The use of ultrasound imaging in minimally invasive percutaneous nephrolithotomy. Can we completely abandon fluoroscopy?


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Abstract

Aim. To determine the possibility of performing minimally invasive percutaneous nephrolithotomy (PCNL) under ultrasound guidance with the use of X-ray during the access tract formation. Materials and methods. The results of 102 mini-PСNL procedures, performed by a single surgeon during the period 2018-2019, were analyzed retrospectively. In the beginning, ureteral catheter Ch5 was put into an ipsilateral ureter. Further, a puncture of the collecting system was performed with an advancement of the guidewire. At the next stage, a dilation of tract was done using X-ray guidance for the safe formation of the working channel, followed by holmium lithotripsy. At the end a nephrostomy or JJ-stent was left. Results. The mean age of the patients was 53.13+12.9, while average BMI was 29.3+6.5. In total, there were 44.1% of women. The average stone size was 20.7+10.9 mm; 45.1% of stones were left-sided. Staghorn stones accounted for 15.7% of cases and hydronephrosis was found in 18.6% of patients. The time for creating renal access, dilation of the nephrostomy tract, total operative time and fluoroscopy time were: 19.6+13.1, 7.7+4.2, 107.7+49.9, 57.1+41.2 minutes, respectively. In the Group I there were 32 (31.4%) patients undergoing to PCNL under X-ray guidance, while in Group II (n=70, 68.6%) combined US+X-ray control was used. The patients age (52.2+12.6 vs 53.6+13.2, p<0.05) and the stone size (20.6+8.9 vs 20.7+10.4, p=0.30) were comparable in both groups. There were slightly shorter access time and the total operative time in group II compared with group I (20.6+12.3 vs 19.2+13.5, p=0.27; 108.1+43.3 vs 106.9+53.2, p=0.25 respectively). In total, hematocrit level decreased by 4.5% and blood transfusions was done in 3 patients. Postoperative complications developed in 9 cases in both groups (according to the Clavien-Dindo classification, all complications were grade I-II). The stone-free rate (SFR) was 87.2%, and a second-stage was required in 2 cases. Discussion. The use of ultrasound guidance improves visualization of the collecting system and contributes to the creation of an optimal renal access. It significantly reduces the radiation exposure to the patient and the operating team. We were able to puncture the collecting system in all cases. SFR after PCNL under ultrasound guidance was 88.6%, which is comparable to the results of conventional PCNL with X-ray navigation. Conclusion. PCNL can be performed effectively and safely under ultrasound guidance, which reduces the number of renal punctures and lowers the complication rate. However, this technique also has disadvantages, including longer puncture time in morbidly obese patients without hydronephrosis. With growing experience, the number of unsuccessful kidney punctures decreases, as well as operative time. The use of fluoroscopy during dilatation of the nephrostomy tract allows for preventing additional injuries of the collecting system.

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About the authors

M. M Kutluev

Clinical Hospital “Mother & Child”

