The Role of Dynamic Renal Scintigraphy in Detecting Vesicoureteral Reflux Diagnosed by Voiding Cystourethrogram
Yıl 2023,
Cilt: 33 Sayı: 5, 633 - 636, 25.10.2023
Mehmet Sarıkaya
,
Hasan Önner
,
Fatma Özcan Sıkı
,
Farise Yılmaz
,
Gonca Kara Gedik
,
İlhan Çiftci
Öz
Aims: This study aims to evaluate the role of standardized dynamic renal scintigraphy (DRS) in recognizing vesicoureteral reflux (VUR) in patients detected with VUR by voiding cystourethrography (VCUG).
Methods: The data of all pediatric patients who underwent both VCUG and DRS [technetium-99m diethylenetriamine pentaacetic acid (Tc-99m DTPA) or technetium-99m mercaptoacetyltriglycine dynamic renal scintigraphy (Tc-99m MAG-3)] in our hospital between 2013 and 2022 were retrospectively reviewed. Tc-99m MAG-3 was used in infants and Tc-99m DTPA radiopharmaceutical in children over one year old. According to VCUG findings, VUR grades were grouped as grade I-II-III low-grade VUR and IV-V high-grade VUR. The role of DRS in detecting VUR in both low and high-VUR-grade groups was evaluated.
Results: A total of 56 patients (and 69 renal units), 23 girls (%41.1), and 33 boys (%68.9) were included in this study. The median value of the time elapsed between the DRS and VCUG examinations was nine days. According to VCUG, VUR was grade I in five renal units, grade II in 19 renal units, grade III in six renal units, grade IV in six renal units, and grade V in 33 renal units. DRS detected VUR in two of 30 renal units (%6.7) in the low VUR grade group. On the other hand, VUR was observed with DRS in 27 of 39 renal units (%69.2) in the high VUR grade group.
Conclusions: Standardized DRS shows very low sensitivity in recognizing low-grade VUR, and its performance in detecting high-grade VUR is comparatively better. Raising awareness among clinicians that VUR can be observed with standardized DRS will benefit the patient in terms of early detection of accompanying VUR pathologies.
Kaynakça
- Yılmaz, İ., Peru, H., Yılmaz, F. H., Sekmenli, T., Çiftçi, İ., & Kara, F. (2018). Association of vesicoureteral reflux and renal scarring in urinary tract infections. ArchArgent Pediatr, 116(4), e542-e547.
- Tekgül, S.,Riedmiller, H., Hoebeke, P., Kočvara, R., Nijman, R. J., Radmayr, C., ... &Dogan, H. S. (2012). EAU guidelines on vesicoureteralreflux in children. EurUrol, 62(3), 534-542.
- Beetz, R. (2019). Diagnosticevaluation of reflux: significance of voidingcystourethrography. ActuelUrol, 51(2), 137-144.
- Lebowitz, R. L.,Olbing, H., Parkkulainen, K. V., Smellie, J. M., &Tamminen-Möbius, T. E. (1985). International system of radiographicgrading of vesicouretericreflux. Pediatr Radiol, 15, 105-109.
- Peters, C. A.,Skoog, S. J., Arant, B. S., Copp, H. L., Elder, J. S., Hudson, R. G., ... & Diaz, M. (2010). Summary of the AUA guideline on management of primary vesicoureteral reflux in children. JUrol, 184(3), 1134-1144.
- Piepsz, A. (2002). Radionuclide studies in paediatricnephro-urology. Eur J Radiol, 43(2), 146-153.
- Capone, V.,Taroni, F., Pavesi, M. A., Castellani, M., Consonni, D., Berrettini, A., ... &Montini, G. (2019). Voiding cystourethrography and 99MTC-MAG3 renalscintigraphy in pediatric vesicoureteral reflux: what is the role of indirectcystography?. J Pediatr Urol, 15(5), 514-e1.
- Lee, R., Thomas, K. E., Connolly, B. L., Falkiner, M., & Gordon, C. L. (2009). Effective doşe estimation for pediatric voiding cystourethrography using an anthropomorphic phantom set and metal oxidesemic onductorfield-effect transistor (MOSFET) technology. Pediatr Radiol, 39, 608-615.
- Darge, K.,&Riedmiller, H. (2004). Currentstatus of vesicoureteralreflux diagnosis. World J Urol, 22(2), 88-95.
- Gülaldı, N. C., Aksoy, T., Aydın, F., Gedik, G. K., Günay, E. C., Kara, P. Ö., et all. (2015). TNTD, çocuklarda dinamik böbrek sintigrafisi uygulama kılavuzu 2.0. NuclMed Semin, 1, 15-18.
- Taylor, A. T. (2014). Radionuclides in nephrourology, Part 2: pit falls and diagnostic applications. J NuclMed, 55(5), 786-798.
- Yapar, A. F., Aydin, M., Reyhan, M., Yapar, Z., &Yologlu, N. A. (2004). Assessment of theoptimal time intervaland background region of interest in themeasurement of differentialrenalfunction in Tc-99m-EC renography. AnnNuclMed, 18, 419-425.
