7 Tesla (T) human cardiovascular magnetic resonance imaging using FLASH and SSFP to assess cardiac function: Validation against 1.5T and 3T

Impact of Field Strength in Clinical Cardiac Magnetic Resonance Imaging

Holtackers, R.J.
Wildberger, J.E.
Wintersperger, B.J.
Chiribiri, A.

November 2021

Cardiac magnetic resonance imaging (MRI) is widely applied fur the noninvasive assessment of cardiac...

3-Tesla MRI for the evaluation of myocardial viability: a comparative study with 1.5-Tesla MRI

LIGABUE, Guido
FIOCCHI F
FERRARESI S
BARBIERI A
ROSSI, Rosario
MODENA, Maria Grazia
ROMAGNOLI R
TORRICELLI, Pietro

January 2008

PURPOSE: We compared 3-Tesla (3-T) and 1.5-Tesla (1.5-T) cardiac magnetic resonance imaging (MRI) f...

0.3-second FLASH MRI of the human heart.

Frahm, J.
Merboldt, K.
Bruhn, H.
Gyngell, M.
Haenicke, W.
Chien, D.

January 1990

Flow-suppressed FLASH MR images of the human heart have been recorded within a measuring time of 0.3...

7 Tesla (T) human cardiovascular magnetic resonance imaging using FLASH and SSFP to assess cardiac function: validation against 1.5 T and 3 T.

Suttie, JJ
Delabarre, L
Pitcher, A
van de Moortele, PF
Dass, S
Snyder, CJ
Francis, JM
Metzger, GJ
Weale, P
Ugurbil, K
Neubauer, S
Robson, M
Vaughan, T

January 2012

We report the first comparison of cardiovascular magnetic resonance imaging (CMR) at 1.5 T, 3 T and ...

Determination of cardiac volumes and mass with FLASH and SSFP cine sequences at 1.5 vs. 3 Tesla: a validation study.

Hudsmith, LE
Petersen, SE
Tyler, DJ
Francis, JM
Cheng, AS
Clarke, K
Selvanayagam, JB
Robson, MD
Neubauer, S

August 2006

PURPOSE: To compare cardiac cine MR imaging using steady state free precession (SSFP) and fast low a...

Cardiac cine MR-imaging at 3T: FLASH vs SSFP.

Tyler, DJ
Hudsmith, LE
Petersen, SE
Francis, JM
Weale, P
Neubauer, S
Clarke, K
Robson, MD

January 2006

The implications of an increase in field strength, from 1.5 T to 3 T, for routine functional cardiac...

and 3 Tesla Using FLASH and SSFP Cine Imaging

S. Neubauer

October 2015

Purpose: To investigate left atrial volumes and function and their variability in healthy vol-unteer...

Cardiac chamber quantification using magnetic resonance imaging at 7 Tesla-a pilot study

von Knobelsdorff-Brenkenhoff, F.
Frauenrath, T.
Prothmann, M.
Dieringer, M.A.
Hezel, F.
Renz, W.
Kretschel, K.
Niendorf, T.
Schulz-Menger, J.

December 2010

OBJECTIVES: Interest in cardiovascular magnetic resonance (CMR) at 7 T is motivated by the expected ...

Assessment of left atrial volumes at 1.5 Tesla and 3 Tesla using FLASH and SSFP cine imaging.

Hudsmith, LE
Cheng, AS
Tyler, DJ
Shirodaria, C
Lee, J
Petersen, SE
Francis, JM
Clarke, K
Robson, MD
Neubauer, S

January 2007

PURPOSE: To investigate left atrial volumes and function and their variability in healthy volunteers...

Cardiovascular Magnetic Resonance Imaging at 3.0 Tesla

Gutberlet, M.
Freyhardt, P.
Spors, B.
Schwinge, K.
Grothoff, M.
Noeske, R.
Niendorf, T.
Felix, R.

October 2004

Cardiovascular MR imaging often requires high temporal and spatial resolution, especially in order t...

Real-time cardiovascular magnetic resonance at 1.5 T using balanced SSFP and 40 ms resolution.

Voit, D.
Zhang, S.
Unterberg-Buchwald, C.
Sohns, J.
Lotz, J.
Frahm, J.

September 2013

Background: While cardiovascular magnetic resonance (CMR) commonly employs ECG-synchronized cine acq...

