This work is licensed under the Creative Commons Attribution 4.0 International License.
Stamm WE, Norrby SR. Urinary tract infections: disease panorama and challenges. J Infect Dis. 2001;183 (Suppl 1):S1-S4.StammWENorrbySRUrinary tract infections: disease panorama and challenges2001183Suppl 1S1S410.1086/31885011171002Search in Google Scholar
Shaikh N, Morone NE, Bost JE, Farrell MH, Prevalence of Urinary Tract Infection in Childhood. A Meta-Analysis, Pediatr Infect Dis J. 2008;27:302-308.ShaikhNMoroneNEBostJEFarrellMHPrevalence of Urinary Tract Infection in Childhood20082730230810.1097/INF.0b013e31815e412218316994Search in Google Scholar
Hoberman A, Charron M, Hickey RW, Baskin M, Kearney DH, Wald ER. Imaging studies after a first febrile urinary tract infection in young children. N Engl J Med. 2003;348:195-202.HobermanACharronMHickeyRWBaskinMKearneyDHWaldERImaging studies after a first febrile urinary tract infection in young children200334819520210.1056/NEJMoa02169812529459Search in Google Scholar
RIVUR Trial Investigators, Hoberman A, Greenfield SP, et al. Antimicrobial prophylaxis for children with vesicoureteral reflux. N Engl J Med. 2014;370(25):2367-2376.IVUR Trial Investigators, Hoberman A, Greenfield SP, et alAntimicrobial prophylaxis for children with vesicoureteral reflux2014370252367237610.1056/NEJMoa1401811413731924795142Search in Google Scholar
Avni FE, Garel C, Cassart M, et al. Imaging and classification of congenital cystic renal diseases. AJR Am J Roentgenol. 2012;198(5):1004-1013.AvniFEGarelCCassartMet alImaging and classification of congenital cystic renal diseases201219851004101310.2214/AJR.11.808322528889Search in Google Scholar
Chung EM, Conran RM, Schroeder JW, et al. From the radiologic pathology archives: pediatric polycystic kidney disease and other ciliopathies: radiologic-pathologic correlation. Radiographics. 2014;34(1):155-178.ChungEMConranRMSchroederJWet alFrom the radiologic pathology archives: pediatric polycystic kidney disease and other ciliopathies: radiologic-pathologic correlation201434115517810.1148/rg.34113517924428289Search in Google Scholar
Chung EM, Graeber AR, Conran RM. Renal tumors of childhood: radiologic-pathologic correlation part 1. The 1st decade: from the radiologic pathology archives. Radiographics 2016;36(2):499-522.ChungEMGraeberARConranRMRenal tumors of childhood: radiologic-pathologic correlation part 1. The 1st decade: from the radiologic pathology archives201636249952210.1148/rg.201615023026963460Search in Google Scholar
Strauss KJ, Kaste SC. Lower radiation burden in state of the art fluoroscopic cystography compared to direct isotope cystography in children.StraussKJKasteSCSearch in Google Scholar
Nowicki A. Ultradźwięki w medycynie wprowadzenie do współczesnej ultrasonografii, Wydawnictwo Instytutu Podstawowych Problemów Techniki PAN, 2010.NowickiAWydawnictwo Instytutu Podstawowych Problemów Techniki PAN2010Search in Google Scholar
Michael P. Federle MP, Jeffrey RB, Woodward PJ, Borhani A. Diagnostic Imaging Abdomen. Lippincott Williams & Wilkins; Second edition December 2, 2009;IV-4-2 – IV-6-8.MichaelPFederleMPJeffreyRBWoodwardPJBorhaniASecond edition December 22009IV-4-2 – IV-6-8Search in Google Scholar
Brant WE, Helms C. Fundamentals of Diagnostic Radiology. LWW; Fourth, March 28, 2012.BrantWEHelmsCFundamentals of Diagnostic RadiologyFourth, March 282012Search in Google Scholar
Kis E, Nyitrai A, Várkonyi I, et al. Voiding urosonography with second-generation contrast agent versus voiding cystourethrography, Pediatr Nephrol. 2010;25:2289-2293.KisENyitraiAVárkonyiIet al2010252289229310.1007/s00467-010-1618-720686902Search in Google Scholar