- Johnin, K.,Kobayashi, K., Tsuru, T., Yoshida, T., Kageyama, S., &Kawauchi, A. (2019). Pediatric voiding cystourethrography: An essential examination for urologists but a terrible experience for children. Int J Urol, 26(2), 160-171.
- Polito, C.,Rambaldi, P. F., La Manna, A., Mansi, L., &DiToro, R. (2000). Enhanced detection of vesico ureteric reflux with is otopic cystography. Pediatr Nephrol 14, 827-830.
- Sükan, A.,Bayazit, A. K., Kibar, M., Noyan, A., Soyupak, S., Yapar, Z., et all. (2003). Comparison of direct radio nuclide cystography and voiding direct cystography in the detection of vesicoureteral reflux. Ann Nucl Med, 17, 549-553.
- Saraga, M.,Staničić, A., &Marković, V. (1996). The role of direct radionuclide cystography in evaluation of vesicoureteralreflux. Scand J UrolNephrol, 30(5), 367-371.
- Unver, T., Alpay, H., Biyikli, N. K., &Ones, T. (2006). Comparison of direct radio nuclide cystography and voiding cystourethrography in detectingvesicoureteralreflux. Pediatr Int, 48(3), 287-291.
- Gordon, I.,Peters, A. M., & Morony, S. (1990). Indirect radionuclide cystography: a sensitive technique for the detection of vesico-ureteralreflux. Pediatr Nephrol, 4, 604-606.
- Christodoulos Likartsis, M. D.,Nikoleta Printza, M. D., &Notopoulos, A. (2020). Radio nuclide techniques for the detection of vesicoureteral reflux and their clinical significance. Hell J Nucl Med, 23(2), 180-187.
- Hinman, F., Miller, E. R., Hutch, J. A., Gainey, M. D., Con, C. E., Goodfriend, R. B., et all. (1962). Low pressure reflux: relation of vesicoureteral reflux to intravesical pressure. J Urol, 88(6), 758-765.
Voiding Sistoüretrogram ile Tanı Konulan Vezikoüreteral Reflü'nün Saptanmasında Dinamik Böbrek Sintigrafisinin Rolü
Yıl 2023,
Cilt: 33 Sayı: 5, 633 - 636, 25.10.2023
Mehmet Sarıkaya
,
Hasan Önner
,
Fatma Özcan Sıkı
,
Farise Yılmaz
,
Gonca Kara Gedik
,
İlhan Çiftci
Öz
Amaç: Bu çalışmada voiding sistouretrografi (VCUG) ile vezikoüreteral reflü (VUR) saptanan hastalarda standart dinamik böbrek sintigrafisinin (DRS) VUR'u tanımadaki rolünü değerlendirmeyi amaçladık.
Yöntemler: 2013-2013 yılları arasında hastanemizde hem VCUG hem de DRS [teknetyum-99m dietilentriamin pentaasetik asit (Tc-99m DTPA) veya teknesyum-99m merkaptoasetiltriglisin dinamik böbrek sintigrafisi (Tc-99m MAG-3)] yapılan tüm çocuk hastaların verileri. 2022 yılı geriye dönük olarak incelendi. Bebeklerde Tc-99m MAG-3, bir yaşın üzerindeki çocuklarda ise Tc-99m DTPA radyofarmasötiği kullanıldı. VCUG bulgularına göre VUR dereceleri, derece I-II-III düşük dereceli VUR ve IV-V yüksek dereceli VUR olarak gruplandırıldı. DRS'nin hem düşük hem de yüksek VUR dereceli gruplarda VUR'u tespit etmedeki rolü değerlendirildi.
Bulgular: Bu çalışmaya 23'ü kız (%41.1) ve 33'ü erkek (%68.9) olmak üzere toplam 56 hasta (ve 69 böbrek ünitesi) dahil edildi. DRS ve VCUG incelemeleri arasında geçen sürenin ortanca değeri dokuz gündü. VCUG'a göre VUR beş böbrek ünitesinde grade I, 19 böbrek ünitesinde grade II, altı böbrek ünitesinde grade III, altı böbrek ünitesinde grade IV ve 33 böbrek ünitesinde grade V idi. DRS'de düşük VUR dereceli grupta 30 böbrek ünitesinin ikisinde (%6,7) VUR tespit edildi. Yüksek VUR dereceli grupta ise 39 böbrek ünitesinin 27'sinde (%69,2) DRS ile birlikte VUR gözlendi.
Sonuçlar: Standardize edilmiş DRS, düşük dereceli VUR'u tanımada düşük hassasiyet gösterirken yüksek dereceli VUR'u tespit etmedeki performansı oldukça iyidir. Klinisyenlerin VUR'un standardize DRS ile görülebileceği konusunda farkındalığının arttırılması, eşlik eden VUR patolojilerinin erken tespiti açısından hasta yararına olacaktır.
