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Breast cancer / Carcinoma / Breast neoplasia / Breast anatomy / Carcinoma in situ / DCIS / Mammary gland / Mammary tumor / Atypical ductal hyperplasia / Medicine / Oncology / Ribbon symbolism


Combining the strength of genomics, nanoparticle technology, and direct intraductal delivery for breast cancer treatment
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City

Baltimore / /

Company

BioMed Central Ltd. / Proc Natl Acad Sci U S A / Garrett / Creative Commons / /

Country

United States / /

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Facility

nanoparticle-siRNA complex / /

IndustryTerm

gene regulatory network / other cancer therapies / nanoparticle technology / rodent chemical carcinogenesis model / breast cancer treatment / /

MedicalCondition

tumor / mouse mammary tumor / malignant tumors / familial breast cancer / DCIS / cancer / tumors / invasive cancer / rodent chemical carcinogenesis / Carcinogenesis / early breast cancer / mammary tumors / Ductal carcinoma / dominant disease / Abbreviations DCIS / carcinoma / spontaneous mammary tumors / transgenic mammary tumor / human breast cancers / preneoplastic ductal carcinoma / breast tumor / MS / carcinogen-induced rat mammary tumor / human breast cancer / breast cancer / iatrogenic cancer / mammary tumor / /

MedicalTreatment

biologic therapies / chemoprevention / cancer therapies / chemotherapy / mastectomy / /

Organization

Intraductal administration / Johns Hopkins University School of Medicine / Sidney Kimmel Comprehensive Cancer Center / /

Person

Prev Res / Teo Breast Cancer / /

Position

mediator / Reilly RT / /

Product

Doxil / XJ / fluorouracil / /

ProvinceOrState

Maryland / /

PublishedMedium

Cancer Research / /

Technology

genomics / bioinformatics / nanoparticle technology / DNA Chip / siRNA / Gene expression / chemotherapy / /

URL

http /

SocialTag