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Utility of Relative ADC in Discriminating the Benign and Malign Liver Masses: Diagnostic Potential in Comparison to ADC
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CİLT: 14 SAYI: 1
P: 40-47
Nisan 2024

Utility of Relative ADC in Discriminating the Benign and Malign Liver Masses: Diagnostic Potential in Comparison to ADC

J Acad Res Med 2024;14(1):40-47
DOI: 10.4274/jarem.galenos.2024.66199
Neşe Uçar 1
Levent Karakaş 1
Ebru Yılmaz 2
Elif Evrim Ekin 3
Aylin Hasanefendioğlu Bayrak 4
Hüseyin Özkurt 5
Bilgi mevcut değil.
Bilgi mevcut değil
Alındığı Tarih: 07.03.2024
Kabul Tarihi: 09.04.2024
Yayın Tarihi: 26.04.2024
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References

1
Crissien AM, Frenette C. Current management of hepatocellular carcinoma. Gastroenterol Hepatol (N Y) 2014; 10: 153-61.
2
Sica GT, Ji H, Ros PR. CT and MR imaging of hepatic metastases. AJR Am J Roentgenol 2000; 174: 691-8.
3
Matos AP, Velloni F, Ramalho M, AlObaidy M, Rajapaksha A, Semelka RC. Focal liver lesions: Practical magnetic resonance imaging approach. World J Hepatol 2015; 7: 1987-2008.
4
Galea N, Cantisani V, Taouli B. Liver lesion detection and characterization: role of diffusion-weighted imaging. J Magn Reson Imaging 2013; 37: 1260-76.
5
Baliyan V, Das CJ, Sharma R, Gupta AK. Diffusion weighted imaging: Technique and applications. World J Radiol 2016; 8: 785-98.
6
Manetta R, Palumbo P, Gianneramo C, Bruno F, Arrigoni F, Natella R, et al. Correlation between ADC values and Gleason score in evaluation of prostate cancer: multicentre experience and review of the literature. Gland Surg 2019; 8(Suppl 3):216-22.
7
Bozkurt Bostan T, Koç G, Sezgin G, Altay C, Fazıl Gelal M, Oyar O. Value of Apparent Diffusion Coefficient Values in Differentiating Malignant and Benign Breast Lesions. Balkan Med J 2016; 33: 294-300.
8
DeLano MC, Cooper TG, Siebert JE, Potchen MJ, Kuppusamy K. High-b-value diffusion-weighted MR imaging of adult brain: image contrast and apparent diffusion coefficient map features. AJNR Am J Neuroradiol 2000; 21: 1830-6.
9
Bilgili Y, Unal B. Effect of region of interest on interobserver variance in apparent diffusion coefficient measures. AJNR Am J Neuroradiol 2004; 25: 108-11.
10
Thoeny HC, De Keyzer F, Oyen RH, Peeters RR. Diffusion-weighted MR imaging of kidneys in healthy volunteers and patients with parenchymal diseases: initial experience. Radiology 2005; 235: 911-7.
11
Mulkern RV, Barnes AS, Haker SJ, Hung YP, Rybicki FJ, Maier SE, et al. Biexponential Characterization of Prostate Tissue Water Diffusion Decay Curves Over an Extended b-factor Range. Magn Reson Imaging 2006; 24: 563-8.
12
Le Bihan D, Delannoy J, Levin RL. Temperature mapping with MR imaging of molecular diffusion: application to hyperthermia. Radiology 1989; 171: 853-7.
13
Yang X, Lin Y, Xing Z, She D, Su Y, Cao D. Predicting 1p/19q codeletion status using diffusion-, susceptibility-, perfusion-weighted, and conventional MRI in IDH-mutant lower-grade gliomas. Acta Radiol 2020: 62: 1657-65.
14
Yılmaz E, Sarı O, Yılmaz A, Ucar N, Aslan A, Inan I. et al. Diffusion-Weighted Imaging for the Discrimination of Benign and Malignant Breast Masses; Utility of ADC and Relative ADC. J Belg Soc Radiol 2018; 102: 24.
15
Han BH, Park SB, Seo JT, Chun YK. Usefulness of Testicular Volume, Apparent Diffusion Coefficient, and Normalized Apparent Diffusion Coefficient in the MRI Evaluation of Infertile Men With Azoospermia. AJR Am J Roentgenol 2018; 210: 543-8.
16
Gelebek Yılmaz F, Yıldırım AE. Relative Contribution of Apparent Diffusion Coefficient (ADC) Values and ADC Ratios of Focal Hepatic Lesions in the Characterization of Benign and Malignant Lesions. Eur J Ther 2018; 24: 150-7.
