Biodistribution of long-circulating PEG-Grafted nanocapsules in mice : effects of PEG chain length and density.
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2001
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Purpose: To study the pharmacokinetics and biodistribution of novel
polyethyleneglycol (PEG) surface-modified poly(rac-lactide) (PLA)
nanocapsules (NCs) and to investigate the influence of PEG chain
length and content.
Methods: The biodistribution and plasma clearance in mice of different
NC formulations were studied with [3H]-PLA. PLA-PEG copolymers
were used in NC preparations at different chain lengths (5 kDa
and 20 kDa) and PEG contents (10% and 30% w/w of total polymer).
In vitro and in vivo stability were also checked.
Results: Limited [3H]-PLA degradation was observed after incubation
in mouse plasma for 1 h, probably because of to the large surface
area and thin polymer wall. After injection into mice, NCs prepared
with PLA-PEG copolymers showed an altered distribution compared
to poloxamer-coated PLA NCs. An increased concentration in
plasma was also observed for PLA-PEG NCs, even after 24 h. A
dramatic difference in the pharmacokinetic parameters of PLA-PEG
45–20 30% NCs compared to poloxamer-coated NCs indicates that
covalent attachment, longer PEG chain lengths, and higher densities
are necessary to produce an increased half-life of NCs in vivo.
Conclusions: Covalently attached PEG on the surface of NCs substantially
can reduce their clearance from the blood compartment and
alter their biodistribution.
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Plasma stability, Plasma clearance
Citação
MOSQUEIRA, V. C. F. et al. Biodistribution of long-circulating PEG-Grafted nanocapsules in mice: effects of PEG chain length and density. Pharmaceutical Research, Estados Unidos, v. 18, n.10, p. 1411-1419, 2001. Disponível em: <http://link.springer.com/article/10.1023/A:1012248721523>. Acesso em: 20 jan. 2017.