Effects of steady state free precession parameters on cardiac mass, function, and volumes.

Hogan, MC
Petersen, SE
Hudsmith, LE
Francis, JM
Neubauer, S
Robson, MD

October 2007

PURPOSE: We aimed to investigate comparability of LV volumes, function, and mass acquired with three...

Influence of high magnetic field strengths and parallel acquisition strategies on image quality in cardiac 2D CINE magnetic resonance imaging: comparison of 1.5 T vs. 3.0 T

Gutberlet, M.
Schwinge, K.
Freyhardt, P.
Spors, B.
Grothoff, M.
Denecke, T.
Luedemann, L.
Noeske, R.
Niendorf, T.
Felix, R.

August 2005

The aim of this paper is to examine signal-to-noise ratio (SNR), contrast-to-noise ratio (CNR) and i...

Comprehensive cardiac magnetic resonance imaging at 3.0 Tesla: feasibility and implications for clinical applications

Gutberlet, M.
Noeske, R.
Schwinge, K.
Freyhardt, P.
Felix, R.
Niendorf, T.

February 2006

OBJECTIVE: The objective of this study was to examine the applicability of high magnetic field stren...

VENTRICULAR FUNCTION Evaluation of Left Ventricular Volumes and Ejection Fraction Using Fast Steady-State Cine MR Imaging: Comparison with Left Ventricular Angiography

Takeshi Nakano
Atsushi Nozaki

September 2015

Previous studies demonstrated that magnetic resonance (MR) imaging consistently underestimated angio...

Impact of Field Strength in Clinical Cardiac Magnetic Resonance Imaging

Holtackers, R.J.
Wildberger, J.E.
Wintersperger, B.J.
Chiribiri, A.

November 2021

Cardiac magnetic resonance imaging (MRI) is widely applied fur the noninvasive assessment of cardiac...

3-Tesla MRI for the evaluation of myocardial viability: a comparative study with 1.5-Tesla MRI

LIGABUE, Guido
FIOCCHI F
FERRARESI S
BARBIERI A
ROSSI, Rosario
MODENA, Maria Grazia
ROMAGNOLI R
TORRICELLI, Pietro

January 2008

PURPOSE: We compared 3-Tesla (3-T) and 1.5-Tesla (1.5-T) cardiac magnetic resonance imaging (MRI) f...

0.3-second FLASH MRI of the human heart.

Frahm, J.
Merboldt, K.
Bruhn, H.
Gyngell, M.
Haenicke, W.
Chien, D.

January 1990

Flow-suppressed FLASH MR images of the human heart have been recorded within a measuring time of 0.3...

7 Tesla (T) human cardiovascular magnetic resonance imaging using FLASH and SSFP to assess cardiac function: validation against 1.5 T and 3 T.

Suttie, JJ
Delabarre, L
Pitcher, A
van de Moortele, PF
Dass, S
Snyder, CJ
Francis, JM
Metzger, GJ
Weale, P
Ugurbil, K
Neubauer, S
Robson, M
Vaughan, T

January 2012

We report the first comparison of cardiovascular magnetic resonance imaging (CMR) at 1.5 T, 3 T and ...

Determination of cardiac volumes and mass with FLASH and SSFP cine sequences at 1.5 vs. 3 Tesla: a validation study.

Hudsmith, LE
Petersen, SE
Tyler, DJ
Francis, JM
Cheng, AS
Clarke, K
Selvanayagam, JB
Robson, MD
Neubauer, S

August 2006

PURPOSE: To compare cardiac cine MR imaging using steady state free precession (SSFP) and fast low a...

Cardiac cine MR-imaging at 3T: FLASH vs SSFP.

Tyler, DJ
Hudsmith, LE
Petersen, SE
Francis, JM
Weale, P
Neubauer, S
Clarke, K
Robson, MD

January 2006

The implications of an increase in field strength, from 1.5 T to 3 T, for routine functional cardiac...

and 3 Tesla Using FLASH and SSFP Cine Imaging

S. Neubauer

October 2015

Purpose: To investigate left atrial volumes and function and their variability in healthy vol-unteer...

Cardiac chamber quantification using magnetic resonance imaging at 7 Tesla-a pilot study

von Knobelsdorff-Brenkenhoff, F.
Frauenrath, T.
Prothmann, M.
Dieringer, M.A.
Hezel, F.
Renz, W.
Kretschel, K.
Niendorf, T.
Schulz-Menger, J.