17
Barral M, Sebbag-Sfez D, Hoeffel C, Chaput U, Dohan A, Eveno C, et al. Characterization of focal pancreatic lesions using normalized apparent diffusion coefficient at 1.5-Tesla: preliminary experience. Diagn Interv Imaging 2013; 94: 619-27.
18
Do RK, Chandarana H, Felker E, Hajdu CH, Babb JS, Kim D, et al. Diagnosis of liver fibrosis and cirrhosis with diffusion-weighted imaging: value of normalized apparent diffusion coefficient using the spleen as reference organ. AJR Am J Roentgenol 2010; 195: 671-6.
19
Papanikolaou N, Gourtsoyianni S, Yarmenitis S, Maris T, Gourtsoyiannis N. Comparison between two-point and four-point methods for quantification of apparent diffusion coefficient of normal liver parenchyma and focal lesions. Value of normalization with spleen. Eur J Radiol 2010; 73: 305-9.
20
Hong Y, Shi Y, Liao W, Klahr NJ, Xia F, Xu C, et al. Relative ADC measurement for liver fibrosis diagnosis in chronic hepatitis B using spleen/renal cortex as the reference organs at 3 T. Clin Radiol 2014; 69: 581-8.
21
Park SO, Kim JK, Kim KA, Park BW, Kim N, Cho G, et al. Relative apparent diffusion coefficient: determination of reference site and validation of benefit for detecting metastatic lymph nodes in uterine cervical cancer. J Magn Reson Imaging 2009; 29: 383-90.
22
Pakala T, Molina M, Wu GY. Hepatic Echinococcal Cysts: A Review. J Clin Transl Hepatol 2016; 4: 39-46.
23
Devran Aybar M, Karagoz Y, Turna O, Tuzcu G, Buker A. The Contribution of Diffusion Weighted MRI (DWI) and Measured ADC Values in Differentiating Benign and Malignant Liver Masses. Istanbul Med J 2013; 14: 16-9.
24
Caro-Domínguez P, Gupta AA, Chavhan GB. Can diffusion-weighted imaging distinguish between benign and malignant pediatric liver tumors? Pediatr Radiol 2018; 48: 85-93.
25
Parikh T, Drew SJ, Lee VS, Wong S, Hecht EM, Babb JS, et al. Focal liver lesion detection and characterization with diffusion-weighted MR imaging: comparison with standard breath-hold T2-weighted imaging. Radiology 2008; 246: 812-22.
26
Bruegel M, Holzapfel K, Gaa J, Woertler K, Waldt S, Kiefer B, et al. Characterization of focal liver lesions by ADC measurements using a respiratory triggered diffusion-weighted single-shot echo-planar MR imaging technique. Eur Radiol 2008; 18: 477-85.
27
Miller FH, Hammond N, Siddiqi AJ, Shroff S, Khatri G, Wang Y, et al. Utility of diffusion-weighted MRI in distinguishing benign and malignant hepatic lesions. J Magn Reson Imaging 2010; 32: 138-47.
28
Wu XF, Bai XM, Yang W, Sun Y, Wang H, Wu W, et al. Differentiation of atypical hepatic hemangioma from liver metastases: Diagnostic performance of a novel type of color contrast enhanced ultrasound. World J Gastroenterol 2020; 26: 960-72.
29
Nam SJ, Park KY, Yu JS, Chung JJ, Kim JH, Kim KW. Hepatic cavernous hemangiomas: relationship between speed of intratumoral enhancement during dynamic MRI and apparent diffusion coefficient on diffusion-weighted imaging. Korean J Radiol 2012; 13: 728-35.
30
Cui Y, Zhang XP, Sun YS, Tang L, Shen L. Apparent diffusion coefficient: potential imaging biomarker for prediction and early detection of response to chemotherapy in hepatic metastases. Radiology 2008; 248: 894-900.
31
Vaupel P, Mayer A. Hypoxia in cancer: significance and impact on clinical outcome. Cancer Metastasis Rev 2007; 26: 225-39.
32
Rockwell S, Dobrucki IT, Kim EY, Marrison ST, Vu VT. Hypoxia and radiation therapy: past history, ongoing research, and future promise. Curr Mol Med 2009; 9: 442-58.
33
Serša I, Bajd F, Savarin M, Jesenko T, Čemažar M, Serša G. Multiparametric High-Resolution MRI as a Tool for Mapping of Hypoxic Level in Tumors. Technol Cancer Res Treat 2018; 17: 1533033818797066.
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