Fundamentals of tracer kinetics for dynamic contrast‐enhanced MRI

Koh, Tong San; Bisdas, Sotirios; Koh, Dow Mu; Thng, Choon Hua

doi:10.1002/jmri.22795

Cited by 114 publications

(139 citation statements)

References 101 publications

(143 reference statements)

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“…14,15 With the exception of the methods that are not sensitive to the bolus arrival delay, 16,17 correction for such a delay is otherwise necessary. 18 This correction can be done by adding the delay as a free parameter to the PK analysis optimization procedure at the expense of making the fitting process more complex. 19,20 There is evidence that PK models that have fewer parameters result in improved robustness and stability of the fit 21 and that exclusion of BAT from the fitting problem reduces the model's degrees of freedom and improves the accuracy of the estimates and the stability of the model.…”

Section: Introductionmentioning

confidence: 99%

Bolus arrival time and its effect on tissue characterization with dynamic contrast-enhanced magnetic resonance imaging

et al. 2016

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Abstract. Matching the bolus arrival time (BAT) of the arterial input function (AIF) and tissue residue function (TRF) is necessary for accurate pharmacokinetic (PK) modeling of dynamic contrast-enhanced magnetic resonance imaging (DCE-MRI). We investigated the sensitivity of volume transfer constant (K trans ) and extravascular extracellular volume fraction (v e ) to BAT and compared the results of four automatic BAT measurement methods in characterization of prostate and breast cancers. Variation in delay between AIF and TRF resulted in a monotonous change trend of K trans and v e values. The results of automatic BAT estimators for clinical data were all comparable except for one BAT estimation method. Our results indicate that inaccuracies in BAT measurement can lead to variability among DCE-MRI PK model parameters, diminish the quality of model fit, and produce fewer valid voxels in a region of interest. Although the selection of the BAT method did not affect the direction of change in the treatment assessment cohort, we suggest that BAT measurement methods must be used consistently in the course of longitudinal studies to control measurement variability.

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Section: Introductionmentioning

confidence: 99%

Bolus arrival time and its effect on tissue characterization with dynamic contrast-enhanced magnetic resonance imaging

et al. 2016

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“…With such ambiguities in interpretation, it might be difficult to identify appropriate markers for validation of trans . The standard two-compartment model [7][8][9][10] describes tissue microcirculation with distinct parameters, namely, blood flow ( ), vessel permeability surface area product (PS), fractional vascular volume (V 1 ), and fractional interstitial volume (V 2 ). These physiological parameters can be readily validated by comparison with appropriate histological markers or other established tracer techniques.…”

Section: Introductionmentioning

confidence: 99%

“…These physiological parameters can be readily validated by comparison with appropriate histological markers or other established tracer techniques. More complex tracer kinetic models such as the distributed parameter models [10] are also capable of separately estimating blood flow and permeability. However, the distributed parameter …”

Section: Introductionmentioning

confidence: 99%

Validation of Microcirculatory Parameters Derived from the Standard Two-Compartment Model with Murine Xenografts Model

Hartono

Thng

Ong

et al. 2015

Journal of Cancer Research

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The purpose of this study was to validate DCE-MRI parameters such as blood flow (F), permeability surface area product (PS), fractional intravascular space (V 1 ), and fractional extracellular extravascular space (V 2 ), obtained using a standard two-compartment model against other established analysis methods and histological indices. DCE-MRI datasets of 28 mice implanted with various human cancer xenografts were acquired and analyzed. Statistically significant correlations were found between the parameters derived from the standard two-compartment model (V 1 , V 2 , F, and PS) with the histological markers of intravascular and interstitial space and with the corresponding flow and permeability estimates obtained by the initial slope method and Patlak plot, respectively.

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“…Dynamic contrast-enhanced imaging using computed tomography (DCE-CT) or magnetic resonance imaging (DCE-MRI) is a functional imaging method that can be used for in vivo assessment of tumor perfusion and allows for quantitative estimation of physiological parameters pertaining to tumor microcirculation [1,2]. Analysis of DCE imaging data can be performed by fitting a tracer kinetic model to the tissue tracer concentration-time curves estimated from the DCE images.…”

Section: Introductionmentioning

confidence: 99%

An Efficient Method for Detection of Outliers in Tracer Curves Derived from Dynamic Contrast-Enhanced Imaging

Hou²

2018

Mathematical Problems in Engineering

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Presence of outliers in tracer concentration-time curves derived from dynamic contrast-enhanced imaging can adversely affect the analysis of the tracer curves by model-fitting. A computationally efficient method for detecting outliers in tracer concentrationtime curves is presented in this study. The proposed method is based on a piecewise linear model and implemented using a robust clustering algorithm. The method is noniterative and all the parameters are automatically estimated. To compare the proposed method with existing Gaussian model based and robust regression-based methods, simulation studies were performed by simulating tracer concentration-time curves using the generalized Tofts model and kinetic parameters derived from different tissue types. Results show that the proposed method and the robust regression-based method achieve better detection performance than the Gaussian model based method. Compared with the robust regression-based method, the proposed method can achieve similar detection performance with much faster computation speed.

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Fundamentals of tracer kinetics for dynamic contrast‐enhanced MRI

Cited by 114 publications

References 101 publications

Bolus arrival time and its effect on tissue characterization with dynamic contrast-enhanced magnetic resonance imaging

Bolus arrival time and its effect on tissue characterization with dynamic contrast-enhanced magnetic resonance imaging

Validation of Microcirculatory Parameters Derived from the Standard Two-Compartment Model with Murine Xenografts Model

An Efficient Method for Detection of Outliers in Tracer Curves Derived from Dynamic Contrast-Enhanced Imaging

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