Enhanced passive pulmonary targeting and retention of PEGylated rigid microparticles in rats

Hilliard L. Kutscher; Piyun Chao; Manjeet Deshmukh; Sujata Sundara Rajan; Yashveer Singh; Peidi Hu; Laurie B. Joseph; Stanley Stein; Debra L. Laskin; Patrick J. Sinko

doi:10.1016/j.ijpharm.2010.09.020

Enhanced passive pulmonary targeting and retention of PEGylated rigid microparticles in rats

Hilliard L. Kutscher
, Piyun Chao
, Manjeet Deshmukh
, Sujata Sundara Rajan
, Yashveer Singh
, Peidi Hu
, Laurie B. Joseph
, Stanley Stein
, Debra L. Laskin
, Patrick J. Sinko

Medicine

Rutgers - The State University of New Jersey, New Brunswick
Rutgers - The State University of New Jersey, Newark

Research output: Contribution to journal › Article › peer-review

47 Scopus citations

Abstract

The current study examines the passive pulmonary targeting efficacy and retention of 6μm polystyrene (PS) microparticles (MPs) covalently modified with different surface groups [amine (A-), carboxyl (C-) and sulfate (S-)] or single (PEG₁-) and double (PEG₂-) layers of α,ω-diamino poly(ethylene glycol) attached to C-MPs. The ζ-potential of A-MPs (-44.0mV), C-MPs (-54.3mV) and S-MPs (-49.6mV) in deionized water were similar; however PEGylation increased the ζ-potential for both PEG₁-MPs (-18.3mV) and PEG₂-MPs (11.5mV). The biodistribution and retention of intravenously administered MPs to male Sprague-Dawley rats was determined in homogenized tissue by fluorescence spectrophotometry. PEG₁-MPs and PEG₂-MPs demonstrated enhanced pulmonary retention in rats at 48h after injection when compared to unmodified A-MPs (59.6%, 35.9% and 17.0% of the administered dose, respectively). While unmodified MPs did not significantly differ in lung retention, PEGylation of MPs unexpectedly improved passive lung targeting and retention by modifying surface properties including charge and hydrophobicity but not size.

Original language	English
Pages (from-to)	64-71
Number of pages	8
Journal	International Journal of Pharmaceutics
Volume	402
Issue number	1-2
DOIs	https://doi.org/10.1016/j.ijpharm.2010.09.020
State	Published - Dec 15 2010

Keywords

Passive pulmonary targeting
PEGylation
Poly(ethylene glycol)
Rigid non-biodegradable microparticle

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10.1016/j.ijpharm.2010.09.020

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title = "Enhanced passive pulmonary targeting and retention of PEGylated rigid microparticles in rats",

abstract = "The current study examines the passive pulmonary targeting efficacy and retention of 6μm polystyrene (PS) microparticles (MPs) covalently modified with different surface groups [amine (A-), carboxyl (C-) and sulfate (S-)] or single (PEG1-) and double (PEG2-) layers of α,ω-diamino poly(ethylene glycol) attached to C-MPs. The ζ-potential of A-MPs (-44.0mV), C-MPs (-54.3mV) and S-MPs (-49.6mV) in deionized water were similar; however PEGylation increased the ζ-potential for both PEG1-MPs (-18.3mV) and PEG2-MPs (11.5mV). The biodistribution and retention of intravenously administered MPs to male Sprague-Dawley rats was determined in homogenized tissue by fluorescence spectrophotometry. PEG1-MPs and PEG2-MPs demonstrated enhanced pulmonary retention in rats at 48h after injection when compared to unmodified A-MPs (59.6\%, 35.9\% and 17.0\% of the administered dose, respectively). While unmodified MPs did not significantly differ in lung retention, PEGylation of MPs unexpectedly improved passive lung targeting and retention by modifying surface properties including charge and hydrophobicity but not size.",

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author = "Kutscher, \{Hilliard L.\} and Piyun Chao and Manjeet Deshmukh and \{Sundara Rajan\}, Sujata and Yashveer Singh and Peidi Hu and Joseph, \{Laurie B.\} and Stanley Stein and Laskin, \{Debra L.\} and Sinko, \{Patrick J.\}",

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AU - Kutscher, Hilliard L.

AU - Chao, Piyun

AU - Deshmukh, Manjeet

AU - Sundara Rajan, Sujata

AU - Singh, Yashveer

AU - Hu, Peidi

AU - Joseph, Laurie B.

AU - Stein, Stanley

AU - Laskin, Debra L.

AU - Sinko, Patrick J.

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AB - The current study examines the passive pulmonary targeting efficacy and retention of 6μm polystyrene (PS) microparticles (MPs) covalently modified with different surface groups [amine (A-), carboxyl (C-) and sulfate (S-)] or single (PEG1-) and double (PEG2-) layers of α,ω-diamino poly(ethylene glycol) attached to C-MPs. The ζ-potential of A-MPs (-44.0mV), C-MPs (-54.3mV) and S-MPs (-49.6mV) in deionized water were similar; however PEGylation increased the ζ-potential for both PEG1-MPs (-18.3mV) and PEG2-MPs (11.5mV). The biodistribution and retention of intravenously administered MPs to male Sprague-Dawley rats was determined in homogenized tissue by fluorescence spectrophotometry. PEG1-MPs and PEG2-MPs demonstrated enhanced pulmonary retention in rats at 48h after injection when compared to unmodified A-MPs (59.6%, 35.9% and 17.0% of the administered dose, respectively). While unmodified MPs did not significantly differ in lung retention, PEGylation of MPs unexpectedly improved passive lung targeting and retention by modifying surface properties including charge and hydrophobicity but not size.

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KW - PEGylation

KW - Poly(ethylene glycol)

KW - Rigid non-biodegradable microparticle

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JF - International Journal of Pharmaceutics

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ER -

Enhanced passive pulmonary targeting and retention of PEGylated rigid microparticles in rats

Abstract

Keywords

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