School of Medicine


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  • Andrei Iagaru

    Andrei Iagaru

    Associate Professor of Radiology (Nuclear Medicine) at the Stanford University Medical Center

    Current Research and Scholarly Interests Current research projects include:
    1) PET/MRI and PET/CT for Early Cancer Detection
    2) Targeted Radionuclide Therapy
    3) Clinical Translation of Novel PET Radiopharmaceuticals;

  • Ibrahim A. Idakoji MD, MPH

    Ibrahim A. Idakoji MD, MPH

    Clinical Instructor, Radiology

    Bio Ibrahim Idakoji is a native of the Bay Area and practicing Interventional Radiologist at Stanford Medical Center who specializes in minimally invasive, image-guided percutaneous and endovascular procedures that aid in the diagnosis and treatment of complex vascular and oncologic disease. Some of his areas of interest include: treatment of both acute and chronic venous thromboembolic disease, treatment of primary and metastatic hepatic malignancy, and percutaneous pain management.

  • Debra M. Ikeda, M.D., FACR, FSBI

    Debra M. Ikeda, M.D., FACR, FSBI

    Professor of Radiology (General Radiology)

    Current Research and Scholarly Interests My research interests are quality improvement in mammography positioning, digital breast tomosynthesis (DBT) cancer detection and imaging pitfalls, MRI-guided breast biopsy, MRI BIRADS 3 lesions, fiducial markers for Radiation Therapy, correlation of breast cancer and FDG PET imaging, percutaneous breast biopsy

  • Hakan Inan

    Hakan Inan

    Postdoctoral Research Fellow, Radiology

    Current Research and Scholarly Interests Developing microfluidic- and nanotechnology-based diagnostic tools, techniques, and devices for medical applications (particularly for detection and monitoring of Cancer) at the point-of-care (POC).

  • Fatih Inci

    Fatih Inci

    Basic Life Sci Res Assoc, Rad/Canary Center at Stanford for Cancer Early Detection

    Current Role at Stanford Dr. Fatih Inci?s area of excellence in research is to create micro- and nano-scale platform technologies at the intersection of medicine, biomedical engineering, biotechnology, chemistry, and materials science by manipulating biomolecules, cells and viruses in small volumes that offers precise solutions for real-world challenges in clinical diagnostics, personalized medicine, early cancer detection, forensic science, and biomarker discovery.

    SOME OF THE RESEARCH HIGHLIGHTS and NEWS
    ?New device selects healthy sperm (Stanford Medicine) (2018).
    ?WPI Researchers Play Critical Role to Create Sperm-Sorting Device That Could Improve IVF Success (Worcester Polytechnic Institute) (2018).
    ?Sperm ?obstacle course? created by scientists to select healthiest ones for IVF (The Independent UK) (2018).
    ?Separating the weak from the strong: New device sorts sperm (Scope by Stanford Medicine) (2018).
    ?Interview on Istanbul University, Science Faculty - Faculty Guide (2017).
    ?Bioengineering and Biomedicine - Interview on Crossing Paths (2017).
    ?RöporTAF Interview on TAV Network (2017).
    ?Scientists develop new HIV diagnostic device (Johns Hopkins News-Letter) (2016).
    ?Potential point-of-care diagnostic platform (EurekAlert ? Science AAAS) (2015).
    ?A New Platform for Point-of-Care Diagnostics? (Optics&Photonics News) (2015).
    ?Universelle Diagnostik: Ein Bluttest für alles (Deutschlandfunk) (2015).
    ?Smarter, Cheaper Technologies Offer Improved Point-of-care Medicine (NIH ? National Institue of Biomedical Imaging and Bioengineering) (2015).
    ?New HIV Test May Improve Point-of-care Medicine in Remote Regions (Journal of the American Medical Association (JAMA)) (2015).
    ?New Biosensing Platform to be used in Disease Detection (Dartmouth University)
    ?Paper and Phones Could Soon Diagnose Ebola and HIV for $1 (Newsweek) (MSN News) (2015).
    ?Biosensing Films and Smartphones Let Doctors Diagnose Disease from Anywhere (Popular Science) (2015).
    ?Bientôt un diagnostic médical avec son smartphone (Futura Sciences) (2015).
    ?Novel Biosensing Platform Could Remotely Diagnose Disease And Monitor Treatment (BioSpace) (2015).
    ?Smarter, cheaper technologies for improved point-of-care medicine in remote areas (Kurzweil Accelerating Intelligence) (2015).
    ?App may detect bacterial infections (TV news in WPLG TV, an affiliate of ABC News) (2015).
    ?Un sistema permite diagnosticar enfermedades por el cellular (Investigacion y Desarrollo) (2015).
    ?Smartphone accessory puts HIV diagnosis in doctors' pockets (Engadget) (2015).
    ?Cell Phone App Detects Bacteria and Infectious Diseases (HCP Live) (2015).
    ?New Biosensing Platform Could Quickly and Accurately Diagnose Disease and Monitor Treatment Remotely (Florida Atlantic University) (2015).
    ?Smart phone diagnosis? Biosensing platform quickly and accurately diagnoses disease and monitors treatment remotely (ScienceDaily) (2015).
    ?Smartphone App Detects Bacteria, Diseases (Highlights in Product, Design & Development) (Nature World News) (2015).
    ?Novel biosensing platform could remotely determine treatment options for HIV, E-coli (News-Medical Net) (2015)
    ?Nanomechanical motion of Escherichia coli adhered to a surface ? (Canary Center at Stanford Newsletter) (2014).
    ?And so they beat on, flagella against the cantilever ? (American Institute of Physics) (Phys.org) (EurekAlert ? Science AAAS) (ScienceDaily) (Kurzweil Accelerating Intelligence) (2014).
    ?It?s flagella against the Cantilever for the fate of bacteria ? (Boston University) (Science 2.0) (2014).
    ?Palo Alto Weekly - Stoking a passion for science (News Cover) (2014).
    ?Disposable Chips to Detect Antiepileptic Drug Serum Concentrations at the Point of Care using Nanoplasmonic Platform ? Brigham & Women?s Hospital, BRIght Future Prize (Nature Medicine) (Brigham & Women?s Hospital) (2013).

  • Michael Iv

    Michael Iv

    Clinical Assistant Professor, Radiology

    Current Research and Scholarly Interests My clinical and research interests include brain tumor and vascular imaging in both the adult and pediatric populations, incorporating advanced MR imaging techniques and analyses using qualitative and quantitative methods.

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