Spatial and temporal control of gene therapy using ionizing radiation. - Test2 - elhamkhani - TriplyDB

Spatial and temporal control of gene therapy using ionizing radiation.

Spatial and temporal control of gene therapy using ionizing radiation.

http://www.wikidata.org/entity/Q45867429

about

Transcriptional Targeting in Cancer Gene Therapy TNFerade, an innovative cancer immunotherapeutic Integrating genetics and epigenetics in breast cancer: biological insights, experimental, computational methods and therapeutic potential Nucleic acid targeting: towards personalized therapy for head and neck cancer.A combination hepatoma-targeted therapy based on nanotechnology: pHRE-Egr1-HSV-TK/(131)I-antiAFPMcAb-GCV/MFH Image-guided, noninvasive, spatiotemporal control of gene expression Development of a therapeutically important radiation induced promoter.Selective delivery of therapeutic agents for the diagnosis and treatment of cancer.Radiation-guided gene therapy of cancer.Therapy for unresectable recurrent and in-transit extremity melanoma.STAT1 pathway mediates amplification of metastatic potential and resistance to therapy Lipoplexes and tumours. A review.Tumor-targeted delivery of liposome-encapsulated doxorubicin by use of a peptide that selectively binds to irradiated tumors.Promoter-activated expression of nerve growth factor for treatment of neurodegenerative diseases.Genetically engineered HSV in the treatment of glioma: a review.Biological approaches to therapy of pancreatic cancer.Regulation of gene expression in prostate cancer cells with an artificially constructed promoter responsive to radiation.HSV-1-based vectors for gene therapy of neurological diseases and brain tumors: part II. Vector systems and applications Electrochemotherapy as an adjunct or alternative to other treatments for unresectable or in-transit melanoma.Regulation of gene expression in retrovirus vectors by X-ray and proton beam radiation with artificially constructed promoters.Arrhenius analysis of the relationship between hyperthermia and Hsp70 promoter activation: a comparison between ex vivo and in vivo data.Activated MEK suppresses activation of PKR and enables efficient replication and in vivo oncolysis by Deltagamma(1)34.5 mutants of herpes simplex virus 1 Transcriptional control of viral gene therapy by cisplatin A pilot feasibility study of TNFerade™ biologic with capecitabine and radiation therapy followed by surgical resection for the treatment of rectal cancer Potentiation of tumor radiotherapy by a radiation-inducible oncolytic and oncoapoptotic adenovirus in cervical cancer xenografts.EUS or percutaneously guided intratumoral TNFerade biologic with 5-fluorouracil and radiotherapy for first-line treatment of locally advanced pancreatic cancer: a phase I/II study.Gene and cell therapy for pancreatic cancer.The development of a novel cancer immunotherapeutic platform using tumor-targeting mesenchymal stem cells and a protein vaccine Tumor radiosensitization by monomethyl auristatin E: mechanism of action and targeted delivery.Radiation-guided drug delivery systems.The use of gene therapy in cancer research and treatment.Gene therapy strategies to improve the effectiveness of cancer radiotherapy.The death domain kinase RIP has an essential role in DNA damage-induced NF-kappa B activation Phase I evaluation of TNFerade biologic plus chemoradiotherapy before esophagectomy for locally advanced resectable esophageal cancer Regulatable gene expression systems for gene therapy applications: progress and future challenges.STAT1 is overexpressed in tumors selected for radioresistance and confers protection from radiation in transduced sensitive cells Radiogenic therapy: novel approaches for enhancing tumor radiosensitivity.Ionizing radiation: a genetic switch for cancer therapy.Combination of PEI-Mn0.5Zn0.5Fe2O4 nanoparticles and pHsp 70-HSV-TK/GCV with magnet-induced heating for treatment of hepatoma.Characterisation of systemic dissemination of nonreplicating adenoviral vectors from tumours in local gene delivery

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P2860

Spatial and temporal control of gene therapy using ionizing radiation.

http://www.wikidata.org/entity/Q45867429

description

1995 nî lūn-bûn

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Spatial and temporal control of gene therapy using ionizing radiation.

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Spatial and temporal control of gene therapy using ionizing radiation.

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Spatial and temporal control of gene therapy using ionizing radiation.

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Spatial and temporal control of gene therapy using ionizing radiation.

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Spatial and temporal control of gene therapy using ionizing radiation.

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Spatial and temporal control of gene therapy using ionizing radiation.

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Nature Medicine

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Spatial and temporal control of gene therapy using ionizing radiation.

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Dunphy EJ

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Hallahan DE

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Hanna NN

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Hellman S

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Kufe DW

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Mauceri HJ

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Seung LP

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Toledano A

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Wayne JD

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Weichselbaum RR

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P2860

The interaction between recombinant human tumor necrosis factor and radiation in 13 human tumor cell lines.

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786-791

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scholarly article

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10.1038/NM0895-786

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