Dynamic dual-tracer MRI-guided fluorescence tomography to quantify receptor density in vivo

Davis, Scott C.; Samkoe, Kimberley S.; Tichauer, Kenneth M.; Sexton, Kristian J.; Gunn, Jason R.; Deharvengt, Sophie J.; Hasan, Tayyaba; Pogue, Brian W.

doi:10.1073/pnas.1213490110

Cited by 81 publications

(68 citation statements)

References 51 publications

(60 reference statements)

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“…This tumor line was chosen because it is known to overexpress EGFR, enabling specific targeting using an engineered peptide with high affinity for EGFR, the anti-EGFR targeted Affibody (Affibody, Sweden). 3,[13][14][15] Transfection of the cell line with GFP allows the GFP signal to be measured ex vivo and provides definitive tumor localization. 16 The growth of the tumors was monitored using gadoliniumenhanced T1-weighted magnetic resonance imaging (MRI), which was also the method used to gather anatomical prior information for fluorescence tomography.…”

Section: Methodsmentioning

confidence: 99%

“…The mice to be imaged were injected via tail vein with 0.1 nmol of each tracer and imaged continuously over the course of ∼1 h, after which time each animal was sacrificed and then imaged ex vivo. The fluorescence tomography system used for imaging has been previously described, 3,13 so only the salient details that differ from previous work will be discussed here. For IRDye800, the excitation was performed with a 690-nm diode laser providing 0.8 mW output at the tissue surface, and the necessary filtering on the emission side was accomplished using 720-nm low pass (LP) filters located inside a custom entrance optic for each of the eight spectrometers used for detection.…”

Section: Methodsmentioning

confidence: 99%

“…Recently, a novel dual-tracer technique was introduced to overcome the problem of nonspecific uptake in molecular imaging and, thus, enable quantitative estimation of receptor concentration in vivo. [1][2][3] In this approach, two tracers are imaged simultaneously, one targeted to the receptor of interest and the other a nontargeted reference tracer. Comparing the uptake of these dyes enables recovery of binding potential, BP, a quantitative parameter proportional to the concentration of receptors available for binding.…”

Section: Introductionmentioning

confidence: 99%

“…While the first orthotopic study to report on this technique reported dual-tracer tomography imaging, 3 it did not examine the effect of tumor size on recovery of BP. As tumors grow, the feeding vessels and neovasculature growth and leakage are extremely heterogeneous, and it is conceivable that within the regions of tumors the ability to quantify BP will be compromised by this.…”

Section: Introductionmentioning

confidence: 99%

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Tomography of epidermal growth factor receptor binding to fluorescent Affibodyin vivostudied with magnetic resonance guided fluorescence recovery in varying orthotopic glioma sizes

et al. 2015

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Abstract. The ability to image targeted tracer binding to epidermal growth factor receptor (EGFR) was studied in vivo in orthotopically grown glioma tumors of different sizes. The binding potential was quantified using a dualtracer approach, which employs a fluorescently labeled peptide targeted to EGFR and a reference tracer with similar pharmacokinetic properties but no specific binding, to estimate the relative bound fraction from kinetic compartment modeling. The recovered values of binding potential did not vary significantly as a function of tumor size (1 to 33 mm 3 ), suggesting that binding potential may be consistent in the U251 tumors regardless of size or stage after implantation. However, the fluorescence yield of the targeted fluorescent tracers in the tumor was affected significantly by tumor size, suggesting that dual-tracer imaging helps account for variations in absolute uptake, which plague single-tracer imaging techniques. Ex vivo analysis showed relatively high spatial heterogeneity in each tumor that cannot be resolved by tomographic techniques. Nonetheless, the dual-tracer tomographic technique is a powerful tool for longitudinal bulk estimation of receptor binding. © The Authors. Published by SPIE under a Creative Commons Attribution 3.0 Unported License. Distribution or reproduction of this work in whole or in part requires full attribution of the original publication, including its DOI.

