Karaciğer Elastografisi

ÖZBEK, Süha Süreyya

doi:10.5152/trs.2019.714

Karaciğer Elastografisi

Süha Süreyya ÖZBEK (Ege Üniversitesi)

Türk Radyoloji Seminerleri

2 0

Yıl: 2019 Cilt: 7 Sayı: 1 Sayfa Aralığı: 13 - 24 Metin Dili: Türkçe DOI: 10.5152/trs.2019.714 İndeks Tarihi: 03-05-2020

Karaciğer Elastografisi

Öz:

Anahtar Kelime:

Konular: Radyoloji, Nükleer Tıp, Tıbbi Görüntüleme

Belge Türü: Makale Makale Türü: Araştırma Makalesi Erişim Türü: Erişime Açık

[1]. Horowitz JM, Venkatesh SK, Ehman RL, Jhaveri K, Kamath P, Ohliger MA, et al. Evaluation of hepatic fibrosis: A review from the society of abdominal radiology disease focus panel. Abdom Radiol 2017; 42: 2037-53. [CrossRef]
[2]. Lee YA, Wallace MC, Friedman SL. Pathobiology of liver fibrosis: A translational success story. Gut 2015; 64: 830-41. [CrossRef]
[3]. Barr RG, Ferraioli G, Palmeri ML, Goodman ZD, Garcia-Tsao G, Rubin J, et al. Elastography assessment of liver fibrosis- Society of radiologists in ultrasound consensus conference statement. Ultrasound Q 2016; 32: 94-107. [CrossRef]
[4]. Sigrist RMS, Liau J, Kaffas AE, Chammas MC, Willmann JK. Ultrasound elastography: Review of techniques and clinical applications. Theranostics 2017; 7: 1303-29. [CrossRef]
[5]. 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]
[6]. 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]
[7]. 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 (Short version). Ultraschall Med 2017; 38: 377-94. [CrossRef]
[8]. Mueller S, Sandrin L. Liver stiffness: A novel parameter for the diagnosis of liver disease. Hepat Med 2010; 2: 49-67. [CrossRef]
[9]. Tsai E, Lee TP. Diagnosis and evaluation of nonalcoholic fatty liver disease /nonalcoholic steatohepatitis, including noninvasive biomarkers and transient elastography. Clin Liver Dis 2018; 22: 73-92. [CrossRef]
[10]. Esterson YB, Grimaldi GM. Radiologic imaging in nonalcoholic fatty liver disease and nonalcoholic Steatohepatitis. Clin Liver Dis 2018; 22: 93-108. [CrossRef]
[11]. Berzigotti A. Non-invasive evaluation of portal hypertension using ultrasound elastography. J Hepatol 2017; 67: 399-411. [CrossRef]
[12]. You MW, Kim PW, Pyo J, Huh J, Kim HJ, Lee SJ, et al. A meta-analysis for the diagnostic performance of transient elastography for clinically significant portal hypertension. Ultrasound Med Biol 2017; 43: 59-68. [CrossRef]
[13]. Grgurevic I, Bokun T, Bozin T, Matic V, Haberle S, Sporea I. Non-invasive diagnosis of portal hypertension in cirrhosis using ultrasound based elastography. Med Ultrason 2017; 19: 310-7. [CrossRef]
[14]. Mazur R, Celmer M, Silicki J, Holownia D, Pozowski P, Miedzybrodzki K. Clinical applications of spleen ultrasound elastography: A review. J Ultrason 2018; 18: 37-41. [CrossRef]
[15]. Giunta M, Conte D, Fraquelli M. Role of spleen elastography in patients with chronic liver diseases. World J Gastroenterol 2016; 21: 7857-67. [CrossRef]
[16]. Ma X, Wang L, Wu H, Feng Y, Han X, Bu H, et al. Spleen stiffness is superior to liver stiffness for predicting esophageal varices in chronic liver disease: A Meta-Analysis. PLoS One 2016; 11: 1-16. [CrossRef]
[17]. Park J, Kwon H, Cho J, Oh J, Lee S, Han S, et al. Is the spleen stiffness value acquired, using acoustic radiation force impulse (ARFI) technology, predictive of the presence of esophageal varices in patients with cirrhosis of various etiologies? Med Ultrason 2016; 18: 11-7. [CrossRef]
[18]. Takuma Y, Nouso K, Morimoto Y, Tomokuni J, Sahara A, Toshikuni N, et al. Measurement of spleen stiffness by acoustic radiation force impulse imaging identifies cirrhotic patients with esophageal varices. Gastroenterol 2013; 144: 92-101. [CrossRef]
[19]. Takuma Y, Nouso K, Morimoto Y, Tomokuni J, Sahara A, Takabatake H, et al. Portal hypertension in patients with liver cirrhosis: Diagnostic accuracy of spleen stiffness. Radiology 2016; 279: 609-19. [CrossRef]
[20]. Guibal A, Boularan C, Bruce M, Vallin M, Piileul F, Walter T, et al. Evaluation of shearwave elastography for the characterization of focal liver lesions on ultrasound. Eur Radiol 2013; 23: 1138-49. [CrossRef]
[21]. Frulio N, Laumonier H, Carteret T, Laurent C, Maire F, Balabaud C, et al. Evaluation of liver tumors using acoustic radiation force impulse elastography and correlation with histologic data. J Ultrasound Med 2013; 32: 121-30. [CrossRef]
[22]. Kolokythas O, Gauthier T, Fernandez AT, Xie H, Timm BA, Cuevas C, et al. Ultrasound-based elastography: a novel approach to assess radio frequency ablation of liver masses performed with expandable ablation probes: a feasibility study. J Ultrasound Med 2008; 27: 935-46. [CrossRef]
[23]. Van Vledder MG, Boctor EM, Assumpcao LR, Rivaz H, Foroughi P, Hager GD, et al. Intra-operative ultrasound elasticity imaging for monitoring of hepatic tumour thermal ablation. HPB (Oxford) 2010; 12: 717-23. [CrossRef]
