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Sonoelastografinin Temel İlkeleri
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CANAN ALTAY
(Dokuz Eylül Üniversitesi)
MUSTAFA SEÇİL
(Dokuz Eylül Üniversitesi)
Türk Radyoloji Seminerleri
Yıl:
2019
Cilt:
7
Sayı:
1
ISSN:
2148-1210
Sayfa Aralığı:
1 - 12
Metin Dili:
Türkçe
DOI:
https://doi.org/10.5152/trs.2019.749
39
0
Türkçe
Sonoelastografinin Temel İlkeleri
Öz:
Anahtar Kelimeler:
Konu Alanı:
Fen > Tıp > Radyoloji, Nükleer Tıp, Tıbbi Görüntüleme
Belge Türü:
Dergi
Makale Türü:
Araştırma Makalesi
Erişim Formatı:
Erişime Açık
Kaynakça
Yayının Atıfları
Kaynak Göster
[1]. Shiina T, Nightingale KR, Palmeri ML, Hall TJ, Bamber JC, Barr RG, et al. WFUMB guidelines and recommendations for clinical use of ultrasound elastography: Part 1: basic principles and terminology. Ultrasound Med Biol 2015; 41: 1126-47. [CrossRef]
[2]. Bamber J, Cosgrove D, Dietrich CF, Fromageau J, Bojunga J, Calliada F, et al. EFSUMB guidelines and recommendations on the clinical use of ultrasound elastography. Part 1: Basic principles and technology. Ultraschall Med 2013; 34: 169-84. [CrossRef]
[3]. Itoh A, Ueno E, Tohno E, Kamma H, Takahashi H, Shiina T, et al. Breast Disease: Clinical Application of US Elastography for Diagnosis. Radiology 2006; 239: 341-50. [CrossRef]
[4]. Bamber JC. Ultrasound elasticity imaging: definition and technology. Eur Radiol 1999; 9(Suppl 3): 327-30. [CrossRef]
[5]. Ophir J, Céspedes I, Ponnekanti H, Yazdi Y, Li X. Elastography: a quantitative method for imaging the elasticity of biological tissues. Ultrason Imaging 1991; 13: 111-34. [CrossRef]
[6]. Céspedes I, Ophir J, Ponnekanti H, Maklad N. Elastography: elasticity imaging using ultrasound with application to muscle and breast in vivo. Ultrason Imaging 1993; 15: 73-88. [CrossRef]
[7]. Sandrin L, Fourquet B, Hasquenoph JM, Yon S, Fournier C, Mal F, et al. Transient elastography: a new noninvasive method for assessment of hepatic fibrosis. Ultrasound Med Biol 2003; 29: 1705-13. [CrossRef]
[8]. Ferraioli G, Wong VW, Castera L, Berzigotti A, Sporea I, Dietrich CF, et al. Liver Ultrasound Elastography: An Update to the World Federation for Ultrasound in Medicine and Biology Guidelines and Recommendations. Ultrasound Med Biol 2018; 44: 2419-40. [CrossRef]
[9]. Castera L. Non-invasive diagnosis of steatosis and fibrosis. Diabetes Metab 2008; 34: 674-9. [CrossRef]
[10]. Ferraioli G, Filice C, Castera L, Choi BI, Sporea I, Wilson SR, et al. WFUMB guidelines and recommendations for clinical use of ultrasound elastography: Part 3: liver. Ultrasound Med Biol 2015; 41: 1161-79. [CrossRef]
[11]. Morikawa H, Kawada N. Non-invasive diagnosis of liver fibrosis. Clin J Gastroenterol 2011; 4: 283-91. [CrossRef]
[12]. Shiina T, Nitta N, Ueno E, Bamber JC. Real time tissue elasticity imaging using the combined autocorrelation method. J Med Ultrason 2002; 29: 119-28. [CrossRef]
[13]. Itoh A, Ueno E, Tohno E, Kamma H, Takahashi H, Shiina T, et al. Breast disease: clinical application of US elastography for diagnosis. Radiology 2006; 239: 341-50. [CrossRef]
[14]. Farrokh A, Wojcinski S, Degenhardt F. Diagnostic value of strain ratio measurement in the differentiation of malignant and benign breast lesions. Ultraschall Med 2011; 32: 400-5. [CrossRef]
[15]. Dietrich CF, Bamber J, Berzigotti A, Bota S, Cantisani V, Castera L, et al. EFSUMB Guidelines and Recommendations on the Clinical Use of Liver Ultrasound Elastography, Update 2017 (Long Version). Ultraschall Med 2017; 38: e16-e47. [CrossRef]
[16]. Berry GP, Bamber JC, Mortimer PS, Bush NL, Miller NR, Barbone PE. The spatio-temporal strain response of oedematous and nonoedematous tissue to sustained compression in vivo. Ultrasound Med Biol 2008; 34: 617-29. [CrossRef]
[17]. Cibull SL, Harris GR, Nell DM. Trends in diagnostic ultrasound acoustic output from data reported to the US Food and Drug Administration for device indications that include fetal applications. J Ultrasound Med 2013; 32: 1921-32. [CrossRef]
[18]. Nightingale K, Soo MS, Nightingale R, Trahey G. Acoustic radiation force impulse imaging: in vivo demonstration of clinical feasibility. Ultrasound Med Biol 2002; 28: 227-35. [CrossRef]
[19]. Song P, Zhao H, Manduca A, Urban MW, Greenleaf JF, Chen S. Comb-push ultrasound shear elastography (CUSE): a novel method for two-dimensional shear elasticity imaging of soft tissues. IEEE Trans Med Imaging 2012; 31: 1821-32. [CrossRef]
[20]. Barr RG, Zhang Z. Effects of precompression on elasticity imaging of the breast: development of a clinically useful semiquantitative method of precompression assessment. J Ultrasound Med 2012; 31: 895-902. [CrossRef]
[21]. Suh CH, Kim KW, Park SH, Lee SS, Kim HS, Tirumani SH, et al. Shear Wave Elastography as a Quantitative Biomarker of Clinically Significant Portal Hypertension: A Systematic Review and Meta-Analysis. AJR Am J Roentgenol 2018; 210: W185-95. [CrossRef]
[22]. Burak Özkan M, Bilgici MC, Eren E, Caltepe G. Diagnostic accuracy of point shear wave elastography in the detection of portal hypertension in pediatric patients. Diagn Interv Imaging 2018; 99: 151-6. [CrossRef]
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