A polymeric nanoparticle formulation of curcumin inhibits growth, clonogenicity and stem-like fraction in malignant brain tumors. - Wikidata - wikimedia - TriplyDB

A polymeric nanoparticle formulation of curcumin inhibits growth, clonogenicity and stem-like fraction in malignant brain tumors.

A polymeric nanoparticle formulation of curcumin inhibits growth, clonogenicity and stem-like fraction in malignant brain tumors.

http://www.wikidata.org/entity/Q34928908

about

Curcumin and its derivatives: their application in neuropharmacology and neuroscience in the 21st century Drug Delivery Using Nanoparticles for Cancer Stem-Like Cell Targeting Targeting self-renewal pathways in cancer stem cells: clinical implications for cancer therapy Targeting cancer stem cells by using the nanoparticles Targeting colorectal cancer stem cells using curcumin and curcumin analogues: insights into the mechanism of the therapeutic efficacy Cancer nanotheranostics: improving imaging and therapy by targeted delivery across biological barriers.Cancer stem cells and drug resistance: the potential of nanomedicine The circadian clock modulates anti-cancer properties of curcumin.Therapeutic Potential of Curcumin for the Treatment of Brain Tumors Blood brain barrier: a challenge for effectual therapy of brain tumors Advances in Integrative Nanomedicine for Improving Infectious Disease Treatment in Public Health Folate decorated dual drug loaded nanoparticle: role of curcumin in enhancing therapeutic potential of nutlin-3a by reversing multidrug resistance The art of attraction: applications of multifunctional magnetic nanomaterials for malignant glioma.Effects of inhibition of hedgehog signaling on cell growth and migration of uveal melanoma cells.Thermally responsive nanoparticle-encapsulated curcumin and its combination with mild hyperthermia for enhanced cancer cell destruction.Effects of curcumin on stem-like cells in human esophageal squamous carcinoma cell lines Curcumin loaded NIPAAM/VP/PEG-A nanoparticles: physicochemical and chemopreventive properties.Curcumin acts anti-proliferative and pro-apoptotic in human meningiomas.Preparation, characterisation and evaluation of curcumin with piperine-loaded cubosome nanoparticles.Interaction of curcumin nanoformulations with human plasma proteins and erythrocytes Glioblastoma cancer stem-like cells: implications for pathogenesis and treatment.Recent progress in targeting cancer.Targeted therapy of glioblastoma stem-like cells and tumor non-stem cells using cetuximab-conjugated iron-oxide nanoparticles Curcumin: updated molecular mechanisms and intervention targets in human lung cancer.Cancer stem cells: potential target for bioactive food components Biological rationale for the design of polymeric anti-cancer nanomedicines.Therapeutic Applications of Curcumin Nanoformulations Rabbit Model of Human Gliomas: Implications for Intra-Arterial Drug Delivery.Curcumin decreases malignant characteristics of glioblastoma stem cells via induction of reactive oxygen species.Curcumin nanomedicine: a road to cancer therapeutics Curcumin in VIP-targeted sterically stabilized phospholipid nanomicelles: a novel therapeutic approach for breast cancer and breast cancer stem cells.Targeting Cancer Stem Cells with Nanoparticle-Enabled Therapies.Integrative nanomedicine: treating cancer with nanoscale natural products.Curcumin nanoformulations: a future nanomedicine for cancer.Targeting the Hedgehog signaling pathway for cancer therapy.Cancer stem cells, microRNAs, and therapeutic strategies including natural products.Emerging role of nanocarriers to increase the solubility and bioavailability of curcumin.Effects of dietary polyphenols on neuroregulatory factors and pathways that mediate food intake and energy regulation in obesity.A contemporary review of molecular candidates for the development and treatment of childhood medulloblastoma.Curcumin, a component of turmeric: from farm to pharmacy.

P2860

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P2860

A polymeric nanoparticle formulation of curcumin inhibits growth, clonogenicity and stem-like fraction in malignant brain tumors.

http://www.wikidata.org/entity/Q34928908

description

2011 nî lūn-bûn

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2011 թուականի Մարտին հրատարակուած գիտական յօդուած

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2011 թվականի մարտին հրատարակված գիտական հոդված

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2011年の論文

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2011年論文

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2011年論文

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2011年论文

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A polymeric nanoparticle formu ...... ion in malignant brain tumors.

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A polymeric nanoparticle formu ...... ion in malignant brain tumors.

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A polymeric nanoparticle formu ...... ion in malignant brain tumors.

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type

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A polymeric nanoparticle formu ...... ion in malignant brain tumors.

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A polymeric nanoparticle formu ...... ion in malignant brain tumors.

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A polymeric nanoparticle formu ...... ion in malignant brain tumors.

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prefLabel

A polymeric nanoparticle formu ...... ion in malignant brain tumors.

@ast

A polymeric nanoparticle formu ...... ion in malignant brain tumors.

@en

A polymeric nanoparticle formu ...... ion in malignant brain tumors.

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Cancer Biology and Therapy

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A polymeric nanoparticle formu ...... ion in malignant brain tumors.

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Anirban Maitra

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Eli E Bar

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Kah Jing Lim

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Savita Bisht

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P2860

JAK/STAT3 pathway is involved in survival of neurons in response to insulin-like growth factor and negatively regulated by suppressor of cytokine signaling-3

The 2007 WHO classification of tumours of the central nervous system

Identification of human brain tumour initiating cells

Stem cell self-renewal specified by JAK-STAT activation in response to a support cell cue

Cyclopamine-mediated hedgehog pathway inhibition depletes stem-like cancer cells in glioblastoma

Notch signalling regulates stem cell numbers in vitro and in vivo

Isolation and characterization of tumorigenic, stem-like neural precursors from human glioblastoma

The Sonic Hedgehog-Gli pathway regulates dorsal brain growth and tumorigenesis

Stat3: a STAT family member activated by tyrosine phosphorylation in response to epidermal growth factor and interleukin-6

Tumor stem cells derived from glioblastomas cultured in bFGF and EGF more closely mirror the phenotype and genotype of primary tumors than do serum-cultured cell lines

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Charles G Eberhart

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