Riccabona M, Vivier PH, Ntoulia A, et al. ESPR uroradiology task force imaging recommendations in paediatric uroradiology, part VII: standardised terminology, impact of existing recommendations, and update on contrast-enhanced ultrasound of the paediatric urogenital tract. Pediatr Radiol. 2014;44(11):1478-1484.RiccabonaMVivierPHNtouliaAet alESPR uroradiology task force imaging recommendations in paediatric uroradiology, part VII: standardised terminology, impact of existing recommendations, and update on contrast-enhanced ultrasound of the paediatric urogenital tract201444111478148410.1007/s00247-014-3135-525331025Search in Google Scholar
Snow B, Taylor M. Non-invasive vesicoureteral reflux imaging. J Pediatr Urol. 2010;6:543-549.SnowBTaylorMNon-invasive vesicoureteral reflux imaging2010654354910.1016/j.jpurol.2010.02.21120488755Search in Google Scholar
Fernández-Ibietaa M, Parrondo-Mui C, Fernández-Masaguerc LC. Voiding urosonography with second-generation contrast as a main tool for examining the upper and lower urinary tract in children. Pilot study. Actas Urol Esp. 2016;40(3):183-189.Fernández-IbietaaMParrondo-MuiCFernández-MasaguercLCVoiding urosonography with second-generation contrast as a main tool for examining the upper and lower urinary tract in children. Pilot study201640318318910.1016/j.acuroe.2016.02.007Search in Google Scholar
Novljan G, Levart TK, Ljucevsek D, Kenig A, Kenda RB. Ultra-sound detection of vesicoureteral reflux in children. J Urol. 2010;184:319-247.NovljanGLevartTKLjucevsekDKenigAKendaRBUltra-sound detection of vesicoureteral reflux in children201018431924710.1016/j.juro.2010.01.05720488482Search in Google Scholar
Machado P, Segal S, Lyshchik A, Forsberg F. A novel microvascular flow technique: initial results in thyroids. Ultrasound Q. 2016;32:67-74.MachadoPSegalSLyshchikAForsbergFA novel microvascular flow technique: initial results in thyroids201632677410.1097/RUQ.000000000000015625900162Search in Google Scholar
Kluner C, Hein PA, Gralla O, et al. Does ultralow-dose CT with a radiation dose equivalent to that of KUB suffice to detect renal and ureteral calculi? J Comput Assist Tomogr. 2006;30(1):44-50.KlunerCHeinPAGrallaOet alDoes ultralow-dose CT with a radiation dose equivalent to that of KUB suffice to detect renal and ureteral calculi?2006301445010.1097/01.rct.0000191685.58838.ef16365571Search in Google Scholar
Mannudeep K.K, Sarabjeet S, Blake A, CT of the Urinary Tract: Turning Attention to Radiation Dose, Radiol Clin N Am. 2008;46:1-9.MannudeepK.KSarabjeetSBlakeACT of the Urinary Tract: Turning Attention to Radiation Dose2008461910.1016/j.rcl.2008.01.00218328876Search in Google Scholar
Joshi M, Langan DA, Sahani DS, et al. Effective atomic number accuracy for kidney stone characterization using spectral CT, Medical Imaging 2010: Physics of Medical Imaging, 13-18 February 2010.JoshiMLanganDASahaniDSet al13-18 February 201010.1117/12.844372Search in Google Scholar
Mingliang Qu, Juan C. Ramirez Giraldo, Shuai Leng. Dual-energy dual-source CT with additional spectral filtration can improve the differentiation of non-uric acid renal stones: An ex vivo phantom study. AJR Am J Roentgenol. 2011 Jun; 196(6):1279-1287.QuMingliangRamirez GiraldoJuan C.LengShuaiDual-energy dual-source CT with additional spectral filtration can improve the differentiation of non-uric acid renal stones: An ex vivo phantom study2011Jun19661279128710.2214/AJR.10.5041390103721606290Search in Google Scholar
Chung EM, Soderlund KA, Fagen KE. Imaging of the Pediatric Urinary System. Radiol Clin North Am. 2017 Mar;55(2):337-357.ChungEMSoderlundKAFagenKEImaging of the Pediatric Urinary System2017Mar55233735710.1016/j.rcl.2016.10.01028126219Search in Google Scholar
Lass P, Rutkowski B. Scyntygrafia nerek, Encyklopedia Badań Medycznych, MAKmed, Gdańsk 1996. www.nefrologia.mp.plLassPRutkowskiBwww.nefrologia.mp.plSearch in Google Scholar
Toth K. Badania izotopowe, Nefrologia dziecięca, (red): Sieniawska M, Wyszyńska T, Ośrodek Informacji Naukowej „Polfa”, Warszawa, 2003.TothKWarszawa2003Search in Google Scholar
Król E. et al. Badania obrazowe nerek i dróg moczowych, w Nefrologia (red): Książek A, Rutkowski B CZELEJ, Lublin, 2004.KrólE.et alredKsiążekARutkowski B CZELEJLublin2004Search in Google Scholar