December 2010

OBJECTIVES: Interest in cardiovascular magnetic resonance (CMR) at 7 T is motivated by the expected ...

Assessment of left atrial volumes at 1.5 Tesla and 3 Tesla using FLASH and SSFP cine imaging.

Hudsmith, LE
Cheng, AS
Tyler, DJ
Shirodaria, C
Lee, J
Petersen, SE
Francis, JM
Clarke, K
Robson, MD
Neubauer, S

January 2007

PURPOSE: To investigate left atrial volumes and function and their variability in healthy volunteers...

Cardiovascular Magnetic Resonance Imaging at 3.0 Tesla

Gutberlet, M.
Freyhardt, P.
Spors, B.
Schwinge, K.
Grothoff, M.
Noeske, R.
Niendorf, T.
Felix, R.

October 2004

Cardiovascular MR imaging often requires high temporal and spatial resolution, especially in order t...

Real-time cardiovascular magnetic resonance at 1.5 T using balanced SSFP and 40 ms resolution.

Voit, D.
Zhang, S.
Unterberg-Buchwald, C.
Sohns, J.
Lotz, J.
Frahm, J.

September 2013

Background: While cardiovascular magnetic resonance (CMR) commonly employs ECG-synchronized cine acq...

Effects of steady state free precession parameters on cardiac mass, function, and volumes.

Hogan, MC
Petersen, SE
Hudsmith, LE
Francis, JM
Neubauer, S
Robson, MD

October 2007

PURPOSE: We aimed to investigate comparability of LV volumes, function, and mass acquired with three...

Influence of high magnetic field strengths and parallel acquisition strategies on image quality in cardiac 2D CINE magnetic resonance imaging: comparison of 1.5 T vs. 3.0 T

Gutberlet, M.
Schwinge, K.
Freyhardt, P.
Spors, B.
Grothoff, M.
Denecke, T.
Luedemann, L.
Noeske, R.
Niendorf, T.
Felix, R.

August 2005

The aim of this paper is to examine signal-to-noise ratio (SNR), contrast-to-noise ratio (CNR) and i...

Comprehensive cardiac magnetic resonance imaging at 3.0 Tesla: feasibility and implications for clinical applications

Gutberlet, M.
Noeske, R.
Schwinge, K.
Freyhardt, P.
Felix, R.
Niendorf, T.

February 2006

OBJECTIVE: The objective of this study was to examine the applicability of high magnetic field stren...

VENTRICULAR FUNCTION Evaluation of Left Ventricular Volumes and Ejection Fraction Using Fast Steady-State Cine MR Imaging: Comparison with Left Ventricular Angiography

Takeshi Nakano
Atsushi Nozaki

September 2015

Previous studies demonstrated that magnetic resonance (MR) imaging consistently underestimated angio...

Impact of Field Strength in Clinical Cardiac Magnetic Resonance Imaging

Holtackers, R.J.
Wildberger, J.E.
Wintersperger, B.J.
Chiribiri, A.

November 2021

Cardiac magnetic resonance imaging (MRI) is widely applied fur the noninvasive assessment of cardiac...

3-Tesla MRI for the evaluation of myocardial viability: a comparative study with 1.5-Tesla MRI

LIGABUE, Guido
FIOCCHI F
FERRARESI S
BARBIERI A
ROSSI, Rosario
MODENA, Maria Grazia
ROMAGNOLI R
TORRICELLI, Pietro

January 2008

PURPOSE: We compared 3-Tesla (3-T) and 1.5-Tesla (1.5-T) cardiac magnetic resonance imaging (MRI) f...

0.3-second FLASH MRI of the human heart.

Frahm, J.
Merboldt, K.
Bruhn, H.
Gyngell, M.
Haenicke, W.
Chien, D.

January 1990

Flow-suppressed FLASH MR images of the human heart have been recorded within a measuring time of 0.3...

7 Tesla (T) human cardiovascular magnetic resonance imaging using FLASH and SSFP to assess cardiac function: Validation against 1.5T and 3T

Abstract

Extracted data

7 Tesla (T) human cardiovascular magnetic resonance imaging using FLASH and SSFP to assess cardiac function: Validation against 1.5T and 3T

Abstract

Extracted data

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