公开(公告)号：EP1169749B1

公开(公告)日：2010-05-26

申请号：EP00922135.9

申请日：2000-04-13

申请人： Surgi-Vision ,  The Johns Hopkins University, School of Medicine, Office of Technology Licencing

发明人： LARDO, Albert, C. ,  YANG, Xiaoming ,  ATALAR, Ergin ,  KARMARKAR, Parag ,  McVEIGH, Elliott, R. ,  HALPERIN, Henry, R. ,  McNAMARA, Christine, Enger ,  BOTTOMLEY, Paul, A.

IPC分类号： G01R33/28

CPC分类号： G01R33/287 ,  G01R33/34084

公开(公告)号：EP1169749A2

公开(公告)日：2002-01-09

申请号：EP00922135.9

申请日：2000-04-13

申请人： Surgi-Vision ,  The Johns Hopkins University, School of Medicine, Office of Technology Licencing

发明人： LARDO, Albert, C. ,  YANG, Xiaoming ,  ATALAR, Ergin ,  KARMARKAR, Parag ,  McVEIGH, Elliott, R. ,  HALPERIN, Henry, R. ,  McNAMARA, Christine, Enger ,  BOTTOMLEY, Paul, A.

IPC分类号： H01Q1/00

CPC分类号： G01R33/287 ,  G01R33/34084

摘要： The invention describes a system, method, and means for an MRI guidewire that can be visible on an MRI; can act as an antenna, and receive MRI signals from surrounding subject matter; and can allow the use of multiple interventional tools without removal of the guide wire from a subject. The antenna (106) extends beyond probe shaft (105) at distal end (109). The probe shaft (105) has a core (101), first electric (102), shield (103), and second dielectric (104).

公开(公告)号：EP0809810A1

公开(公告)日：1997-12-03

申请号：EP95931684.0

申请日：1995-09-01

申请人： THE JOHNS HOPKINS UNIVERSITY SCHOOL OF MEDICINE

发明人： ATALAR, Ergin ,  McVEIGH, Elliot, Ross

IPC分类号： G01V3 ,  A61B5 ,  G01R33

CPC分类号： G01R33/4833 ,  G01R33/561

摘要： A method of minimizing dead-periods in magnetic resonance imaging pulse sequences employs a specimen disposed within magnetic field (6), a source of RF signals (2), a receiver (8) for receiving signals from the specimen responsive to RF pulses and emitting respective output signals. A computer (12) is provided for receiving the output signals from the receiver and establishing image information which may be displayed (16). For the dead-period, the minimum and maximum phase encoding step, the scan plane gradient pulse for the slice, phase encoding and readout directions are determined and the moments contained within the dead-period waveform is determined. The values are transformed into gradient amplifier coordinates and the minimum dead-period based on the dead-period waveform is determined. The dead-period is employed in establishing a hardware optimized waveform which may be trapezoidal. The trapezoidal waveform is preferably established by for each phase encoding step determining the starting and ending gradient levels and the moments contained within the dead-period waveform using the calculated minimum dead-period.

公开(公告)号：EP1126783A1

公开(公告)日：2001-08-29

申请号：EP99956899.1

申请日：1999-11-03

申请人： The Johns Hopkins University,School of Medicine,Office of Technology Licencing

发明人： LIMA, Joao, A., C. ,  SHUNK, Kendrick, A. ,  ATALAR, Ergin

IPC分类号： A61B5/055

CPC分类号： G01R33/34084 ,  G01R33/34053 ,  G01R33/3657

摘要： A method of trans-esophageal magnetic resonance analysis of a patient, such as an animal or human, includes providing a non-loop antenna (84), such as a coil or solenoid coil. The non-loop antenna is received within a Levin-type gastric tube (62). The gastric tube which receives the non-loop antenna is inserted in the esophagus of the patient. A tuning, matching and de-coupling circuit (12) is electrically connected to a magnetic resonance imaging scanner (18). The magnetic resonance imaging scanner (18) is employed to provide magnetic resonance imaging or spectroscopic analysis of an intra-Thoracic structure, such as the aorta, of the patient.