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2019, vol. 10, br. 2, str. 188-193
Funkcionalna magnetna rezonanca bubrega
Univerzitet u Istočnom Sarajevu, Medicinski fakultet, Foča, Republika Srpska, BiH

e-adresaristicsinisa@yahoo.com
Sažetak
Tendencija razvoja moderne dijagnostičke vizuelizacije u biomedicini usmjerena je ka integraciji detekcije i kvantifikacije molekularnih, funkcionalnih i morfoloških dešavanja u biološkim sistemima. Neprekidni porast broja oboljelih od hroničnih bolesti bubrega nametnuo je potrebu razvoja novih dijagnostičkih metoda za detekciju molekularnih, anatomskih i funkcionalnih zbivanja u tkivu bubrega. Razvoj tehnologije magnetne rezonance omogućio je nastanak funkcionalne magnetne rezonance bubrega u istraživanjima i kliničkoj praksi. U radu su prikazane osnove, kao i neke savremene praktične mogućnosti korišćenja funkcionalne magnetne rezonance bubrega.
Reference
Bisla, J.K., Saranathan, M., Martin, D.R., Arif-Tiwari, H., Kalb, B.T. (2019) Mr imaging evaluation of the kidneys in patients with reduced kidney function: Noncontrasttechniques versus contrast-enhanced techniques. Magn Reson Imaging Clin N Am, 27(1): 45-57
Brix, S., Cantow, K., Flemming, B., Pohlmann, A., Niendorf, T., Seeliger, E. (2018) Interpretation of functional renal MRI findings: Where physiology and imaging sciences need to talk across domains. Journal of Magnetic Resonance Imaging, 47(4): 1140-1141
Caroli, A., Pruijm, M., Burnier, M., Selby, N.M. (2018) Functional magnetic resonance imaging of the kidneys: Where do we stand?: The perspective of the European COST Action PARENCHIMA. Nephrology Dialysis Transplantation, 33(suppl_2): ii1-ii3
Chandarana, H., Lee, V.S. (2009) Renal functional MRI: Are we ready for clinical application?. American Journal of Roentgenology, 192(6): 1550-1557
Ebrahimi, B., Textor, S.C., Lerman, L.O. (2014) Renal relevant radiology: Renal functional magnetic resonance imaging. Clinical Journal of the American Society of Nephrology, 9(2): 395-405
Eckerbom, P., Hansell, P., Cox, E.F., Buchanan, C., Weis, J., Palm, F., Francis, S., Liss, P. (2019) Multiparametric assessment of renal physiology in healthy volunteers using noninvasive magnetic resonance imaging. American Journal of Physiology-Renal Physiology, 316(4): F693-F702
Francis, S., Buchanan, C.E., Prestwich, B., Taal, M.W. (2017) Sodium MRI: A new frontier in imaging in nephrology. Curr Opin Nephrol Hypertens, 26(6): 435-476
Li, C., Liu, H., Li, X., Zhou, L., Wang, R., Zhang, Y. (2019) Application of BOLD-MRI in the classification of renal function in chronic kidney disease. Abdominal Radiology, 44(2): 604-611
Liu, H., Zhou, Z., Li, X., Li, C., Wang, R., Zhang, Y., Niu, G. (2018) Diffusion-weighted imaging for staging chronic kidney disease: A meta-analysis. British Journal of Radiology, 91(1091): 20170952-20170952
Ljimani, A., Wittsack, H.J., Lanzman, R.S. (2018) Functional MRI in transplanted kidneys. Abdominal Radiology, 43(10): 2615-2624
Mahmoud, H., Buchanan, C., Francis, S.T., Selby, N.M. (2016) Imaging the kidney using magnetic resonance techniques: Structure to function. Current Opinion in Nephrology and Hypertension, 25(6): 487-493
Mannelli, L., Maki, J.H., Osman, S.F., Chandarana, H., Lomas, D.J., Shuman, W.P., Linnau, K.F., Green, D.E., Laffi, G., Moshiri, M. (2012) Noncontrast functional MRI of the kidneys. Current Urology Reports, 13(1): 99-107
Mao, W., Zhou, J., Zeng, M., Ding, Y., Qu, L., Chen, C., Ding, X., Wang, Y., Fu, C. (2018) Chronic kidney disease: Pathological and functional evaluation with intravoxel incoherent motion diffusion-weighted imaging. Journal of Magnetic Resonance Imaging, 47(5): 1251-1259
Mariager, C.Ø., Nielsen, P.M., Qi, H., Ringgaard, S., Laustsen, C. (2018) Hyperpolarized 13 C,15 N2 -urea T2 relaxation changes in acute kidney injury. Magnetic Resonance in Medicine, 80(2): 696-702
Odudu, A., Nery, F., Harteveld, A.A., Evans, R.G., Pendse, D., Buchanan, C.E., Francis, S.T., Fernández-Seara, M.A. (2018) Arterial spin labelling MRI to measure renal perfusion: A systematic review and statement paper. Nephrology Dialysis Transplantation, 33(suppl_2): ii15-ii21
Prasad, P.V. (2018) Update on renal blood oxygenation level-dependent MRI to assess intrarenal oxygenation in chronic kidney disease. Kidney International, 93(4): 778-780
