Diffusion Weighted Imaging for Differentiating Benign from Malignant Orbital Tumors: Diagnostic Performance of the Apparent Diffusion Coefficient Based on Region of Interest Selection Method

Xu, Xinyun; Hu, Hao; Su, Guo Yi; Hu, Liu; Shi, Hai; Wu, Fann

doi:10.3348/kjr.2016.17.5.650

Cited by 21 publications

(20 citation statements)

References 21 publications

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“…Diffusion-weighted magnetic resonance (MR) imaging provides characterisation of soft tissues and their physiological processes because it reflects the random motion of water protons, which is disturbed by intracellular organelles and macromolecules located in the tissues [10,11]. Diffusion-weighted MR imaging is used for characterisation of orbital [12][13][14] and thyroid lesions [15,16]. Few studies discuss diffusion-weighted and diffusion tensor imaging of the extra-ocular muscles [17][18][19][20] and the optic nerves [21,22] in patients with thyroid eye disease.…”

Section: Introductionmentioning

confidence: 99%

Assessment of lacrimal glands in thyroid eye disease with diffusion-weighted magnetic resonance imaging

Razek¹,

El-Hadidy²,

El-Metwaly³

et al. 2019

Pol J Radiol

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Purpose: To assess the lacrimal glands in patients with thyroid eye disease with diffusion-weighted magnetic resonance (MR) imaging. Material and methods: This study was carried out on 44 consecutive patients (17 males, 27 females, with mean age 36 years) with thyroid eye disease and 20 age-and sex-matched volunteers. They underwent diffusion-weighted MR imaging of the orbit. The apparent diffusion coefficient (ADC) values of the lacrimal glands were calculated and correlated with the clinical activity score (CAS). Results: The mean ADC of lacrimal glands in thyroid eye disease (1.73 × 10-3 mm 2 /s) was significantly higher (p = 0.001) than that of volunteers (1.52 × 10-3 mm 2 /s). The cutoff ADC value of lacrimal gland used for differentiation of thyroid eye disease from volunteers was 1.62 × 10-3 mm 2 /s with an area under the curve value of 0.95 and an accuracy of 96%. There was significant difference (p = 0.03) in the ADC of the lacrimal glands in patients with active (n = 24) and inactive (n = 20) disease. The cutoff ADC value of the lacrimal gland used to suspect active disease was 1.76 × 10-3 mm 2 /s with an area under the curve value of 0.80 and an accuracy of 82%. There was positive correlation between the ADC value of the lacrimal glands and CAS (r = 0.73, p = 0.001). Conclusions: The ADC of the lacrimal glands is a non-invasive imaging parameter that can be used for diagnosis of thyroid eye disease and to predict the active form of the disease.

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Section: Introductionmentioning

confidence: 99%

Assessment of lacrimal glands in thyroid eye disease with diffusion-weighted magnetic resonance imaging

Razek¹,

El-Hadidy²,

El-Metwaly³

et al. 2019

Pol J Radiol

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“…[9][10][11][12][13] Previous imaging-related studies mainly used three kinds of ROI selection methods to obtain quantitative parameters, including ROI covering the whole tumor (ROI WT ), ROI covering the single slice in which the tumor showed largest diameter (ROI SS ), and ROI covering the "hot spot" within the tumor (ROI HS ). 14,15 ROI HS may lead to significant interobserver variability. 14 ROI WT can overcome this problem; however, a long postprocessing time limits its wide application.…”

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confidence: 99%

“…14,15 ROI HS may lead to significant interobserver variability. 14 ROI WT can overcome this problem; however, a long postprocessing time limits its wide application. 14 The influence of ROI selection methods on the measurement of the apparent diffusion coefficient value has been widely studied, [14][15][16][17] and its influence on DCE-MRI-derived parameters has been only studied in patients with renal cell carcinoma and head and neck cancer.…”

mentioning

confidence: 99%

“…14 ROI WT can overcome this problem; however, a long postprocessing time limits its wide application. 14 The influence of ROI selection methods on the measurement of the apparent diffusion coefficient value has been widely studied, [14][15][16][17] and its influence on DCE-MRI-derived parameters has been only studied in patients with renal cell carcinoma and head and neck cancer. 12,13 Therefore, the purpose of this study was to assess the effects of different ROI selection methods on the measurement of DCE-MRI-derived quantitative parameters, and their diagnostic ability in discriminating malignant from benign OLPDs.…”

