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Real-Time Tissue Elastography: A Noninvasive Technique to Evaluate Liver Damage after Brain Death in Animal Mode
Received date: 2019-10-12
Online published: 2020-09-29
Objective: Using brain-dead donors to obtain organs for transplant is an effective way to overcome the shortage of organ donors. The purpose of this study is to investigate ultrasound flow imaging and elastography as a simple, feasible, accurate and effective method for evaluation of liver damage after brain death using an animal model.
Methods: We established a brain-death model using 15 pigs. Brain death was induced by progressively increasing the intracranial pressure, and the brain-death state was maintained for 9 hours. Spectral Doppler imaging and elastography was used to evaluate hepatic hemodynamic parameters and tissue stiffness over the period of brain death.
Results: Electron microscopy of the liver over the progress of brain death revealed gradual mitochondrial swelling (with rupture), expansion of the endoplasmic reticulum, and increased collagen in the extracellular matrix. Spectral Doppler imagin demonstrated that the HA-RI increased over time, which had statistically significant difference between the Bef-BD measurement and measurements at 3, 6, and 9 hours after brain death. Real time elastography of the liver revealed a gradual decrease of the mean relative strain value (MEAN) over the time, and a gradual increase in standard deviation of the relative strain value, complexity of low strain area, and skewness, suggesting that brain-death induced liver damage increases with time. The ROC curves showed that MEAN had the highest sensitivity, specificity, and accuracy for assessing liver injury.
Conclusion: Hepatic tissue damage induced by brain death increased over time. The HA-RI and liver stiffness index changes can be assessed by Doppler ultrasound and elastographic imaging. Our results showed that elastography is a useful method to evaluate liver damage after brain death.
Niu, MD Ningning , Tang, MD Ying , Zhao, MD Jingwen . Real-Time Tissue Elastography: A Noninvasive Technique to Evaluate Liver Damage after Brain Death in Animal Mode[J]. ADVANCED ULTRASOUND IN DIAGNOSIS AND THERAPY, 2020 , 4(4) : 322 -328 . DOI: 10.37015/AUDT.2020.190028
[1] | Bugge JF. Brain death and its implications for management of the potential organ donor. Acta Anaesthesiol Scand 2009; 53:1239-1250. |
[2] | Pezzati D, Ghinolfi D, De Simone P, Balzano E, Filipponi F. Strategies to optimize the use of marginal donors in liver transplantation. World J Hepatol 2015; 7:2636-2647. |
[3] | Jiménez-Castro MB, Gracia-Sancho J, Peralta C. Brain death and marginal grafts in liver transplantation. Cell Death Dis 2015; 6:e1777. |
[4] | Kobayashi K, Nakao H, Nishiyama T, Lin Y, Kikuchi S, Kobayashi Y, et al. Diagnostic accuracy of real-time tissue elastography for the staging of liver fibrosis: a meta-analysis. Eur Radiol 2015; 25(1):230-238. |
[5] | Schenk JP, Selmi B, Flechtenmacher C, Sakka SE, Teufel U, Engelmann G. Real-time tissue elastography (RTE) for noninvasive evaluation of fibrosis in liver diseases in children in comparison to liver biopsy. J Med Ultrason (2001) 2014; 41:455-462. |
[6] | Ge L, Shi B, Song YE, Li Y, Wang S, Wang X. Clinical value of real-time elastography quantitative parameters in evaluating the stage of liver fibrosis and cirrhosis. Exp Ther Med 2015; 10:983-990. |
[7] | Pratschke J, Wilhelm MJ, Kusaka M, Laskowski I, Tilney NL. A model of gradual onset brain death for transplant-associated studies in rats. Transplantation 2000; 69:427-430. |
[8] | Drake M, Bernard A, Hessel E. Brain death. Surg Clin North Am 2017; 97:1255-1273. |
[9] | Martin-Loeches I, Sandiumenge A, Charpentier J, Kellum JA, Gaffney AM, Procaccio F, et al. Management of donation after brain death (DBD) in the ICU: the potential donor is identified, what's next? Intensive Care Med 2019; 45:322-330. |
[10] | Croome KP, Wall W, Quan D, Vangala S, McAlister V, Marotta P, et al. Evaluation of the updated definition of early allograft dysfunction in donation after brain death and donation after cardiac death liver allografts. Hepatobiliary Pancreat Dis Int 2012; 11:372-6. |
[11] | Du B, Li L, Zhong Z, Fan X, Qiao B, He C, et al. Brain death induces the alteration of liver protein expression profiles in rabbits. Int J Mol Med 2014; 34:578-84. |
[12] | Jiménez-Castro MB, Gracia-Sancho J, Peralta C. Brain death and marginal grafts in liver transplantation. Cell Death Dis 2015; 6:e1777. |
[13] | Ye H, Wang DP, Zhang CZ, Zhang LJ, Wang HC, Li ZH, et al. Pathological characteristics of liver allografts from donation after brain death followed by cardiac death in pigs. J Huazhong Univ Sci Technolog Med Sci 2014; 34:687-691. |
[14] | Frulio N, Trillaud H. Ultrasound elastography in liver. Diagn Interv Imaging 2013; 94:515-534. |
[15] | Kamaya A, Machtaler S, Safari Sanjani S, Nikoozadeh A, Graham Sommer F, Pierre Khuri-Yakub BT, et al. New technologies in clinical ultrasound. Semin Roentgenol 2013; 48:214-23. |
[16] | Ge L, Shi B, Song YE, Li Y, Wang S, Wang X. Clinical value of real-time elastography quantitative parameters in evaluating the stage of liver fibrosis and cirrhosis. Exp Ther Med 2015; 10:983-990. |
[17] | Wang T, Shao C, Zhang G, Xu Y. Real-time elastography (RTE): a valuable sonography-based non-invasive method for the assessment of liver fibrosis in chronic hepatitis B. Abdom Radiol (NY) 2017; 42:2632-2638. |
[18] | Selmi B, Engelmann G, Teufel U, El Sakka S, Dadrich M, Schenk JP. Normal values of liver elasticity measured by real-time tissue elastography (RTE) in healthy infants and children. J Med Ultrason (2001) 2014; 41:31-8. |
[19] | M?rginean CO, Meli? LE, Ghiga DV, S?s?ran MO. The assessment of liver fibrosis in children with obesity on two methods: transient and two dimensional shear wave elastography. Sci Rep 2019; 9:19800. |
[20] | Jiang H, Zheng T, Duan T, Chen J, Song B. Non-invasive in vivo Imaging Grading of Liver Fibrosis. J Clin Transl Hepatol 2018; 6:198-207. |
[21] | Dietrich CF, S?ftoiu A, Jenssen C. Real time elastography endoscopic ultrasound (RTE-EUS), a comprehensive review. Eur J Radiol 2014; 83:405-414. |
[22] | 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. |
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