Prasad, P.V., Li, L.P., Thacker, J.M., Li, W.P., Hack, B., Kohn, O., Sprague, S.M. (2019) Cortical perfusion and tubular function as evaluated by magnetic resonance imaging correlates with annual loss in renal function in moderate chronic kidney disease. American Journal of Nephrology, 49(2): 114-124
Pruijm, M., Milani, B., Pivin, E., Podhajska, A., Vogt, B., Stuber, M., Burnier, M. (2018) Reduced cortical oxygenation predicts a progressive decline of renal function in patients with chronic kidney disease. Kidney International, 93(4): 932-940
Pruijm, M., Mendichovszky, I.A., Liss, P., van der Niepen, P., Textor, S.C., Lerman, L.O., Krediet, C., Caroli, A., Burnier, M., Prasad, P.V. (2018) Renal blood oxygenation level-dependent magnetic resonance imaging to measure renal tissue oxygenation: A statement paper and systematic review. Nephrology Dialysis Transplantation, 33(suppl_2): ii22-ii28
Ristić, S., Lukić, L., Maksimović, Z., Marić, S., Marić, V., Kovačević, M., Trifunović, D., Pavlović, D., Mijatović, S., Marinković, J., Djukanović, L. (2012) High prevalence of risk factors for chronic kidney disease in Balkan endemic nephropathy foci. Renal failure, 34(4): 467-71
Ristić, S., Kozomara, R., Medenica, S., Rajkovača, Z. (2009) Modern visualization techniques in brain functions estimation. Vojnosanitetski pregled, vol. 66, br. 8, str. 663-666
Schley, G., Jordan, J., Ellmann, S., Rosen, S., Eckardt, K.U., Uder, M., Willam, C., Bäuerle, T. (2018) Multiparametric magnetic resonance imaging of experimental chronic kidney disease: A quantitative correlation study with histology. PLoS One, 13(7): e0200259-e0200259
Vendrami, L.C., Villavicencio, P.C., deJulio T.J., Chatterjee, A., Casalino, D.D., Horowitz, J.M. (2017) Differentiation of solid renal tumors with multiparametric Mr imaging. Radiographics, 37(7):2026-42
Wang, F., Katagiri, D., Li, K., Takahashi, K., Wang, S., Nagasaka, S., Li, H., Quarles, C., Zhang, M., Shimizu, A., Gore, J.C., Harris, R.C., Takahashi, T. (2018) Assessment of renal fibrosis in murine diabetic nephropathy using quantitative magnetization transfer MRI. Magnetic Resonance in Medicine, 80(6): 2655-2669
Wang, Y.T., Li, Y.C., Yin, L.L., Pu, H., Chen, J.Y. (2015) Functional assessment of transplanted kidneys with magnetic resonance imaging. World Journal of Radiology, 7(10): 343-9
Wang, Y.C., Feng, Y., Lu, C.Q., Ju, S. (2018) Renal fat fraction and diffusion tensor imaging in patients with early-stage diabetic nephropathy. European Radiology, 28(8): 3326-3334
Wang, Z.J., Ohliger, M.A., Larson, P.E.Z., Gordon, J.W., Bok, R.A., Slater, J., Villanueva-Meyer, J.E., Hess, C.P., Kurhanewicz, J., Vigneron, D.B. (2019) Hyperpolarized 13C MRI: State of the art and future directions. Radiology, 291(2): 273-284
Wan-Li, Z., Jun, T., Yu-Dong, Z., Fei, S., Zhijian, H., Chen-Jiang, W., Zijie, W., Yongjun, L., Hongliang, Q., Zhengkai, H., Zengjun, W., Ruoyun, T., Min, G. (2019) Prospective comparison between DCE-MRR and 99m Tc-DTPA-based SPECT for determination of allograft renal function. Journal of Magnetic Resonance Imaging, 49(1): 262-269
Williams, R.M., Shah, J., Tian, H.S., Chen, X., Geissmann, F., Jaimes, E.A., Heller, D.A. (2018) Selective nanoparticle targeting of the renal tubules. Hypertension, 71(1): 87-94
Wolf, M., de Boer, A., Sharma, K., Boor, P., Leiner, T., Sunder-Plassmann, G., Moser, E., Caroli, A., Jerome, N.P. (2018) Magnetic resonance imaging T1and T2-mapping to assess renal structure and function: a systematic review and statement paper. Nephrology Dialysis Transplantation, 33(suppl_2): ii41-ii50
Xie, L., Bennett, K.M., Liu, C., Johnson, G., Zhang, J.L., Lee, V.S. (2016) MRI tools for assessment of microstructure and nephron function of the kidney. American Journal of Physiology-Renal Physiology, 311(6): F1109-F1124
Zhang, J.L. (2017) Functional magnetic resonance imaging of the kidneys-with and without gadolinium-based contrast. Advances in Chronic Kidney Disease, 24(3): 162-168
Zhao, J., Wang, Z.J., Liu, M., Zhu, J., Zhang, X., Zhang, T., Li, S., Li, Y. (2014) Assessment of renal fibrosis in chronic kidney disease using diffusion-weighted MRI. Clinical Radiology, 69(11): 1117-1122
Zhou, J.Y., Wang, Y.C., Zeng, C.H., Ju, S.H. (2018) Renal functional MRI and its application. Journal of Magnetic Resonance Imaging, 48(4): 863-881
 

O članku

jezik rada: srpski
vrsta rada: pregledni članak
DOI: 10.7251/BII1902188R
primljen: 18.04.2019.
prihvaćen: 07.11.2019.
objavljen u SCIndeksu: 31.03.2021.

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