Short‐Term Variability of Proton Density Fat Fraction in Pancreas and Liver Assessed by Multiecho Chemical‐Shift Encoding‐Based <scp>MRI</scp> at 3 T

Machann, Jürgen; Hasenbalg, Maytee; Dienes, Julia; Wagner, Róbert; Sandforth, Arvid; Fritz, Victor; Birkenfeld, Andreas L.; Nikolaou, Konstantin; Kullmann, Stephanie; Schick, Fritz; Heni, Martin

doi:10.1002/jmri.28084

Cited by 10 publications

(7 citation statements)

References 40 publications

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“…Reproducibility and sensitivity of pancreatic fat measurements were recently reported, 10 and showed that the applied technique is highly reproducible with coefficients of variation of <1% in pancreatic subregions (head, body, tail), and capable of detecting changes in the low range of PDFF.…”

Section: Methodsmentioning

confidence: 88%

Eight weeks of empagliflozin does not affect pancreatic fat content and insulin secretion in people with prediabetes

Hummel

Machann

Dannecker

et al. 2022

Diabetes Obesity Metabolism

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Section: Methodsmentioning

confidence: 88%

Eight weeks of empagliflozin does not affect pancreatic fat content and insulin secretion in people with prediabetes

Hummel

Machann

Dannecker

et al. 2022

Diabetes Obesity Metabolism

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“…However, the short-term changes in IPFD are known to be negligible. 56 Last, nocturnal (22:00 and 05:59 h) and diurnal phases (06:00 and 21:59 h) were defined in the present study in accordance with the protocol of the manufacturer of CGM devices. It is acknowledged that the definitions of nocturnal and diurnal glycaemia have been somewhat inconsistent in the literature.…”

Section: Discussionmentioning

confidence: 99%

“…Sixth, as a strong magnetic field may impact the accuracy of CGM data, 55 all participants underwent MRI outside of the 7‐day period of CGM data collection. However, the short‐term changes in IPFD are known to be negligible 56 . Last, nocturnal (22:00 and 05:59 h) and diurnal phases (06:00 and 21:59 h) were defined in the present study in accordance with the protocol of the manufacturer of CGM devices.…”

Section: Discussionmentioning

confidence: 99%

Intra‐pancreatic fat is associated with continuous glucose monitoring metrics

Liu,

Kimita,

Shamaitijiang

et al. 2024

Diabetes Obesity Metabolism

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AimTo investigate the relationship of fat in the pancreas with time spent in different glycaemic ranges.MethodsAbdominal magnetic resonance imaging at 3.0 Tesla was used to quantify fat in the pancreas as both continuous [i.e. intra‐pancreatic fat deposition (IPFD)] and binary (i.e. fatty change of the pancreas vs. normal pancreas) variables. Dexcom G6 devices were used to collect continuous glucose monitoring data every 5 min over a continuous 7‐day period. Time above range (TAR), time in range (TIR) and time below range were computed. Statistical models were built to adjust for age, sex, body composition, and other covariates in linear regression analysis and analysis of covariance.ResultsIn total, 38 individuals were studied. IPFD was significantly associated with TAR (p = .036) and TIR (p = .042) after adjustment for covariates. For every 1% increase in IPFD, there was a 0.3 unit increase in TAR and a decrease in TIR. Individuals with fatty change of the pancreas, when compared with those with normal pancreas, had significantly higher TAR (p = .034) and lower TIR (p = .047) after adjustment for covariates. Neither IPFD (p = .805) nor fatty change of the pancreas (p = .555) was associated with time below range after adjustment for covariates.ConclusionIncreased fat in the pancreas is associated with excessive glycaemic variability. Fatty change of the pancreas may contribute to heightening the risk of cardiovascular diseases.

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“…Recently, soy lecithin, a naturally occurring emulsifier that is mainly used in the food industry, has been identified as an attractive agent for the preparation of tissue‐like MRI fat–water phantoms 18,19 . In former experiments, it was found that dissolving small quantities of soy lecithin in aqueous solution does not lead to visible signals in spectra with a relatively short TE of 10 ms 18 …”

Section: Introductionmentioning

confidence: 99%

“…Recently, soy lecithin, a naturally occurring emulsifier that is mainly used in the food industry, has been identified as an attractive agent for the preparation of tissue-like MRI fat-water phantoms. 18,19 In former experiments, it was found that dissolving small quantities of soy lecithin in aqueous solution does not lead to visible signals in spectra with a relatively short TE of 10 ms. 18 Soy lecithin molecules are a class of phospholipids that, due to their amphiphilic nature, form self-assembled aggregates, so-called micelles, in aqueous solution. Depending on the concentration, temperature, and ionic environment, different shapes of aggregates such as bilayers or liposomes can form (Figure 1).…”

Section: Introductionmentioning

confidence: 99%

Soy lecithin: A beneficial substance for adjusting the ADC in aqueous solutions to the values of biological tissues

Fritz

Martirosian

Machann

et al. 2022

Magnetic Resonance in Med

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To test soy lecithin as a substance added to water for the construction of MRI phantoms with tissue-like diffusion coefficients. The performance of soy lecithin was assessed for the useable range of adjustable ADC values, the degree of non-Gaussian diffusion, simultaneous effects on relaxation times, and spectral signal properties.Methods: Aqueous soy lecithin solutions of different concentrations (0%, 0.5%, 1%, 2%, 3% … , 10%) and soy lecithin-agar gels were prepared and examined on a 3 Tesla clinical scanner at 18.5 • ± 0.5 • C. Echoplanar sequences (b values: 0-1000/3000 s/mm 2 ) were applied for ADC measurements. Quantitative relaxometry and MRS were performed for assessment of T 1 , T 2 , and detectable spectral components. Results:The presence of soy lecithin significantly restricts the diffusion of water molecules and mimics the nearly Gaussian nature of diffusion observed in tissue (for b values <1000 s/mm 2 ). ADC values ranged from 2.02 × 10 −3 mm 2 /s to 0.48 × 10 −3 mm 2 /s and cover the entire physiological range reported on biological tissue. Measured T 1 /T 2 values of pure lecithin solutions varied from 2685/2013 to 668/133 ms with increasing concentration. No characteristic signals of soy lecithin were observed in the MR spectrum. The addition of agar to the soy lecithin solutions allowed T 2 values to be well adjusted to typical values found in parenchymal tissue without affecting the soy lecithin-controlled ADC value. Conclusion:Soy lecithin is a promising substance for the construction of diffusion phantoms with tissue-like ADC values. It provides several advantages over previously proposed substances, in particular a wide range of adjustable ADC values, the lack of additional 1 H-signals, and the possibility to adjust ADC and T 2 values (by adding agar) almost independently of each other.

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Short‐Term Variability of Proton Density Fat Fraction in Pancreas and Liver Assessed by Multiecho Chemical‐Shift Encoding‐Based MRI at 3 T

Cited by 10 publications

References 40 publications

Eight weeks of empagliflozin does not affect pancreatic fat content and insulin secretion in people with prediabetes

Eight weeks of empagliflozin does not affect pancreatic fat content and insulin secretion in people with prediabetes

Intra‐pancreatic fat is associated with continuous glucose monitoring metrics

Soy lecithin: A beneficial substance for adjusting the ADC in aqueous solutions to the values of biological tissues

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