Quantitative CBV measurement from static <i>T</i><sub>1</sub> changes in tissue and correction for intravascular water exchange

Shin, Wanyong; Cashen, Ty A.; Horowitz, Stuart; Sawlani, Rahul; Carroll, Timothy J.

doi:10.1002/mrm.20937

Cited by 46 publications

(91 citation statements)

References 33 publications

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“…In this study, the effect of the CA might have been even smaller than in previous studies since the estimated ΔR1 in blood in this study was 2.2 s -1 (at a CA dose of 0.12 mmol/kg), while earlier studies showed values about 2-4 times higher after injection of 0.1 mmol/kg of CA [7,16]. The reason for this is not fully understood, but one possible explanation is that, in our study, a longer time delay between the bolus passage and the post-CA images, acquired at steady-state, were used.…”

Section: Estimation Of Cbvreferencecontrasting

confidence: 70%

“…According to the Bookend concept, CBV can be obtained from T1 measurements before and after CA administration using the following equations [7,13]:…”

Section: Bookend Conceptmentioning

confidence: 99%

“…Eq. 3 assumes fast water exchange between the intra-and the extra-vascular space [14,15], and WCF(ΔR 1 ) corrects for expected deviations from the fast-water-exchange limit [7]. The WCF is dependent on the concentration of CA in blood as well as on sequence parameters in the T1 measurements and can be obtained by fitting a curve, of the form a·ΔR 1 2 +b·ΔR 1 +c to data plotted as a function of the change in longitudinal relaxation rate, ΔR1, in blood [7,16].…”

Section: Bookend Conceptmentioning

confidence: 99%

“…To avoid noise effects the selected pixels were also required to show high signal (i.e., being among the 3% of the voxels with the highest signal) at the last time point in the post-CA images from the Look-Locker sequence. CBV true,WM = 1.91 ml/100g and CBV true,GM = 3.85 ml/100g was used [7] for the estimation of WCF, and the fitting was carried out using a non-linear least square fitting (with zero as lower limit and infinity as upper limit).…”

Section: Bookendmentioning

confidence: 99%

“…In the previously proposed Bookend method [7,8], CBV is estimated using steady-state measurements of T1 before and after contrast agent (CA) administration to determine the CF. The Bookend method has previously been compared to positron emission tomography (PET), which is commonly regarded as the gold standard method for CBF measurements, and a good correlation between the two methods was observed [9].…”

Section: Introductionmentioning

confidence: 99%

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Absolute quantification of perfusion by dynamic susceptibility contrast MRI using Bookend and VASO steady-state CBV calibration: a comparison with pseudo-continuous ASL

Lindgren

Wirestam

Bloch

et al. 2014

Magn Reson Mater Phy

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General rights Copyright and moral rights for the publications made accessible in the public portal are retained by the authors and/or other copyright owners and it is a condition of accessing publications that users recognise and abide by the legal requirements associated with these rights.• Users may download and print one copy of any publication from the public portal for the purpose of private study or research.• You may not further distribute the material or use it for any profit-making activity or commercial gain • You may freely distribute the URL identifying the publication in the public portal AbstractObjective: Dynamic susceptibility-contrast MRI (DSC-MRI) tends to return elevated estimates of cerebral blood flow (CBF) and cerebral blood volume (CBV). In this study, subject-specific calibration factors (CFs), based on steady-state CBV measurements, were applied to rescale the absolute level of DSC-MRI CBF. Materials and Methods:Twenty healthy volunteers were scanned in a test-retest approach. Independent CBV measurements, for calibration, were accomplished using a T1-based contrast agent steady-state method (referred to as Bookend) as well as a blood-nulling vascular space occupancy (VASO) approach. Calibrated DSC-MRI was compared with pseudo-continuous arterial spin labeling (pCASL).Results: For segmented grey matter (GM) regions of interests (ROIs), pCASL-based CBF was 63±11 ml/(min100g) (mean±SD). Nominal CBF from non-calibrated DSC-MRI was 277±61 ml/(min100g), while calibrations resulted in 56±23 ml/(min100g) (Bookend) and 52±16 ml/(min100g) (VASO). Calibration tended to eliminate the overestimation, although the repeatability was, generally, moderate and the correlation between calibrated DSC-MRI and pCASL was low (r<0.25). However, using GM instead of WM ROIs for extraction of CFs resulted in improved repeatability. Conclusion:Both calibration approaches provided reasonable absolute levels of GM CBF, although the calibration methods suffered from low signal-to-noise ratio, resulting in weak repeatability and difficulties in showing high degrees of correlation with pCASL measurements.3

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Section: Estimation Of Cbvreferencecontrasting

confidence: 70%

“…According to the Bookend concept, CBV can be obtained from T1 measurements before and after CA administration using the following equations [7,13]:…”

