A Critical Appraisal on Percutaneous Nephrolithotripsy

Yi-Yang LiuTaiwan Speaker Complex Renal Stone: PCNL or RIRS or Combination?Mini-percutaneous nephrolithotomy (mini-PCNL) provides stone-free rate (SFR) 85 to 95 % in children with complex burdens, and recent systematic reviews report overall complications < 7 % and transfusion requirements ≈3 % when tracts ≤18 Fr are used. Its drawbacks are the need for percutaneous access, risk of bleeding, and potential parenchymal scarring, especially when multiple tracts are required. Retrograde intrarenal surgery (RIRS) avoids renal puncture and shows the lowest incidence of high-grade complications (<1 %); contemporary series in preschool children describe initial SFRs of 60–78 %, with secondary procedures needed in up to one-third of cases because of narrow, tortuous ureters. Pre-stenting, staged dilation and longer operative time can offset its minimally-invasive appeal for stones ≥2 cm. Endoscopic combined intrarenal surgery (ECIRS) merges an antegrade mini-PCNL channel with simultaneous flexible ureteroscopy. The first multicenter pediatric series and a 2024 comparative study confirm SFRs of 75–92 %, shorter hospital stay and lower fluoroscopy or transfusion risk than standalone PCNL despite treating more complex stones. Its limitations are the need for two skilled teams, specialized equipment and the Galdakao-modified supine Valdivia position, which lengthen setup and raise costs. In summary, mini-PCNL remains the most efficient monotherapy for large or staghorn calculi; RIRS is ideal when bleeding risk or unfavorable percutaneous windows predominate; ECIRS offers the best compromise between clearance and morbidity where resources and expertise allow. Individualized, anatomy-based algorithms and further pediatric RCTs are still required. ECIRSIn this session, we will demonstrate the technique about Totally-X-ray free ultrasound guided endoscopic combind intrarenal surgery in Galdakao modified supine Valdivia position.A Critical Appraisal on Percutaneous NephrolithotripsyPercutaneous nephrolithotripsy (PCNL) has evolved from a uniform prone, fluoroscopy-guided, large-tract technique into a precision endourological platform that emphasizes patient-tailored positioning, radiation-free puncture, miniaturized tracts, energy-efficient lasers and nascent robotic–AI augmentation. Contemporary evidence affirms that stone-free rates now approach a plateau, making safety metrics—bleeding control, infection prevention and intrarenal pressure modulation—the key differentiators among modern approaches. Miniaturized optics, suction-regulated sheaths and thulium-fiber or dual-wavelength laser consoles have collectively reduced hemoglobin loss and postoperative sepsis while preserving clearance efficacy. Future success will hinge on harmonizing technological innovation with rigorous evidence so that every incremental advance translates into measurable gains for both efficacy and safety in stone surgery.Echo guide Puncture in Supine PCNL: Tips and Tricks for an Efficient and Safe ProcedureMastery of ultrasound-guided supine PCNL begins with precise anatomical orientation. Color-Doppler mapping pinpoints the target calyx, which is punctured transpapillary with an echogenic-tip needle after artificial hydronephrosis is produced by retrograde ureteroscopic irrigation. A hydrophilic, floppy-tip yet stiff-shaft guidewire is then advanced through the needle, allowing atraumatic navigation of the collecting system under ureteroscopic visualization. Balloon dilation—used in place of sequential dilators—prevents guidewire dislodgement. When necessary, a through-and-through guidewire from flank skin to urethral meatus may be created to secure renal access. Finally, antegrade nephroscopy along this coaxial tract confirms unobstructed entry, provides panoramic inspection, and optimizes lithotripsy efficiency—all without fluoroscopy. Collectively, these steps deliver reliable access, eliminate radiation, and streamline stone clearance in a single, ergonomically favorable supine position.