Enhancing Nanoparticle Accumulation and Retention in Desmoplastic Tumors via Vascular Disruption for Internal Radiation Therapy. - Wikidata - wikimedia - TriplyDB

Enhancing Nanoparticle Accumulation and Retention in Desmoplastic Tumors via Vascular Disruption for Internal Radiation Therapy.

Enhancing Nanoparticle Accumulation and Retention in Desmoplastic Tumors via Vascular Disruption for Internal Radiation Therapy.

http://www.wikidata.org/entity/Q37541971

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Enhancing Tumor Penetration of Nanomedicines.A dosimetric model for the heterogeneous delivery of radioactive nanoparticles In vivo: a feasibility study Recent progress on nanoparticle-based drug delivery systems for cancer therapy.Theranostic Hyaluronic Acid-Iron Micellar Nanoparticles for Magnetic-Field-Enhanced in vivo Cancer Chemotherapy.Pharmacological and physical vessel modulation strategies to improve EPR-mediated drug targeting to tumors.

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Enhancing Nanoparticle Accumulation and Retention in Desmoplastic Tumors via Vascular Disruption for Internal Radiation Therapy.

http://www.wikidata.org/entity/Q37541971

description

article científic

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article scientifique

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articolo scientifico

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artigo científico

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bilimsel makale

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scientific article published on January 2017

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vedecký článok

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vetenskaplig artikel

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videnskabelig artikel

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vědecký článek

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name

Enhancing Nanoparticle Accumul ...... or Internal Radiation Therapy.

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Enhancing Nanoparticle Accumul ...... or Internal Radiation Therapy.

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type

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Enhancing Nanoparticle Accumul ...... or Internal Radiation Therapy.

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Enhancing Nanoparticle Accumul ...... or Internal Radiation Therapy.

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Enhancing Nanoparticle Accumul ...... or Internal Radiation Therapy.

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Enhancing Nanoparticle Accumul ...... or Internal Radiation Therapy.

@nl

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Enhancing Nanoparticle Accumul ...... or Internal Radiation Therapy.

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Andrew B Satterlee

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Juan D Rojas

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Leaf Huang

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Paul A Dayton

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P2860

Current and Future Theranostic Applications of the Lipid-Calcium-Phosphate Nanoparticle Platform.

Validation of dynamic contrast-enhanced ultrasound in rodent kidneys as an absolute quantitative method for measuring blood perfusion

Nanoparticles with Precise Ratiometric Co-Loading and Co-Delivery of Gemcitabine Monophosphate and Cisplatin for Treatment of Bladder Cancer.

The biology of the combretastatins as tumour vascular targeting agents.

Delivering nanomedicine to solid tumors.

Differentiation and definition of vascular-targeted therapies.

Nanoparticle modulation of the tumor microenvironment enhances therapeutic efficacy of cisplatin.

A radio-theranostic nanoparticle with high specific drug loading for cancer therapy and imaging

Radionuclide carriers for targeting of cancer.

Quantitative volumetric perfusion mapping of the microvasculature using contrast ultrasound.

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253-269

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10.7150/THNO.16681

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2

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2017-01-01T00:00:00Z

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radiation therapy

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