Research projects suitable for medical students and residents.
| FACULTY SPONSOR |
RESEARCH PROJECTS |
LOCATION |
Richard Breiman
richard.breiman@radiology.ucsf.edu |
Applications of 3D image processing and display techniques (including stereoscopic 3D) in medical diagnosis, education, simulation of medical procedures, and intra-operative guidance. Goals of this work include the development of medical student and postgraduate teaching and simulation modules and serious games using 3D image processing and display techniques, interactivity, haptics/force feedback and tissue deformation modeling.
Techniques for the development of online teaching modules, including multi-disciplinary teaching files and remote accessibility of lectures, lessons and other educational materials.
Development of techniques for disease surveillance in remote areas, without conventional web access, including remote portions of Africa and Asia. Applications of these techniques to the delivery of educational materials to 3rd world medical providers.
CT cholangiography in the assessment of biliary disease and living related liver donors.
CT assessment of the complications of endoluminal stent grafts for the repair of aortic aneurysms. |
UCSF Parnassus |
Ben Yeh
ben.yeh@radiology.ucsf.edu |
Development of new CT contrast agents.
Development of new applications for CT contrast materials.
Evaluation of bowel by CT.
Improvement of CT technique for clinical imaging.
Alterations in tumor perfusion in response to treatment.
Living donor evaluation for liver and kidney transplantation.
Radiological mimics of disease.
Mesenteric lymph node and implant detection.
Erdheim Chester disease in the abdomen (Medical Student)
Vascular shunts.
Digital Radiography teaching file.
|
UCSF Parnassus |
Fergus Coakley
fergus.coakley@radiology.ucsf.edu |
Significance of adrenal nodularity or prominence.
Accuracy of CT in the diagnosis of cirrhosis.
MRI and MRSI of recurrent prostate concer after radiation. |
UCSF Parnassus |
Aliya Qayyum
aliya.qayyum@radiology.ucsf.edu |
SPIO
Pseudocirrhosis
MRSI of Brachytherapy treatment failure |
UCSF Parnassus |
William Dillon
bill.dillon@radiology.ucsf.edu |
Stroke Research
CT – Angio Research |
UCSF Parnassus |
David Saloner
saloner@itsa.ucsf.edu |
Comparison of in-vivo MR characterization of atherosclerosis
with histo-pathologic evaluation of carotid specimens.
Validation of Contrast-enhanced MR angiography methods. |
VA |
Jim Barkovich
jimb@radiology.ucsf.edu |
Imaging of Neonates using spectroscopy, diffusion, and studying
brain development. |
UCSF Parnassus |
Gautham Reddy
gautham.reddy@radiology.ucsf.edu |
Cardiovascular MRI
Funding available from RSNA – Medical student grant ($3000)
|
UCSF Parnassus |
Judy Yee
judy.yee@radiology.ucsf.edu |
Computer Aided Detection of Colorectal Masses.
Comparison of Barium enema, Virtual Colonoscopy and Colonoscopy.
Contrast-enhanced Virtual Colonoscopy – Is there increased sensitivity
and specificity for lesion detection?
Development of a “prepless” version of Virtual Colonoscopy
Extracolonic findings on Virtual Colonoscopy.
Performance of Multidetector CT using low dose protocol
Comparison of 3D rendering techniques for Virtual Colonoscopy
Translucency view for distinguishing types of colonic polyps.
Perforemance3 of VC in a Screening Population-ACRIN.
CD ROM on Virtual Colonoscopy – to work with Hanh Do Ryan
Automated quantification of lumenal distention on human data sets.
CT Angiography vs Angiography for endovascular aortic stent-grafts
Screening for hepatocellular carcinoma in patients with advanced liver
disease
CT Angiography of Visceral Vessels
CT Angiography of Lower Extremity Vessels.
Peliosis hepatis
CT of Renal arteriovenous malformation
|
VA
3D Imaging Lab |
Virginia Griswold
Virginia.Griswold@med.va.gov |
Bone loss in Chronic Inflammatory Diseases (mostly HIV) using
DEXA scans. |
VA |
Robert Brasch
Robert.brasch@radiology.ucsf.edu |
Studies of radiation dose to children from CT scanning
using pediatric phantoms and new models of CT equipment.
New studies to examine optical imaging and fluorescent contrast media
for examination of breast cancers (in rats) - at least six months required.
Create a digital pediatric teaching file. |
UCSF Parnassus |
Sharmila Majumdar
Sharmila.majumdar@radiology.ucsf.edu |
Studies characterizing bone and articular cartilage using
advanced imaging techniques.
Studies of osteoporosis using magnetic resonance imaging and stage of
the art micro CT imaging. |
UCSF and UC Berkeley
|
Srikantan Nagarajan
srikantan@sbcglobal.net |
Training studies to examine plasticity in auditory and
somatosensory cortex.
Somatosensory and motor cortical network activation dynamics.
Mapping eloquent cortex and comparisons with intraopertive recordings.
Studies of perception of affective components of speech.
Neural imaging of auditory feedback during speech.
Auditory and somatosensory processing in autism.
Multiscale imaging of auditory and somatosensory cortex in monkeys.
Integration of multimodal functional brain imaging such as MEG, fMRI,
DTI, and ECoG. |
UCSF Parnassus
MSI Lab |
Orit A. Glenn
orit.glenn@radiology.ucsf.edu |
Evaluating the diagnostic accuracy of fetal MRI for brain abnormalities
Evaluating the motor pathways in children with motor dysfunction using diffusion tensor magnetic resonance imaging.
Fetal MRI in the evaluation of prenatally diagnosed isolated mild ventriculomegaly
Evaluating the prognostic value of fetal MRI
Development and application of advanced fetal MRI techniques |
UCSF Parnassus |
Susan Noworolski
sue@mrsc.ucsf.edu |
MRS of the liver for studying fatty liver disease and effects of diet.
Quantification of MRI volume changes in the liver and visceral fat.
Semiautomatic versus manual delineation of the prostate on MRI and correlations
with pathology.
|
UCSF Parnassus MRSC
or
UCSF China Basin Landing Center for Molecular Functional Imaging
|
Max Wintermark
Max.Wintermark@radiology.ucsf.edu |
Stroke CT and MR imaging research, including perfusion-CT.
CT imaging of intracranial aneurysm.
CT imaging of vasospasm.
CT and MRI evaluation of carotid atherosclerotic diseases.
Correlation of carotid and coronary artery imaging.
CT and MR imaging of cerebral venous thrombosis.
|
UCSF Parnassus |
Allan Bloom
Allan.Bloom@radiology.ucsf.edu |
To investigate the “retrievability” of two competitive commercially available inferior vena cava filtration devices, both of which are currently in everyday use at UCSF. The project involves construction of a protocol, submission of CHR applications, recording of data and subsequent analysis for publication.
|
UCSF Parnassus
VA Medical Center
San Francisco General Hospital
|
Heike Daldrup-Link
daldrup@radiology.ucsf.edu |
Investigation of new, targeted, fluorescent dyes for a specific detection of neuroblastomas in mice with optical imaging.
Non-invasive tracking of natural killer cells to tumors with optical imaging.
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China Basin
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