1
Arjun G Yodh, Joel H Greenberg, Guoqiang Yu, John A Detre, Turgut Durduran, Mark G Burnett, Emile R Mohler III, Harry Quon, Stephen M Hahn: Optical measurement of tissue blood flow, hemodynamics and oxygenation. The Trustees Of The University Of Pennsylvania, Woodcock Washburn, December 20, 2011: US08082015 (24 worldwide citation)

An embodiment of the invention includes a device, system and method for determining the characteristics of deep tissue. The novel method includes measuring blood flow rate and oxygenation characteristics of the tissue, and determining oxygen metabolism of the tissue as a function of the measure bloo ...


2
John S Leigh, John A Detre, Donald S Williams, Alan P Koretsky: Methods for measuring perfusion using magnetic resonance imaging. Trustees of the University of Penna, Carnegie Mellon University, Woodcock Washburn Kurtz Mackiewicz & Norris, April 4, 1995: US05402785 (20 worldwide citation)

Methods for measuring the perfusion of fluid in a substance are shown to include subjecting the fluid to electromagnetic energy so as to cause a response related to the magnetization of the fluid before it enters the substance, performing magnetic resonance measurements on the substance to generate ...


3
Arjun G Yodh, Joel H Greenberg, Guoqiang Yu, John A Detre, Turgut Durduran, Mark G Burnett, Emile R Mohler, Harry Quon, Stephen M Hahn: Optical measurement of tissue blood flow, hemodynamics and oxygenation. Trustees of the University of Pennsylvania, Woodcock Washburn, March 23, 2006: US20060063995-A1

An embodiment of the invention includes a device, system and method for determining the characteristics of deep tissue. The novel method includes measuring blood flow rate and oxygenation characteristics of the tissue, and determining oxygen metabolism of the tissue as a function of the measure bloo ...


4
Ze Wang, John A Detre: 2d partially parallel imaging with k-space surrounding neighbors based data reconstruction. Pearl Cohen Zedek Latzer, June 10, 2010: US20100142823-A1

Embodiments of the present invention relate to a Surrounding Neighbors based Autocalibrating Partial Parallel Imaging (SNAPPI) approach to MRI reconstruction. Several 2D PPI reconstruction methods may be provided by applying SNAPPI to recover the partially skipped k-space data along two PE direction ...