Kooperativer Bibliotheksverbund

Berlin Brandenburg

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  • Blood-Brain Barrier
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  • 1
    Language: English
    In: Journal of Controlled Release, 2011, Vol.154(1), pp.103-107
    Description: Drug delivery to the brain is restricted due to the blood–brain barrier (BBB). Previously, it has been shown that surfactant-coated doxorubicin-loaded nanoparticles were successful in overcoming the BBB and were effective in the treatment of rat brain tumours. However, drug distribution in brain tissue after crossing the BBB was never determined. To distinguish between the amounts of drug in the whole brain and the fraction of drug in the brain parenchyma after crossing the BBB a capillary depletion technique was employed. For this purpose rats were intravenously treated with a doxorubicin solution in 1% polysorbate 80, or doxorubicin-loaded poly-(n-butyl cyanoacrylate) (PBCA) nanoparticles without and with 1% polysorbate 80 coating, respectively. The dosage of doxorubicin was 5 mg per kg of rat body weight. At 30 min, 2 h, and 4 h following intravenous injection into the tail vein, the rats were sacrificed and their brains removed. Homogenates of the brains were prepared. In addition, one part of the homogenate was separated by centrifugation into a pellet (vascular elements) and supernatant (parenchyma) using a well established capillary depletion technique. The time-dependent distribution of doxorubicin in these brain fractions was studied. Clinically effective concentrations in all investigated brain fractions could only be detected in rats treated with surfactant-coated nanoparticles, indicating a significant transcytosis across the BBB. Only low concentrations were observed after 0.5 and 2 h with the uncoated nanoparticles. No uptake of doxorubicin into the brain was observable after administration of drug solution alone. These observations demonstrate the great potential of surface-coated PBCA nanoparticles for the delivery of drugs to the central nervous system. Doxorubicin concentration in different rat brain fractions 2 h after intravenous injection of 5 mg/kg doxorubicin solution, doxorubicin-loaded poly(butyl cyanoacrylate) (PBCA) nanoparticles (NP), or doxorubicin-loaded PBCA-NP coated with polysorbate 80 (PS80).
    Keywords: Nanoparticles ; Capillary Depletion ; Drug Targeting ; Blood–Brain Barrier ; Pharmacy, Therapeutics, & Pharmacology
    ISSN: 0168-3659
    E-ISSN: 1873-4995
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  • 2
    Language: English
    In: PLoS ONE, 2011, Vol.6(5), p.e19121
    Description: Chemotherapy of glioblastoma is largely ineffective as the blood-brain barrier (BBB) prevents entry of most anticancer agents into the brain. For an efficient treatment of glioblastomas it is necessary to deliver anti-cancer drugs across the intact BBB. Poly(lactic-co-glycolic acid) (PLGA) nanoparticles coated with poloxamer 188 hold great promise as drug carriers for brain delivery after their intravenous injection. In the present study the anti-tumour efficacy of the surfactant-coated doxorubicin-loaded PLGA nanoparticles against rat glioblastoma 101/8 was investigated using histological and immunohistochemical methods. ; The particles were prepared by a high-pressure solvent evaporation technique using 1% polyvinylalcohol (PLGA/PVA) or human serum albumin (PLGA/HSA) as stabilizers. Additionally, lecithin-containing PLGA/HSA particles (Dox-Lecithin-PLGA/HSA) were prepared. For evaluation of the antitumour efficacy the glioblastoma-bearing rats were treated intravenously with the doxorubicin-loaded nanoparticles coated with poloxamer 188 using the following treatment regimen: 3×2.5 mg/kg on day 2, 5 and 8 after tumour implantation; doxorubicin and poloxamer 188 solutions were used as controls. On day 18, the rats were sacrificed and the antitumour effect was determined by measurement of tumour size, necrotic areas, proliferation index, and expression of GFAP and VEGF as well as Isolectin B4, a marker for the vessel density. ; The results reveal a considerable anti-tumour effect of the doxorubicin-loaded nanoparticles. The overall best results were observed for Dox-Lecithin-PLGA/HSA. These data demonstrate that the poloxamer 188-coated PLGA nanoparticles enable delivery of doxorubicin across the blood-brain barrier in the therapeutically effective concentrations.
