Your search keyword '"Clarke, William T [0000-0001-7159-7025]"' showing total 3 results

1. Three-dimensional, 2.5-minute, 7T phosphorus magnetic resonance spectroscopic imaging of the human heart using concentric rings

Author

Clarke, William T, Hingerl, Lukas, Strasser, Bernhard, Bogner, Wolfgang, Valkovič, Ladislav, Rodgers, Christopher T, Clarke, William T [0000-0001-7159-7025], Bogner, Wolfgang [0000-0002-0130-3463], Rodgers, Christopher T [0000-0003-1275-1197], and Apollo - University of Cambridge Repository

Subjects

spectroscopy, MRSI, Magnetic Resonance Spectroscopy, Molecular Medicine, CRT, Humans, Radiology, Nuclear Medicine and imaging, Phosphorus, heart, 31P, Magnetic Resonance Imaging

Abstract

A three-dimensional (3D), density-weighted, concentric rings trajectory (CRT) magnetic resonance spectroscopic imaging (MRSI) sequence is implemented for cardiac phosphorus (31 P)-MRS at 7 T. The point-by-point k-space sampling of traditional phase-encoded chemical shift imaging (CSI) sequences severely restricts the minimum scan time at higher spatial resolutions. Our proposed CRT sequence implements a stack of concentric rings, with a variable number of rings and planes spaced to optimise the density of k-space weighting. This creates flexibility in acquisition time, allowing acquisitions substantially faster than traditional phase-encoded CSI sequences, while retaining high signal-to-noise ratio (SNR). We first characterise the SNR and point-spread function of the CRT sequence in phantoms. We then evaluate it at five different acquisition times and spatial resolutions in the hearts of five healthy participants at 7 T. These different sequence durations are compared with existing published 3D acquisition-weighted CSI sequences with matched acquisition times and spatial resolutions. To minimise the effect of noise on the short acquisitions, low-rank denoising of the spatiotemporal data was also performed after acquisition. The proposed sequence measures 3D localised phosphocreatine to adenosine triphosphate (PCr/ATP) ratios of the human myocardium in 2.5 min, 2.6 times faster than the minimum scan time for acquisition-weighted phase-encoded CSI. Alternatively, in the same scan time, a 1.7-times smaller nominal voxel volume can be achieved. Low-rank denoising reduced the variance of measured PCr/ATP ratios by 11% across all protocols. The faster acquisitions permitted by 7-T CRT 31 P-MRSI could make cardiac stress protocols or creatine kinase rate measurements (which involve repeated scans) more tolerable for patients without sacrificing spatial resolution.

Published

2023

2. Obesity modifies the energetic phenotype of dilated cardiomyopathy

Author

Rayner, Jennifer J, Peterzan, Mark A, Clarke, William T, Rodgers, Christopher T, Neubauer, Stefan, Rider, Oliver J, Rayner, Jennifer J [0000-0002-3519-5480], Clarke, William T [0000-0001-7159-7025], Rodgers, Christopher T [0000-0003-1275-1197], Neubauer, Stefan [0000-0001-9017-5645], Rider, Oliver J [0000-0003-1295-7769], and Apollo - University of Cambridge Repository

Subjects

Weight loss, Magnetic resonance spectroscopy, Cardiac energetics, Heart failure, Obesity, Cardiac magnetic resonance imaging

Abstract

AIMS: We sought to determine if myocardial energetics could distinguish obesity cardiomyopathy as a distinct entity from dilated cardiomyopathy. METHODS AND RESULTS: Sixteen normal weight participants with dilated cardiomyopathy (DCMNW), and 27 with DCM and obesity (DCMOB), were compared to 26 normal weight controls (CTLNW). All underwent cardiac magnetic resonance imaging and 31P spectroscopy to assess function and energetics. Nineteen DCMOB underwent repeat assessment after a dietary weight loss intervention. Adenosine triphosphate (ATP) delivery through creatine kinase (CK flux) was 55% lower in DCMNW than in CTLNW (P = 0.004), correlating with left ventricular ejection fraction (LVEF, r = 0.4, P = 0.015). In contrast, despite similar LVEF (DCMOB 41 ± 7%, DCMNW 38 ± 6%, P = 0.14), CK flux was two-fold higher in DCMOB (P < 0.001), due to higher rate through CK [median kf 0.21 (0.14) vs. 0.11 (0.12) s-1, P = 0.002]. During increased workload, the CTLNW heart increased CK flux by 97% (P < 0.001). In contrast, CK flux was unchanged in DCMNW and fell in DCMOB (by >50%, P < 0.001). Intentional weight loss was associated with positive left ventricular remodelling, with reduced left ventricular end-diastolic volume (by 8%, P < 0.001) and a change in LVEF (40 ± 9% vs. 45 ± 10%, P = 0.002). This occurred alongside a fall in ATP delivery rate with weight loss (by 7%, P = 0.049). CONCLUSIONS: In normal weight, DCM is associated with reduced resting ATP delivery. In obese DCM, ATP demand through CK is greater, suggesting reduced efficiency of energy utilization. Dietary weight loss is associated with significant improvement in myocardial contractility, and a fall in ATP delivery, suggesting improved metabolic efficiency. This highlights distinct energetic pathways in obesity cardiomyopathy, which are both different from dilated cardiomyopathy, and may be reversible with weight loss.

Published

2021

3. Localized rest and stress human cardiac creatine kinase reaction kinetics at 3 T

Author

Clarke, William T, Peterzan, Mark A, Rayner, Jennifer J, Sayeed, Rana A, Petrou, Mario, Krasopoulos, George, Lake, Hannah A, Raman, Betty, Watson, William D, Cox, Pete, Hundertmark, Moritz J, Apps, Andrew P, Lygate, Craig A, Neubauer, Stefan, Rider, Oliver J, Rodgers, Christopher T, Clarke, William T [0000-0001-7159-7025], Rodgers, Christopher T [0000-0003-1275-1197], and Apollo - University of Cambridge Repository

Subjects

Adult, Male, Magnetic Resonance Spectroscopy, cardiac, Myocardium, Respiration, Biopsy, Rest, Posture, Reproducibility of Results, Heart, Middle Aged, StreST, Kinetics, Stress, Physiological, Case-Control Studies, energy metabolism, TRiST, Humans, Female, Obesity, phosphorus, saturation transfer, Creatine Kinase, 31P magnetic resonance spectroscopy

Abstract

Changes in the kinetics of the creatine kinase (CK) shuttle are sensitive markers of cardiac energetics but are typically measured at rest and in the prone position. This study aims to measure CK kinetics during pharmacological stress at 3 T, with measurement in the supine position. A shorter "stressed saturation transfer" (StreST) extension to the triple repetition time saturation transfer (TRiST) method is proposed. We assess scanning in a supine position and validate the MR measurement against biopsy assay of CK activity. We report normal ranges of stress CK forward rate (kfCK ) for healthy volunteers and obese patients. TRiST measures kfCK in 40 min at 3 T. StreST extends the previously developed TRiST to also make a further kfCK measurement during

Published

2019