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Section: Methodsmentioning

confidence: 99%

Section: Methodsmentioning

confidence: 99%

Section: Introductionmentioning

confidence: 99%

Section: Introductionmentioning

confidence: 99%

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Tomography of epidermal growth factor receptor binding to fluorescent Affibodyin vivostudied with magnetic resonance guided fluorescence recovery in varying orthotopic glioma sizes

et al. 2015

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“…From the methodological aspect, more reliable algorithms will be developed for accurate and stable self-prior information extraction. For biomedical applications, the proposed strategy can be combined with DFMT and multispectral FMT [5,23,24] to achieve dynamic and real-time metabolic imaging of organs in vivo. In the present study, only liver has been selected as the objective organ to be reconstructed, which has limited utility in terms of biological applications.…”

Section: Discussionmentioning

confidence: 99%

Self-prior strategy for organ reconstruction in fluorescence molecular tomography

Zhou

Chen

et al. 2017

Biomed. Opt. Express

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Abstract:The purpose of this study is to propose a strategy for organ reconstruction in fluorescence molecular tomography (FMT) without prior information from other imaging modalities, and to overcome the high cost and ionizing radiation caused by the traditional structural prior strategy. The proposed strategy is designed as an iterative architecture to solve the inverse problem of FMT. In each iteration, a short time Fourier transform (STFT) based algorithm is used to extract the self-prior information in the space-frequency energy spectrum with the assumption that the regions with higher fluorescence concentration have larger energy intensity, then the cost function of the inverse problem is modified by the selfprior information, and lastly an iterative Laplacian regularization algorithm is conducted to solve the updated inverse problem and obtains the reconstruction results. Simulations and in vivo experiments on liver reconstruction are carried out to test the performance of the selfprior strategy on organ reconstruction. The organ reconstruction results obtained by the proposed self-prior strategy are closer to the ground truth than those obtained by the iterative Tikhonov regularization (ITKR) method (traditional non-prior strategy). Significant improvements are shown in the evaluation indexes of relative locational error (RLE), relative error (RE) and contrast-to-noise ratio (CNR). The self-prior strategy improves the organ reconstruction results compared with the non-prior strategy and also overcomes the shortcomings of the traditional structural prior strategy. Various applications such as metabolic imaging and pharmacokinetic study can be aided by this strategy.

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Preoperative Detection and Intraoperative Visualization of Brain Tumors for More Precise Surgery: A New Dual-Modality MRI and NIR Nanoprobe

Cao

Zhang

et al. 2015

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In clinical practice, it is difficult to identify tumor margins during brain surgery due to its inherent infiltrative character. Herein, a unique dual-modality nanoprobe (Gd-DOTA-Ag2S QDs, referred as Gd-Ag2S nanoprobe) is reported, which integrates advantages of the deep tissue penetration of enhanced magnetic resonance (MR) imaging of Gd and the high signal-to-noise ratio and high spatiotemporal resolution of fluorescence imaging in the second near-infrared window (NIR-II) of Ag2S quantum dots (QDs). Due to the abundant tumor angiogenesis and the enhanced permeability and retention effect in the tumor, a brain tumor (U87MG) in a mouse model is clearly delineated in situ with the help of the Gd assisted T1 MR imaging and the intraoperative resection of the tumor is precisely accomplished under the guidance of NIR-II fluorescence imaging of Ag2S QDs after intravenous injection of Gd-Ag2S nanoprobe. Additionally, no histologic changes are observed in the main organs of the mouse after administration of Gd-Ag2S nanoprobe for 1 month, indicating the high biocompatibility of the nanoprobe. We expect that such a novel "Detection and Operation" strategy based on Gd-Ag2S nanoprobe is promising in future clinical applications.

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Dynamic dual-tracer MRI-guided fluorescence tomography to quantify receptor density in vivo

Cited by 81 publications

References 51 publications

Tomography of epidermal growth factor receptor binding to fluorescent Affibodyin vivostudied with magnetic resonance guided fluorescence recovery in varying orthotopic glioma sizes

Tomography of epidermal growth factor receptor binding to fluorescent Affibodyin vivostudied with magnetic resonance guided fluorescence recovery in varying orthotopic glioma sizes

Self-prior strategy for organ reconstruction in fluorescence molecular tomography

Preoperative Detection and Intraoperative Visualization of Brain Tumors for More Precise Surgery: A New Dual-Modality MRI and NIR Nanoprobe

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