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Displaying 1 to 10 of 12 results for breast cancer

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  • Claire Snyder Lab

    Researchers in the Claire Snyder Lab study the quality of cancer care, with a special focus on two areas: the quality of life for cancer patients undergoing treatment and the coordination of care between cancer specialists and primary care providers. As part of our quality-of-life research, we're investigating the use of patient-reported outcome questionnaires in routine oncology practice as well as developing a website for collecting the questionnaires and linking them with the electronic medical record. As part of our cancer-survivorship research, we've conducted large database studies to identify the physician specialties involved in the care of cancer survivors and to determine how that relates to survivors receiving recommended follow-up care. We're also working with investigators in the Sydney Kimmel Comprehensive Cancer Center to develop care strategies for breast cancer survivors.

    Research Areas: breast cancer, cancer survivors, cancer, quality of life, care coordination

    Principal Investigator

    Claire Snyder, M.H.S., Ph.D.

    Department

    Medicine

  • Dmitri Artemov Lab

    The Artemov lab is within the Division of Cancer Imaging Research in the Department of Radiology and Radiological Science. The lab focuses on 1) Use of advanced dynamic contrast enhanced-MRI and activated dual-contrast MRI to perform image-guided combination therapy of triple negative breast cancer and to assess therapeutic response. 2) Development of noninvasive MR markers of cell viability based on a dual-contrast technique that enables simultaneous tracking and monitoring of viability of transplanted stems cells in vivo. 3) Development of Tc-99m and Ga-68 angiogenic SPECT/PET tracers to image expression of VEGF receptors that are involved in tumor angiogenesis and can be important therapeutic targets. 4) Development of the concept of “click therapy” that combines advantages of multi-component targeting, bio-orthogonal conjugation and image guidance and preclinical validation in breast and prostate cancer models.

    Research Areas: VEGF receptors image expression, SPECT/PET tracers, tracking stem cells in vivo, triple-negative breast cancer, image-guided combination therapy, MRI, noninvasive MR markers, cancer imaging

  • Follow the Leader: Specialized Cancer Cells Lead Collective Invasion (Ewald Lab)

    Research in the Ewald laboratory starts from a simple question: Which cells in a breast tumor are the most dangerous to the patient and most responsible for metastatic disease? To answer this question, we developed novel 3-D culture assays to allow real-time analysis of invasion. Our data reveal that K14+ cancer cells play a central role in metastatic disease and suggest that the development of clinical strategies targeting these cells will provide novel breast cancer treatments.

    Research Areas: breast cancer, cellular biology, molecular biology

    Lab Website

    Principal Investigator

    Andrew Ewald, Ph.D.

    Department

    Cell Biology

  • Gilkes Lab

    Our lab is focused on determining the role of hypoxia in breast cancer metastasis. We are particularly interested in the changes in the extracellular matrix that occur under hypoxic conditions and promote cancer cell migration.

    Research Areas: breast cancer, HIF-1, hypoxia, ECM

    Principal Investigator

    Daniele Gilkes, Ph.D.

    Department

    Oncology

  • Institute for Computational Medicine

    The Institute for Computational Medicine's mission is to develop quantitative approaches for understanding the mechanisms, diagnosis and treatment of human disease through biological systems modeling, computational anatomy, and bioinformatics. Our disease focus areas include breast cancer, brain disease and heart disease.

    The institute builds on groundbreaking research at both the Johns Hopkins University Whiting School of Engineering and the School of Medicine.

    Research Areas: breast cancer, systems biology, brain, biomedical engineering, cardiology, bioinformatics, computational anatomy

  • Kristine Glunde Lab

    The Glunde lab is within the Division of Cancer Imaging Research in the Department of Radiology and Radiological Science. The lab is developing mass spectrometry imaging as part of multimodal molecular imaging workflows to image and elucidate hypoxia-driven signaling pathways in breast cancer. They are working to further unravel the molecular basis of the aberrant choline phospholipid metabolism in cancer. The Glunde lab is developing novel optical imaging agents for multi-scale molecular imaging of lysosomes in breast tumors and discovering structural changes in Collagen I matrices and their role in breast cancer and metastasis.

