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Displaying 1 to 8 of 8 results for magnetic resonance imaging

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  • Cardiology Bioengineering Laboratory

    The Cardiology Bioengineering Laboratory, located in the Johns Hopkins Hospital, focuses on the applications of advanced imaging techniques for arrhythmia management. The primary limitation of current fluoroscopy-guided techniques for ablation of cardiac arrhythmia is the inability to visualize soft tissues and 3-dimensional anatomic relationships.

    Implementation of alternative advanced modalities has the potential to improve complex ablation procedures by guiding catheter placement, visualizing abnormal scar tissue, reducing procedural time devoted to mapping, and eliminating patient and operator exposure to radiation.

    Active projects include
    • Physiological differences between isolated hearts in ventricular fibrillation and pulseless electrical activity
    • Successful ablation sites in ischemic ventricular tachycardia in a porcine model and the correlation to magnetic resonance imaging (MRI)
    • MRI-guided radiofrequency ablation of canine atrial fibrillation, and ...diagnosis and intervention for arrhythmias
    • Physiological and metabolic effects of interruptions in chest compressions during cardiopulmonary resuscitation

    Henry Halperin, MD, is co-director of the Johns Hopkins Imaging Institute of Excellence and a
    professor of medicine, radiology and biomedical engineering. Menekhem M. Zviman, PhD is the laboratory manager.
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    Research Areas: magnetic resonance imaging, CPR models, cardiac mechanics, MRI-guided therapy, ischemic tachycardia, arrhythmia, cardiology, sudden cardiac death, cardiopulmonary resuscitation, computational modeling

    Lab Website

    Principal Investigator

    Henry Halperin, M.D.

    Department

    Medicine

  • James Pekar Lab

    How do we see, hear, and think? More specifically, how can we study living people to understand how the brain sees, hears, and thinks? Recently, magnetic resonance imaging (MRI), a powerful anatomical imaging technique widely used for clinical diagnosis, was further developed into a tool for probing brain function. By sensitizing magnetic resonance images to the changes in blood oxygenation that occur when regions of the brain are highly active, we can make "movies" that reveal the brain at work. Dr. Pekar works on the development and application of this MRI technology.

    Dr. Pekar is a biophysicist who uses a variety of magnetic resonance techniques to study brain physiology and function. Dr. Pekar serves as Manager of the F.M. Kirby Research Center for Functional Brain Imaging, a research resource where imaging scientists and neuroscientists collaborate to study brain function using unique state-of-the-art techniques in a safe comfortable environment, to further develop such techni...ques, and to provide training and education. Dr. Pekar works with center staff to serve the center's users and to keep the center on the leading edge of technology.
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    Research Areas: magnetic resonance, functional magnetic resonance imaging, radiology

  • Jinyuan Zhou Lab

    Dr. Zhou's research focuses on developing new in vivo MRI and MRS methodologies to study brain function and disease. His most recent work includes absolute quantification of cerebral blood flow, quantification of functional MRI, high-resolution diffusion tensor imaging (DTI), magnetization transfer mechanism, development of chemical exchange saturation transfer (CEST) technology, brain pH MR imaging, and tissue protein MR imaging. Notably, Dr. Zhou and his colleagues invented the amide proton transfer (APT) approach for brain pH imaging and tumor protein imaging. His initial paper on brain pH imaging was published in Nature Medicine in 2003 and his most recent paper on tumor treatment effects was published in Nature Medicine in 2011. A major part of his current research is the pre-clinical and clinical imaging of brain tumors, strokes, and other neurologic disorders using the APT and other novel MRI techniques. The overall goal is to achieve the MRI contrast at the protein and peptide ...level without injection of exogenous agents and improve the diagnostic capability of MRI and the patient outcomes. view more

    Research Areas: magnetic resonance, functional magnetic resonance imaging, brain, stroke

  • Lima Lab

    The Lima Lab’s research is concentrated on the development and application of imaging and technology to address scientific and clinical problems involving the heart and vascular system.

    Specifically, our research is focused on developing magnetic resonance imaging (MRI) contrast techniques to investigate microvascular function in patients and experimental animals with myocardial infarction; functional reserve secondary to dobutamine stimulation and myocardial viability assessed by sodium imaging; and cardiac MRI and computed tomography (CT) program development of techniques to characterize atherosclerosis in humans with cardiovascular or cerebrovascular disease.