Section: Bookend Conceptmentioning

confidence: 99%

Section: Bookend Conceptmentioning

confidence: 99%

Section: Bookendmentioning

confidence: 99%

Section: Introductionmentioning

confidence: 99%

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Absolute quantification of perfusion by dynamic susceptibility contrast MRI using Bookend and VASO steady-state CBV calibration: a comparison with pseudo-continuous ASL

Lindgren

Wirestam

Bloch

et al. 2014

Magn Reson Mater Phy

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Transcatheter interventions in the early postoperative period after the Fontan procedure

Bhole

Wright

Giovanni

et al. 2010

Cathet Cardio Intervent

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Method for rapid calculation of quantitative cerebral perfusion

Shah

Shin

Mouannes

et al. 2008

Magnetic Resonance Imaging

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Purpose: To evaluate an algorithm based on algebraic estimation of T 1 values (three-point estimation) in comparison with computational curve-fitting for the postprocessing of quantitative cerebral perfusion scans. Materials and Methods:Computer simulations were performed to quantify the magnitude of the expected error on T 1 and consequently cerebral perfusion using the threepoint estimation technique on a Look-Locker (LL) EPI scan. In 50 patients, quantitative cerebral perfusion was calculated using the bookend method with three-point estimation and curve-fitting. The bookend method, a novel approach for calculating quantitative cerebral perfusion based on changes in T 1 values after a contrast injection, is currently being validated. The number of computations was used as a measure of computation speed for each method. Student's paired t-test, Bland-Altman, and correlation analyses were performed to evaluate the accuracy of estimation.Results: There was a 99.65% reduction in the number of computations with three-point estimation. Student's t-test showed no significant difference in cerebral perfusion (P ϭ 0.80, 0.49, paired t-test N ϭ 50, quantitative cerebral blood flow-white matter [qCBF-WM], qCBF-gray matter [qCBF-GM]) when compared to curve-fitting. The results of the two techniques were strongly correlated in patients (slope ϭ 0.99, intercept ϭ1.58 mL/(100 g/minute), r ϭ 0.86) with a small systemic bias of Ϫ0.97 mL/(100 g/minute) in BlandAltman analysis. Conclusion:The three-point estimation technique is adequate for rapid calculation of qCBF. The estimation scheme drastically reduces processing time, thus making the method feasible for clinical use. THE IMAGING OF PHYSIOLOGIC PARAMETERS related to cerebral perfusion, such as mean transit time (MTT), cerebral blood volume (CBV), and cerebral blood flow (CBF), is possible with MRI (1-5). In its current clinical implementation, MR-based perfusion images report relative, rather than quantitative perfusion. The ease of use and widespread availability of MRI based cerebral perfusion is becoming increasingly important in determining the underlying pathophysiology of several diseases (6 -8). A method for obtaining quantitative CBF (qCBF), called the "bookend technique," which is based on T 1 changes after injection of gadoliniumbased contrast, has been reported (9 -11). The bookend approach has not been fully validated to the reference standard, [15 O]-H 2 positron emission tomography (PET); however, the bookend approach has produced values that are consistent with historical reference values and has been shown to be highly reproducible in a clinical setting (9 -11). A major impediment to the dissemination and more widespread evaluation of this technology is the need for specialized software for image postprocessing.The goal of this report is to evaluate an algorithm for the postprocessing of bookend perfusion scans. We present an approach to approximate T 1 values using three-point estimation fitting. We propose that this three-point estimation approach is ade...

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Quantitative CBV measurement from static T₁ changes in tissue and correction for intravascular water exchange

Cited by 46 publications

References 33 publications

Absolute quantification of perfusion by dynamic susceptibility contrast MRI using Bookend and VASO steady-state CBV calibration: a comparison with pseudo-continuous ASL

Absolute quantification of perfusion by dynamic susceptibility contrast MRI using Bookend and VASO steady-state CBV calibration: a comparison with pseudo-continuous ASL

Transcatheter interventions in the early postoperative period after the Fontan procedure

Method for rapid calculation of quantitative cerebral perfusion

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Quantitative CBV measurement from static T1 changes in tissue and correction for intravascular water exchange

Cited by 46 publications

References 33 publications

Absolute quantification of perfusion by dynamic susceptibility contrast MRI using Bookend and VASO steady-state CBV calibration: a comparison with pseudo-continuous ASL

Absolute quantification of perfusion by dynamic susceptibility contrast MRI using Bookend and VASO steady-state CBV calibration: a comparison with pseudo-continuous ASL

Transcatheter interventions in the early postoperative period after the Fontan procedure

Method for rapid calculation of quantitative cerebral perfusion

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Quantitative CBV measurement from static T₁ changes in tissue and correction for intravascular water exchange