Current Role at Stanford

3D Technologist at 3DQ Laboratory. I am very much involved in improving and developing new processing methods and protocols. Additionally I have been implementing many technological changes which minimize our footprint and streamline our workflow. Examples of how this is being done are promoting a server-based strategy for workflow and consolidating non-server functions into fewer PCs. The non-server functions are almost all available from any PC through VNC clients which essentially has made everything operate like a server-based system (with the exception of only 1 user at a time).

The future of the 3DQ Lab might include the ability to do everything from remote locations as well.

Education & Certifications

  • M.S., University of Phoenix, Information Science (2013)
  • B.S., Florida Hospital College of Health Science, Radiologic Sciences (2006)
  • MRI Cert., Walter Reed Army Medical Center, MRI Technology (1999)
  • X-Ray Cert., U.S. Army - Fort Sam Houston & Ft. Carson Evans Army Community Hospital, Radiologic Technology (1998)
  • EMT Cert., Fort Sam Houston Texas, Emergency Medical Technician (1997)


All Publications

  • Rapid MR venography in children using a blood pool contrast agent and multi-station fat-water-separated volumetric imaging PEDIATRIC RADIOLOGY Ghanouni, P., Walters, S. G., Vasanawala, S. S. 2012; 42 (2): 242-248


    A rapid, reliable radiation-free method of pediatric body venography might complement US by evaluating veins in the abdomen and pelvis and by providing a global depiction of venous anatomy. We describe a MR venography technique utilizing gadofosveset, a blood pool contrast agent, in children. The technique allows high-spatial-resolution imaging of the veins from the diaphragm to the knees in less than 15 min of total exam time.

    View details for DOI 10.1007/s00247-011-2254-5

    View details for Web of Science ID 000301664100015

    View details for PubMedID 21989981