    Research Areas: breast cancer, mass spectrometry, imaging, cancer, metastasis, metabolism, optical imaging

  • Radiopharmaceutical Therapy and Dosimetry Lab

    The Radiopharmaceutical Therapy and Dosimetry (RTD) Lab has two missions: 1. Support clinical Radiopharmaceutical Therapy (RPT) trials by performing patient-specific dosimetry and developing novel methods that advance this field and illustrate the impact of a precision medicine approach to implementing treatment planning in RPT. This includes radiobiological modeling and microscale dosimetry calculations for alpha-particle emitter RPT. 2. Pre-clinical studies using novel alpha-emitter RPT agents with immune intact transgenic animal models that incorporate modeling and dosimetry to support the translation of novel targeted radionuclide therapy strategies to the clinic. In particular, identifying how to best combine RPT with complementary orthogonal-modality agents while also obtaining a basic understanding of how the treatment works and which variables have the greatest impact on efficacy and toxicity. The underlying objective is to utilize pre-clinical modeling and dosimetry to help id...entify an optimal therapeutic clinical trial design so as to reduce unnecessary human experimentation. view more

    Research Areas: radiopharmaceutical therapy, breast cancer, pre-clincial transgenic mouse models, mathematical modeling of pharmacokinetics and treatment response, targeted alpha-particle emitter therapy

    Principal Investigator

    George Sgouros, Ph.D.

    Department

    Radiology

  • Saraswati Sukumar Lab

    Our lab is focused on using comprehensive gene expression, methylation and sequencing and metabolomics analysis to identify alterations in breast cancer, and exploiting these for early detection and therapy. Among deferentially expressed genes, our lab has focused on the HOX genes. HOX genes are intimately involved in the development of resistance to both chemotherapy and to agents targeting the estrogen receptor. Our work explores the alternate pathways that are activated by HOX proteins leading to this resistance and novel treatments to overcome resistance in both tissue culture and xenograft models. In addition, epigenetically silenced genes and a metabolic reprogramming in tumors also trigger novel early detection and therapeutic strategies. We are testing the utility of differentiation therapy through reactivating RAR-beta in breast cancer using histone deacetylase inhibitors with great success. Also, we are targeting enzymes involved in gluconeogenesis and glycolysis with small ...molecule FDA-approved antimetabolites to achieve antitumor effects. view more

    Research Areas: breast cancer, genetics

    Lab Website

    Principal Investigator

    Saraswati Sukumar, Ph.D.

    Department

    Oncology

  • Spyridon Marinopoulos Lab

    Research interests in the Spyridon Marinopoulos Lab include evidence-based medicine. Recently, we examined the impact of health information technology (IT) that supports patient-centered care (PCC) and found substantial evidence that health IT applications with PCC-related components have a positive effect on health care outcomes.

    Research Areas: breast cancer, patient-centered health care, health IT, diabetes, evidence-based medicine

    Principal Investigator

    Spyridon Marinopoulos, M.B.A., M.D.

    Department

    Medicine

  • Systems Biology Laboratory

    The Systems Biology Lab applies methods of multiscale modeling to problems of cancer and cardiovascular disease, and examines the systems biology of angiogenesis, breast cancer and peripheral artery disease (PAD).

    Using coordinated computational and experimental approaches, the lab studies the mechanisms of breast cancer tumor growth and metastasis to find ways to inhibit those processes.

    We use bioinformatics to discover novel agents that affect angiogenesis and perform in vitro and in vivo experiments to test these predictions. In addition we study protein networks that determine processes of angiogenesis, arteriogenesis and inflammation in PAD. The lab also investigates drug repurposing for potential applications as stimulators of therapeutic angiogenesis, examines signal transduction pathways and builds 3D models of angiogenesis.

    The lab has discovered over a hundred novel anti-angiogenic peptides, and has undertaken in vitro and in vivo studies testing their activity unde...r different conditions. We have investigated structure-activity relationship (SAR) doing point mutations and amino acid substitutions and constructed biomimetic peptides derived from their endogenous progenitors. They have demonstrated the efficacy of selected peptides in mouse models of breast, lung and brain cancers, and in age-related macular degeneration.

    view more

    Research Areas: peripheral artery disease, breast cancer, systems biology, computational biology, cancer, cardiovascular, age-related macular degeneration, bioinformatics, angiogenesis, microcirculation

    Principal Investigator

    Aleksander Popel, Ph.D.

    Department

    Biomedical Engineering

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