[24]. Franchi-Abella S, Corno L, Gonzales E, Antoni G, Fabre M, Ducot B, et al. Feasibility and diagnostic accuracy of supersonic shear-wave elastography for the assessment of liver stiffness and liver fibrosis in children: A pilot study of 96 patients. Radiology 2016; 278: 554-62. [CrossRef]
[25]. Hanquinet S, Courvoisier D, Kanavaki A, Dhoib A, Anooshiravani M. Acoustic radiation force impulse imaging: Normal values of liver stiffness in healthy children. Pediatr Radiol 2013; 43: 539-44. [CrossRef]
[26]. Fontanilla T, Canas T, Macia A, Alfageme M, Gutierrez Junquera C, Malalana A, et al. Normal values of liver shear wave velocity in healthy children assessed by acoustic radiation force impulse imaging using a convex probe and a linear probe. Ultrasound Med Biol 2014; 40: 470-7. [CrossRef]
[27]. Bailey SS, Youssfi M, Patel M, Hu HH, Shaibi GQ, Towbin RB. Shear-wave ultrasound elastography of the liver in normal-weight and obese children. Acta Radiol 2017; 58: 1511-8. [CrossRef]
[28]. Matos H, Trindade A, Noruegas MJ. Acoustic radiation force impulse imaging in paediatric patients: Normal liver values. J Pediatr Gastroenterol Nutr 2014; 59: 684-8. [CrossRef]
[29]. Eiler J, Kleinholdermann U, Albers D, Dahms J, Hermann F, Behrens C, et al. Standard value of ultrasound elastography using acoustic radiation force impulse imaging (ARFI) in healthy liver tissue of children and adolescents. Ultraschall Med 2012; 33: 474-9. [CrossRef]
[30]. Goldschmidt I, Streckenbach C, Dingemann C, Pfister ED, di Nanni A, Zapf A, et al. Application and limitations of transient liver elastography in children. J Pediatr Gastroenterol Nutr 2013; 57: 109-13. [CrossRef]
[31]. Engelmann G, Gebhardt C, Wenning D, Wühl E, Hoffmann GF, Selmi B, et al. Feasibility study and control values of transient elastography in healthy children. Eur J Pediatr 2012; 171: 353-60. [CrossRef]
[32]. Lewindon PJ, Balouch F, Pereira TN, Puertolas-Lopez MV, Noble C, Wixey JA, et al. Transient liver elastography in unsedated control children: Impact of age and intercurrent illness. J Paediatr Child Health 2016; 52: 637-42. [CrossRef]
[33]. Tokuhara D, Cho Y, Shintaku H. Transient elastography-based liver stiffness age-dependently increases in children. PLoS One 2016; 18: 11. [CrossRef]
[34]. Galina P, Alexopoulou E, Zellos A, Grigoraki V, Siahanidou T, Kelekis NL, et al. Performance of two--dimensional ultrasound shear wave elastography: Reference values of normal liver stiffness in children. Pediatr Radiol 2019; 49: 91-8. [CrossRef]
[35]. Kim DW, Yoon HM, Jung AY, Lee JS, Oh SH, Kim KM, et al. Diagnostic performance of ultrasound elastography for evaluating portal hypertension in children: A systematic review and meta-analysis. J Ultrasound Med 2019; 38: 747-59. [CrossRef]
[36]. Witters P, De Boeck K, Dupont L, Proesmans M, Vermeulen F, Servaes R, et al. Non-invasive liver elastography (Fibroscan) for detection of cystic fibrosis-associated liver disease. J Cyst Fibros 2009; 8: 392-9. [CrossRef]
[37]. Cañas T, Maciá A, Muñoz-Codoceo RA, Fontanilla T, González-Rios P, Miralles M, et al. Hepatic and splenic acoustic radiation force impulse shear wave velocity elastography in children with liver disea se associated with cystic fibrosis. Biomed Res Int 2015; 2015: 517369. [CrossRef]
[38]. Shen QL, Chen YJ, Wang ZM, Zhang TC, Pang WB, Shu J, et al. Assessment of liver fibrosis by fibroscan as compared to liver biopsy in biliary atresia. World J Gastroenterol 2015; 21: 6931-6. [CrossRef]
[39]. Chen S, Liao B, Zhong Z, Zheng Y, Liu B, Shan Q, et al. Supersonic shearwave elastography in the assessment of liver fibrosis for postoperative patients with biliary atresia. Sci Rep 2016; 6: 31057. [CrossRef]
[40]. Nobili V, Vizzutti F, Arena U, Abraldes JG, Marra F, Pietrobattista A, et al. Accuracy and reproducibility of transient elastography for the diagnosis of fibrosis in pediatric nonalcoholic steatohepatitis. Hepatology 2008; 48: 442-8. [CrossRef]
[41]. Mansoor S, Collyer E, Alkhouri N. A comprehensive review of noninvasive liver fibrosis tests in pediatric nonalcoholic fatty liver disease. Curr Gastroenterol Rep 2015; 17: 23. [CrossRef]
[42]. Goldschmidt I, Stieghorst H, Munteanu M, Poynard T, Schlue J, Streckenbach C, et al. The use of transient elastography and non-invasive serum markers of fibrosis in pediatric liver transplant recipients. Pediatr Transplant 2013; 17: 525-34. [CrossRef]
[43]. Tomita H, Hoshino K, Fuchimoto Y, Ebinuma H, Ohkuma K, Tanami Y, et al. Acoustic radiation force impulse imaging for assessing graft fibrosis after pediatric living donor liver transplantation: A pilot study. Liver Transplant 2013; 19: 1202-13. [CrossRef]
[44]. Tomita H, Fuchimoto Y, Ohkuma K, Hoshino K, Fujino A, Kato M, et al. Spleen stiffness measurements by acoustic radiation force impulse imaging after living donor liver transplantation in children: A potential quantitative index for venous complications. Pediatr Radiol 2015; 45: 658-66. [CrossRef]