    Current projects include:
    • The Coronary Artery Risk Development in Young Adults (CARDIA) Study
    • The MESA (Multi-Ethnic Study of Atherosclerosis) Study
    • The Coronary Artery Evaluation using 64-row Multidetector Computed Tomography Angiography (CORE64) Study

    Joao Lima, MD, is a professor of medicine, radiology and... epidemiology at the Johns Hopkins School of Medicine. view more

    Research Areas: magnetic resonance, cerebrovascular, imaging, cardiovascular, cardiology, atherosclerosis, computed tomography, vascular, myocardial infarction

    Lab Website

    Principal Investigator

    Joao Lima, M.B.A., M.D.

    Department

    Medicine

  • MRB Molecular Imaging Service Center and Cancer Functional Imaging Core

    Established in 2004, the MRB Molecular Imaging Service Center and Cancer Functional Imaging Core provides comprehensive molecular and functional imaging infrastructure to support the imaging research needs of the Johns Hopkins University faculty. Approximately 55-65 different Principal Investigators use the center annually.

    The MRB Molecular Imaging Service Center is located behind the barrier within the transgenic animal facility in the basement of MRB. The MRB location houses a 9.4T MRI/S scanner for magnetic resonance imaging and spectroscopy, an Olympus multiphoton microscope with in vivo imaging capability, a PET-CT scanner, a PET-SPECT scanner, and a SPECT-CT scanner for nuclear imaging, multiple optical imaging scanners including an IVIS Spectrum, and a LI COR near infrared scanner, and an ultrasound scanner.
    A brand new satellite facility in CRB2-LB03 opens in 2019 to house a simultaneous 7T PET-MR scanner, as well as additional imaging equipment, to meet the growing molec...ular and functional imaging research needs of investigators.

    To image with us, MRB Animal Facility training and Imaging Center Orientation are required to obtain access to the MRB Animal Facility and to the MRB Molecular Imaging Center (Suite B14). The MRB Animal Facility training group meets at 9:30 am on Thursdays at the Turner fountain/MRB elevator lobby. The Imaging Center orientation group meets at 1 pm on Thursdays at the Turner fountain, and orientation takes approximately 30 min. Please keep in mind that obtaining access to both facilities requires time, so please plan in advance.
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    Research Areas: cancer research, radiology, Radiological Science

  • Neuroimaging and Modulation Laboratory (NIMLAB)

    The neuroimaging and Modulation Laboratory (NIMLAB) investigates neural correlates of cognition and behavior using neuroimaging methods such as functional magnetic resonance imaging (fMRI) and neuromodulation techniques such as transcranial magnetic stimulation (TMS). We are looking in depth at the contributions of the cerebellum and cerebro-cerebellar circuits to cognition; the effects of chronic heavy alcohol consumption on cognition and brain activation underlying cognitive function; how aging in humans affects neural systems that are important for associative learning and stimulus awareness; and the integration of transcranial magnetic stimulation with functional MRI.

    Research Areas: cognition, alcohol, functional magnetic resonance imaging, imaging, aging, neuroscience, neuroimaging, transcranial magnetic stimulation

    Lab Website

    Principal Investigator

    John Desmond, M.S., Ph.D.

    Department

    Neurology

  • The Pathak Lab

    The Pathak lab is within the Division of Cancer Imaging Research in the Department of Radiology and Radiological Science. We develop novel imaging methods, computational models and visualization tools to ‘make visible’ critical aspects of cancer, stroke and neurobiology. Our research broadly encompasses the following areas: Functional and Molecular Imaging; Clinical Biomarker Development; Image-based Systems Biology and Visualization and Computational Tools. We are dedicated to mentoring the next generation of imagers, biomedical engineers and visualizers. Additional information can be found at www.pathaklab.org or by emailing Dr. Pathak.

    Research Areas: microscopy, vasculature, tumors, systems biology, functional magnetic resonance imaging, 3D imaging, biomarkers, optical imaging, angiogenesis, cancer imaging

  • Wu Lab

    Dr. Wu leads a multi-disciplinary team with collaborators from the Bloomberg School of Public Health, JHU Whiting School of Engineering, and JHU Krieger School of Arts and Sciences. She conducts ongoing investigations with the Multicenter AIDS Cohort Study and Women’s Inter-agency Health Study. Her lab’s goals are to develop, implement, and validate novel imaging-based metrics of cardiac structure and function to improve risk prediction and stratification at the individual patient-level.

    Research Focuses:

    Predictors of Sudden Cardiac Death by Magnetic Resonance Imaging
    Subclinical myocardial disease in people living with HIV
    Individualized risk prediction
    Cardiac structural and mechanical modeling

    Research Areas: AIDS, HIV, risk prediction, myocardial disease

    Principal Investigator

    Katherine Wu, M.D.

    Department

    Medicine

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