Kaynakça
- Yılmaz, İ., Peru, H., Yılmaz, F. H., Sekmenli, T., Çiftçi, İ., & Kara, F. (2018). Association of vesicoureteral reflux and renal scarring in urinary tract infections. ArchArgent Pediatr, 116(4), e542-e547.
- Tekgül, S.,Riedmiller, H., Hoebeke, P., Kočvara, R., Nijman, R. J., Radmayr, C., ... &Dogan, H. S. (2012). EAU guidelines on vesicoureteralreflux in children. EurUrol, 62(3), 534-542.
- Beetz, R. (2019). Diagnosticevaluation of reflux: significance of voidingcystourethrography. ActuelUrol, 51(2), 137-144.
- Lebowitz, R. L.,Olbing, H., Parkkulainen, K. V., Smellie, J. M., &Tamminen-Möbius, T. E. (1985). International system of radiographicgrading of vesicouretericreflux. Pediatr Radiol, 15, 105-109.
- Peters, C. A.,Skoog, S. J., Arant, B. S., Copp, H. L., Elder, J. S., Hudson, R. G., ... & Diaz, M. (2010). Summary of the AUA guideline on management of primary vesicoureteral reflux in children. JUrol, 184(3), 1134-1144.
- Piepsz, A. (2002). Radionuclide studies in paediatricnephro-urology. Eur J Radiol, 43(2), 146-153.
- Capone, V.,Taroni, F., Pavesi, M. A., Castellani, M., Consonni, D., Berrettini, A., ... &Montini, G. (2019). Voiding cystourethrography and 99MTC-MAG3 renalscintigraphy in pediatric vesicoureteral reflux: what is the role of indirectcystography?. J Pediatr Urol, 15(5), 514-e1.
- Lee, R., Thomas, K. E., Connolly, B. L., Falkiner, M., & Gordon, C. L. (2009). Effective doşe estimation for pediatric voiding cystourethrography using an anthropomorphic phantom set and metal oxidesemic onductorfield-effect transistor (MOSFET) technology. Pediatr Radiol, 39, 608-615.
- Darge, K.,&Riedmiller, H. (2004). Currentstatus of vesicoureteralreflux diagnosis. World J Urol, 22(2), 88-95.
- Gülaldı, N. C., Aksoy, T., Aydın, F., Gedik, G. K., Günay, E. C., Kara, P. Ö., et all. (2015). TNTD, çocuklarda dinamik böbrek sintigrafisi uygulama kılavuzu 2.0. NuclMed Semin, 1, 15-18.
- Taylor, A. T. (2014). Radionuclides in nephrourology, Part 2: pit falls and diagnostic applications. J NuclMed, 55(5), 786-798.
- Yapar, A. F., Aydin, M., Reyhan, M., Yapar, Z., &Yologlu, N. A. (2004). Assessment of theoptimal time intervaland background region of interest in themeasurement of differentialrenalfunction in Tc-99m-EC renography. AnnNuclMed, 18, 419-425.
- Johnin, K.,Kobayashi, K., Tsuru, T., Yoshida, T., Kageyama, S., &Kawauchi, A. (2019). Pediatric voiding cystourethrography: An essential examination for urologists but a terrible experience for children. Int J Urol, 26(2), 160-171.
- Polito, C.,Rambaldi, P. F., La Manna, A., Mansi, L., &DiToro, R. (2000). Enhanced detection of vesico ureteric reflux with is otopic cystography. Pediatr Nephrol 14, 827-830.
- Sükan, A.,Bayazit, A. K., Kibar, M., Noyan, A., Soyupak, S., Yapar, Z., et all. (2003). Comparison of direct radio nuclide cystography and voiding direct cystography in the detection of vesicoureteral reflux. Ann Nucl Med, 17, 549-553.
- Saraga, M.,Staničić, A., &Marković, V. (1996). The role of direct radionuclide cystography in evaluation of vesicoureteralreflux. Scand J UrolNephrol, 30(5), 367-371.
- Unver, T., Alpay, H., Biyikli, N. K., &Ones, T. (2006). Comparison of direct radio nuclide cystography and voiding cystourethrography in detectingvesicoureteralreflux. Pediatr Int, 48(3), 287-291.
- Gordon, I.,Peters, A. M., & Morony, S. (1990). Indirect radionuclide cystography: a sensitive technique for the detection of vesico-ureteralreflux. Pediatr Nephrol, 4, 604-606.
- Christodoulos Likartsis, M. D.,Nikoleta Printza, M. D., &Notopoulos, A. (2020). Radio nuclide techniques for the detection of vesicoureteral reflux and their clinical significance. Hell J Nucl Med, 23(2), 180-187.
- Hinman, F., Miller, E. R., Hutch, J. A., Gainey, M. D., Con, C. E., Goodfriend, R. B., et all. (1962). Low pressure reflux: relation of vesicoureteral reflux to intravesical pressure. J Urol, 88(6), 758-765.