polymers were in the range 169-249 kg mol −1 and exhibited much lower intrinsic viscosity than the linear homologue. The rheological properties of synthesized materials with commercial PLLA blends as well as thermal and mechanical properties were analysed.

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The effect of hyperbranched polyglycerol coatings on drug delivery using degradable polymer nanoparticles

Cited by 123 publications

References 31 publications

Intravenous delivery of camptothecin-loaded PLGA nanoparticles for the treatment of intracranial glioma

Intravenous delivery of camptothecin-loaded PLGA nanoparticles for the treatment of intracranial glioma

Surface zwitterionization of hemocompatible poly(lactic acid) membranes for hemodiafiltration

Multi‐arm star polymers of lactide obtained in melt in the presence of hyperbranched oligoglycerols

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