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confidence: 99%

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Dynamic contrast‐enhanced MRI in orbital lymphoproliferative disorders: Effects of region of interest selection methods on time efficiency, measurement reproducibility, and diagnostic ability

Qian

et al. 2017

Magnetic Resonance Imaging

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“…The final each parameter value was determined as the mean value in the delineated ROI results by integrating all tumor voxels from all delineated slices into the total signal intensity. 22,26 To evaluate the therapeutic response based on RECIST guidelines, tumor size defined by the longest dimension on axial T 2 W images was measured and recorded. 27,28 A set of source DKI diffusion images and the ROI-based fitted curves was drawn by using the manufacturer-supplied software (PRIDE DWI Tool, v. 1.5, Philips Healthcare) ( Supplementary Figs.…”

Section: Quantitative Measurement and Image Analysismentioning

confidence: 99%

Evaluation of Effects of TGF‐β1 Inhibition on Gastric Cancer in Nude Mice by Diffusion Kurtosis Imaging and In‐Line X‐ray Phase Contrast Imaging With Sequential Histology

Shi

Yuan

Yan

et al. 2018

Magnetic Resonance Imaging

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Background Accurate and complete response evaluation after treatment is important to implement individualized therapy for gastric cancer. Purpose To investigate the effectiveness of diffusion kurtosis imaging (DKI) and in‐line X‐ray phase contrast imaging (ILXPCI) in the assessment of the therapeutic efficacy by transforming growth factor beta 1 (TGF‐β1) inhibition. Study Type Prospective animal study. Animal Model Thirty nude mice subcutaneous xenotransplantation tumor model of gastric cancer for DKI and 10 peritoneal metastasis nude mice model for ILXPCI. Field Strength/Sequence Examinations before and serially at 7, 14, 21, and 28 days after TGF‐β1 inhibition treatment were performed at 3T MRI including T 2 ‐weighted imaging (T 2 WI) and DKI with five b values of 0, 500, 1000, 1500, 2000 s/mm 2 ; ILXPCI examinations were performed at 14 days after treatment. Assessment DKI parameters (apparent diffusion coefficient [ADC], diffusivity [D] and kurtosis [K]) were calculated by two experienced radiologists after postprocessing. Statistical Tests For the differences in all the parameters between the baseline and each timepoint for both the treated and the control mice, the Mann–Whitney test was used. The Spearman correlation test was used to evaluate correlations among the DKI parameters and corresponding pathologic necrosis fraction (NF). Results ADC, D, and K values were significantly different between the two groups after treatment ( P < 0.05). Serial measurements in the treated group showed that the ADC, D, and K values were significantly different at 7, 14, 21, and 28 days compared with baseline ( P < 0.05). There were significant correlations between DKI parameters and NF (ADC, r = 0.865, P < 0.001; D, r = 0.802, P < 0.001; K, r = –0.944, P < 0.001). The ILXPCI results in the treated group showed a stronger absorption area than the control group. Data Conclusion DKI may be used to evaluate the complete course therapeutic effects of gastric cancer induced by TGF‐β1 inhibition, and the ILXPCI technique will improve the tumor microstructure resolution. Level of Evidence: 1 Technical Efficacy: Stage 4 J. Magn. Reson. Imaging 2019;49:1553–1564.

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Diffusion Weighted Imaging for Differentiating Benign from Malignant Orbital Tumors: Diagnostic Performance of the Apparent Diffusion Coefficient Based on Region of Interest Selection Method

Cited by 21 publications

References 21 publications

Assessment of lacrimal glands in thyroid eye disease with diffusion-weighted magnetic resonance imaging

Assessment of lacrimal glands in thyroid eye disease with diffusion-weighted magnetic resonance imaging

Dynamic contrast‐enhanced MRI in orbital lymphoproliferative disorders: Effects of region of interest selection methods on time efficiency, measurement reproducibility, and diagnostic ability

Evaluation of Effects of TGF‐β1 Inhibition on Gastric Cancer in Nude Mice by Diffusion Kurtosis Imaging and In‐Line X‐ray Phase Contrast Imaging With Sequential Histology

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