Combined intravoxel incoherent motion and diffusion tensor imaging of renal diffusion and flow anisotropy

Notohamiprodjo, Mike; Chandarana, Hersh; Mikheev, Artem; Rusinek, Henry; Grinstead, John; Feiweier, Thorsten; Raya, José G.; Lee, Vivian S.; Sigmund, Eric E.

doi:10.1002/mrm.25245

Cited by 88 publications

(121 citation statements)

References 42 publications

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“…Another limitation of the study is that we used a minimum number of diffusion directions with only one b value to control the acquisition time which could have influenced flow effects. A basic approach to separate contributions of diffusion and perfusion to diffusion images is by using multiple b values with a biexponential fit [9,30,33]; this will be the subject of future studies.…”

Section: Discussionmentioning

confidence: 99%

“…Healthy kidneys have a well-defined structure with radial orientation of tubules, collecting ducts and blood vessels in the medulla, which makes diffusion properties in the medulla demonstrate obvious anisotropy. In healthy kidneys, FA of the medulla is higher than that of the cortex, and the repeatability, low interobserver and low intraobserver variability have been proved in many studies [2][3][4][5][6][7][8][9]. Recent studies have demonstrated the ability of renal DTI to detect renal damage in chronic kidney diseases, diabetic nephropathy, glomerulonephritis and renal masses [10][11][12][13][14][15][16].…”

Section: Introductionmentioning

confidence: 93%

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Assessment of renal allograft function early after transplantation with isotropic resolution diffusion tensor imaging

Wang

Ren

et al. 2015

Eur Radiol

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• DTI and tractography can evaluate renal allograft function at an early stage • Medullary FA, cortical and medullary ADC can effectively evaluate allograft function • Medullary FA, cortical and medullary ADC are correlated with eGFR in renal allografts • Medullary ADC increased and cortical FA decreased in stable allografts compared to control subjects • Medullary FA, cortical and medullary ADC decreased and allograft function declined.

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Section: Discussionmentioning

confidence: 99%

Section: Introductionmentioning

confidence: 93%

Assessment of renal allograft function early after transplantation with isotropic resolution diffusion tensor imaging

Wang

Ren

et al. 2015

Eur Radiol

View full text Add to dashboard Cite

show abstract

“…Further, recent studies show that renal ADC values correlate with histological measures of fibrosis in patients with CKD and experimental renal disease [22, 27–29]. Also, IVIM imaging was recently applied to characterize changes in renal perfusion, tubular flow, and tissue diffusion that are associated with renal structural damage [30, 31]. The data suggested that renal perfusion is reduced earlier and affected more than molecular diffusion during renal disease progression.…”

Section: Assessment Of Renal Injury and Fibrosismentioning

confidence: 99%

Current MRI techniques for the assessment of renal disease

Takahashi

Wang²,

Quarles³

2015

Current Opinion in Nephrology and Hypertension

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Purpose of review Over the past decade a variety of magnetic resonance imaging (MRI) methods have been developed and applied to many kidney diseases. These MRI techniques show great promise, enabling the noninvasive assessment of renal structure, function, and injury in individual subjects. This review will highlight current applications of functional MRI techniques for the assessment of renal disease and discuss future directions. Recent findings Many pathological (functional and structural) changes or factors in renal disease can be assessed by advanced MRI techniques. These include renal vascular structure and function (contrast-enhanced MRI, arterial spin labeling), tissue oxygenation (blood oxygen level-dependent MRI), renal tissue injury and fibrosis (diffusion or magnetization transfer imaging, MR elastography), renal metabolism (chemical exchange saturation transfer, spectroscopic imaging), nephron endowment (cationic-contrast imaging), sodium concentration (23Na-MRI), and molecular events (targeted-contrast imaging). Summary Current advances in MRI techniques have enabled the non-invasive investigation of renal disease. Further development, evaluation, and application of the MRI techniques should facilitate better understanding and assessment of renal disease and the development of new imaging biomarkers, enabling the intensified treatment to high-risk populations and a more rapid interrogation of novel therapeutic agents and protocols.

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“…On the contrary, separation of perfusion from diffusion requires high signal-to-noise ratios, and there are some technical challenges to overcome, such as artifacts from other bulk flow phenomena including vascular tubular flow and glandular secretion, which are difficult to separate from microcapillary perfusion (16). Another technical challenge may be that IVIM has a different sensitivity to vessel sizes, according to the range of b values.…”

Section: Pathophysiologic Hot Spots and Consideration Of Emerging Tecmentioning

confidence: 99%

“…The authors of several, published studies (141516) have shown that APT imaging allows the detection and characterization of malignant brain tumors. In addition, APT asymmetry values have been proposed as prognostic indicators of brain glioma as they reflect the cellular proliferation levels that correlate with Ki-67 (17), and function as sensitive biomarkers of treatment response (18) in experimental and clinical studies.…”

Section: Current Clinical Hotspots Of Emerging Imaging Techniques In mentioning

confidence: 99%

Emerging Techniques in Brain Tumor Imaging: What Radiologists Need to Know

Kim

2016

Korean J Radiol

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Among the currently available brain tumor imaging, advanced MR imaging techniques, such as diffusion-weighted MR imaging and perfusion MR imaging, have been used for solving diagnostic challenges associated with conventional imaging and for monitoring the brain tumor treatment response. Further development of advanced MR imaging techniques and postprocessing methods may contribute to predicting the treatment response to a specific therapeutic regimen, particularly using multi-modality and multiparametric imaging. Over the next few years, new imaging techniques, such as amide proton transfer imaging, will be studied regarding their potential use in quantitative brain tumor imaging. In this review, the pathophysiologic considerations and clinical validations of these promising techniques are discussed in the context of brain tumor characterization and treatment response.

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Combined intravoxel incoherent motion and diffusion tensor imaging of renal diffusion and flow anisotropy

Abstract: Both flow and microstructure apparently contribute to the medullary diffusion anisotropy. The described novel method may be useful in separating decreased tubular flow from irreversible structural tubular damage, for example, in diabetic nephropathy or during allograft rejection.

Cited by 88 publications

References 42 publications

Assessment of renal allograft function early after transplantation with isotropic resolution diffusion tensor imaging

Assessment of renal allograft function early after transplantation with isotropic resolution diffusion tensor imaging

Current MRI techniques for the assessment of renal disease

Emerging Techniques in Brain Tumor Imaging: What Radiologists Need to Know

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