Email: marrat@rambler.ru
Ph.D., urologist

R. I Safiullin

Clinical Hospital “Mother & Child” ; Bashkir State Medical University

Email: russafiullin@yandex.ru
MD, professor at the Department of Urology

References

  1. Попов С.В., Орлов И.Н., Асфандияров Ф.Р. и др. Мультимодальный подход к лечению коралловидного нефролитиаза в условиях современной клиники. Урология. 2020;3:133-136). Doi: https://dx.doi.org/10.18565/urology.2020.3.133-136
  2. Гулиев Б.Г., Стецик Е.О. Перкутанная нефролитотрипсия под ультразвуковым контролем. Урологические ведомости. 2015;5(1):97- 98
  3. Ganpule A.P., Vijayakumar M., Malpani A., Desai M.R. Percutaneous nephrolithotomy (PCNL) a critical review. Int. J. Surg. 2016; 36(Pt D):660-664. doi: 10.1016/j.ijsu.2016.11.028.
  4. Yang Y.H., Wen Y.C., Chen K.C., Chen C. Ultrasound-guided versus fluoroscopy-guided percutaneous nephrolithotomy: a systematic review and meta-analysis. World J. Urol. 2019;37(5):777-788. doi: 10.1007/s00345- 018-2443-z.
  5. Колсанов А.В., Мурушиди М.Ю., Королев Д.Г. Методы навигации доступа к почке при перкутанной нефролитолапаксии. Оперативная хирургия и клиническая анатомия Пироговский научный журнал). 2020; 4(3): 37-43). Doi: https://doi.org/10.17116/operhirurg2020403137
  6. Протощак В.В., Паронников В.В., Сиваков А.А., Лукинов К.А., Киселев А.О. Кривая обучения перкутанной нефролитотрипсии: какдостичь совершенства. Урология. 2020;5:28-32). doi: 10.18565/urology.2020.5.28-32.
  7. Iordache A., Baston C., Guler-Margaritis S.S. et al. Ultrasound for kidney access in percutaneous nephrolithotomy: a contemporary review. Med. Ultrason. 2018;20(4):508-514. doi: 10.11152/mu-1618
  8. Ng F.C., Yam W.L., Lim T.Y.B., Teo J.K., Ng K.K., Lim S.K. Ultrasound-guided percutaneous nephrolithotomy: Advantages and limitations. Investig. Clin. Urol. 2017;58(5):346-352. doi: 10.4111/icu.2017.58.5.346.
  9. El-Nahas A.R., Shokeir A.A., El-Assmy A.M. et al. Colonic perforation during percutaneous nephrolithotomy: study of risk factors. Urology. 2006; 67:937-941.
  10. Wong C., Leveillee R.J. Single upper-pole percutaneous access for treatment of > or = 5-cm complex branched staghorn calculi: is shockwave lithotripsy necessary. J. Endourol. 2002;16:477-481.
  11. Raza A., Moussa S., Smith G., Tolley D.A. Upper-pole puncture in percutaneous nephrolithotomy: a retrospective review of treatment safety and efficacy. BJU Int. 2008; 101:599-602.
  12. Osman M., Wendt-Nordahl G., Heger K., Michel M.S., Alken P., Knoll T. Percutaneous nephrolithotomy with ultrasonography-guided renal access: experience from over 300 cases. BJU Int. 2005; 96:875-878.
  13. Ding X., Hao Y., Jia Y., Hou Y., Wang C., Wang Y. 3-dimensional ultrasound-guided percutaneous nephrolithotomy: total free versus partial fluoroscopy. World J. Urol. 2020;38(9):2295-2300. doi: 10.1007/s00345- 019-03007-y
  14. Lojanapiwat B. The ideal puncture approach for PCNL: fluoroscopy, ultrasound or endoscopy? Indian J. Urol. 2013; 29:208-213.
  15. Sharma G.R., Maheshwari P.N., Sharma A.G., et al. Fluoroscopy guided percutaneous renal access in prone position. World J. Clin. Cases. 2015; 3:245-264.
  16. Каприн А.Д., Кочетов А.Г., Сидоров О.В., Костин А.А. и др. Сравнительный анализ перкутанной и ретроградной нефролитотрипсии крупных и коралловидных камней почек. Вопросы урологии и андрологии. 2013.2(3):62-66
  17. Hellawell G.O., Mutch S.J., Thevendran G., Wells E., Morgan R.J. Radiation exposure and the urologist: what are the risks? J. Urol. 2005;174:948-952.
  18. Basiri A., Ziaee S.A., Nasseh H. et al. Totally ultrasonography guided percutaneous nephrolithotomy in the flank position. J. Endourol 2008;22:1453-1457.
  19. Yan S., Xiang F., Yongsheng S. Percutaneous nephrolithotomy guided solely by ultrasonography: a 5-year study of >700 cases. BJU Int. 2013;112(7):965-971. doi: 10.1111/bju.12248.
  20. Basiri A., Ziaee A., Kianian H., Mehrabi S., Karami H., Moghaddam S. Ultrasonographic versus Fluoroscopic Access for Percutaneous Nephrolithotomy: a Randomized Clinical Trial. J. Endourol 2008;22:281- 284.
  21. Andonian S., Scoffone C.M., Louie M.K., et al. Does imaging modality used for percutaneous renal access make a difference? A matched case analysis. J. Endourol. 2013; 27:24-28.
  22. Shoma A.M., Eraky I., El-Kenawy M., El-Kappany HA. Percutaneous nephrolithotomy in the supine position: technical aspects and functional outcome compared with the prone technique. Urology. 2002;60:388-392.
  23. Измайлов А.А., Папоян А.О., Ахмадеев З.Р., Султанов И.М., Карунас Э.А. Эффективность и безопасность перкутанной нефролитотрипсии в лечении камней почек. Уральский медицинский журнал. 2018;164(9):65-68). doi: 10.25694/URMJ.2018.9.24.
  24. Кутлуев М.М., Сафиуллин Р.И., Мочалов К.С. Сроки рецидивирования после полного удаления конкрементов в разных отделах мочевой системы. Опыт пятилетнего наблюдения. Урология. 2018;1:20-24). Doi: https://dx.doi.org/10.18565/urology.2018.1.20-24
  25. Мартов А.Г., Андронов А.С., Дутов С.В., Степанов В.С., Джафарзаде М.Ф. Первый опыт чрескожной нефролитотрипсии на спине. Урология. 2012;2:61-67
  26. Wang Sh., Zhang X., Xiao B., Hu W. et al. Ultrasound-guided percutaneous nephrolithotomy for upper urinary tract calculi in patients with spinal deformity: a decade’s experience. BJU Int. 2019; 124( 1): 109-115. doi: 10.1111/bju.14601.

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