APA	ÖZBEK S (2019). Karaciğer Elastografisi. , 13 - 24. 10.5152/trs.2019.714
Chicago	ÖZBEK Süha Süreyya Karaciğer Elastografisi. (2019): 13 - 24. 10.5152/trs.2019.714
MLA	ÖZBEK Süha Süreyya Karaciğer Elastografisi. , 2019, ss.13 - 24. 10.5152/trs.2019.714
AMA	ÖZBEK S Karaciğer Elastografisi. . 2019; 13 - 24. 10.5152/trs.2019.714
Vancouver	ÖZBEK S Karaciğer Elastografisi. . 2019; 13 - 24. 10.5152/trs.2019.714
IEEE	ÖZBEK S "Karaciğer Elastografisi." , ss.13 - 24, 2019. 10.5152/trs.2019.714
ISNAD	ÖZBEK, Süha Süreyya. "Karaciğer Elastografisi". (2019), 13-24. https://doi.org/10.5152/trs.2019.714

APA	ÖZBEK S (2019). Karaciğer Elastografisi. Türk Radyoloji Seminerleri, 7(1), 13 - 24. 10.5152/trs.2019.714
Chicago	ÖZBEK Süha Süreyya Karaciğer Elastografisi. Türk Radyoloji Seminerleri 7, no.1 (2019): 13 - 24. 10.5152/trs.2019.714
MLA	ÖZBEK Süha Süreyya Karaciğer Elastografisi. Türk Radyoloji Seminerleri, vol.7, no.1, 2019, ss.13 - 24. 10.5152/trs.2019.714
AMA	ÖZBEK S Karaciğer Elastografisi. Türk Radyoloji Seminerleri. 2019; 7(1): 13 - 24. 10.5152/trs.2019.714
Vancouver	ÖZBEK S Karaciğer Elastografisi. Türk Radyoloji Seminerleri. 2019; 7(1): 13 - 24. 10.5152/trs.2019.714
IEEE	ÖZBEK S "Karaciğer Elastografisi." Türk Radyoloji Seminerleri, 7, ss.13 - 24, 2019. 10.5152/trs.2019.714
ISNAD	ÖZBEK, Süha Süreyya. "Karaciğer Elastografisi". Türk Radyoloji Seminerleri 7/1 (2019), 13-24. https://doi.org/10.5152/trs.2019.714