    Keywords: Research Article ; Biology ; Medicine ; Immunology ; Oncology
    E-ISSN: 1932-6203
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  • 3
    Language: English
    In: Journal of Controlled Release, 2007, Vol.117(1), pp.51-58
    Description: Poly(butyl cyanoacrylate) nanoparticles coated with poloxamer 188 (Pluronic® F68) and also, as shown previously, polysorbate 80 (Tween® 80) considerably enhance the anti-tumour effect of doxorubicin against an intracranial glioblastoma in rats. The investigation of plasma protein adsorption on the surface of the drug-loaded nanoparticles by two-dimensional electrophoresis (2-D PAGE) revealed that both surfactants, besides other plasma components, induced a considerable adsorption of apolipoprotein A-I (ApoA-I). It is hypothesized that delivery of doxorubicin to the brain by means of nanoparticles may be augmented by the interaction of apolipoprotein A-I that is anchored on the surface of the nanoparticles with the scavenger receptor class B type I (SR-BI) located at the blood–brain barrier. This is the first study that shows a correlation between the adsorption of apolipoprotein A-I on the nanoparticle surface and the delivery of the drug across the blood–brain barrier.
    Keywords: Apolipoprotein A-I ; Chemotherapy ; Glioblastoma ; Nanoparticles ; Poly(Butyl Cyanoacrylate) ; Poloxamer 188 ; Polysorbate 80 ; Rats ; Pharmacy, Therapeutics, & Pharmacology
    ISSN: 0168-3659
    E-ISSN: 1873-4995
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  • 4
    Language: English
    In: European Journal of Pharmaceutics and Biopharmaceutics, 2010, Vol.74(2), pp.157-163
    Description: Poly(lactide-co-glycolide) (PLGA) nanoparticles coated with poloxamer 188 (Pluronic F-68) or polysorbate 80 (Tween 80) enable an efficient brain delivery of the drugs after intravenous injection. This ability was evidenced by two different pharmacological test systems employing as model drugs the anti-tumour antibiotic doxorubicin and the agonist of opioid receptors loperamide, which being P-gp substrates can cross the blood–brain barrier (BBB) only in pharmacologically insignificant amounts: binding of doxorubicin to the surfactant-coated PLGA nanoparticles, however, enabled a high anti-tumour effect against an intracranial 101/8 glioblastoma in rats, and the penetration of nanoparticle-bound loperamide into the brain was demonstrated by the induction of central analgesic effects in mice. Both pharmacological tests could demonstrate that therapeutic amounts of the drugs were delivered to the sites of action in the brain and showed the high efficiency of the surfactant-coated PLGA nanoparticles for brain delivery. The results of the study also demonstrated that the efficacy of brain delivery by nanoparticles not only is influenced by the coating surfactants but also by other formulation parameters such as core polymer, drug, and stabilizer.
    Keywords: Blood–Brain Barrier ; Doxorubicin ; Glioblastoma ; Loperamide ; Mice ; Nanoparticles ; Poly(Lactide-Co-Glycolide) ; Poloxamer 188 ; Polysorbate 80 ; Rats ; Tail-Flick Test ; Pharmacy, Therapeutics, & Pharmacology
    ISSN: 0939-6411
    E-ISSN: 1873-3441
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  • 5
    Language: English
    In: Journal of Nanoneuroscience, 12/01/2009, Vol.1(2), pp.144-151
    Description: Previous investigations have shown that doxorubicin bound to poly(butyl cyanoacrylate) nanoparticles coated with polysorbate 80 (Tween® 80) is able to cross the blood-brain barrier upon intravenous administration and is effective against intracranially implanted 101/8 glioblastoma multiforme in rats at the treatment regimen of 3 × 1.5 mg/kg (as doxorubicin) on days 2, 5, 8 post tumour implantation. The objective of the present study was to investigate the possibility to further prolong the survival of rats with 101/8 glioblastoma by extending the treatment regimen. Doxorubicin-loaded poly(butyl cyanoacrylate) nanoparticles coated with polysorbate 80 were injected using two different therapeutic regimens. Two groups received four injections at the dose of 1.5 mg/kg (as doxorubicin) on days 2, 5, 8, and 16 post tumour implantation and two other groups received an additional injection on day 20 (5 × 1.5 mg/kg). Histological and immunohistochemical analyses were carried out 24 and 30 days after tumour inoculation to assess the effect of the different therapy regimens in comparison to an untreated control group. The results demonstrate that the extended chemotherapy provided an enhanced survival. Comparison of the treatment outcomes revealed that the five-injection regimen produced a more distinctive antitumor effect manifested as a decreased tumour area and proliferation index as well as a decreased necrotic area and a smaller vascular network. Tumour regression was achieved in approximately 40% of the treated animals. These results demonstrate the promising therapeutic potential of doxorubicin-loaded nanoparticles for systemic chemotherapy of human glioblastoma multiforme.
    Keywords: Doxorubicin ; Poly(Butyl Cyanoacrylate) Nanoparticles ; Drug Delivery ; Cancer Chemotherapy ; Glioblastoma ; Histology ; Histology;
    ISSN: 19390637
    E-ISSN: 19390653
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  • 6
    Language: English
    In: Journal of Microencapsulation, 01 January 2006, Vol.23(5), pp.582-592
    Description: Poly(n-butyl cyanoacrylate) nanoparticles coated with polysorbate-80 can enable the transport of bound drugs across the blood-brain barrier (BBB) after i.v. injection. In the present study the influence of different formulation parameters on the anti-tumoural effects of doxorubicin nanoparticles...
    Keywords: Nanoparticles ; Glioblastomas ; Brain Tumours ; Rats ; Poly(N-Butyl Cyanoacrylate) ; Poly(Iso-Butyl Cyanoacrylate) ; Doxorubicin ; Polysorbate 80 ; Poloxamine 908 ; Poloxamer 188 ; Medicine ; Pharmacy, Therapeutics, & Pharmacology
    ISSN: 0265-2048
    E-ISSN: 1464-5246
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  • 7
    Language: English
    In: Journal of Drug Targeting, 01 January 2006, Vol.14(2), pp.97-105
    Description: It was recently shown that doxorubicin (DOX) bound to polysorbate-coated nanoparticles (NP) crossed the intact blood-brain barrier (BBB), and thus reached therapeutic concentrations in the brain. Here, we investigated the biodistribution in...
    Keywords: Blood-Brain Barrier ; Glioblastoma ; Nanoparticles ; Doxorubicin ; Polysorbate 80 ; Pharmacy, Therapeutics, & Pharmacology
    ISSN: 1061-186X
    E-ISSN: 1029-2330
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  • 8
    Language: English
    In: Toxicology Letters, 2002, Vol.126(2), pp.131-141
    Description: Polysorbate 80-coated poly(butyl cyanoacrylate) nanoparticles (NP) were shown to enable the transport of a number of drugs including the anti-tumour antibiotic doxorubicin (DOX) across the blood-brain barrier (BBB) to the brain after intravenous administration and to considerably reduce the growth of brain tumours in rats. The objective of the present study was to evaluate the acute toxicity of DOX associated with polysorbate 80-coated NP in healthy rats and to establish a therapeutic dose range for this formulation in rats with intracranially implanted 101/8 glioblastoma. Single intravenous administration of empty poly(butyl cyanoacrylate) NP in the dose range 100-400 mg/kg did not cause mortality within the period of observation. NP also did not affect body weight or weight of internal organs. Association of DOX with poly(butyl cyanoacrylate) NP did not produce significant changes of quantitative parameters of acute toxicity of the anti-tumour agent. Likewise, the presence of polysorbate 80 in the formulations was not associated with changes in toxicity compared with free or nanoparticulate drug. Dose regimen of 3 x 1.5 mg/kg on days 2, 5, 8 after tumour implantation did not cause drug-induced mortality. The results in tumour-bearing rats were similar to those in healthy rats. These results demonstrate that the toxicity of DOX bound to NP was similar or even lower than that of free DOX.
    Keywords: Doxorubicin ; Glioblastoma ; Nanoparticles ; Poly(Butyl Cyanoacrylate) ; Polysorbate ; Toxicology ; Rats ; Pharmacy, Therapeutics, & Pharmacology ; Public Health
    ISSN: 0378-4274
    E-ISSN: 1879-3169
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