Super‐mini percutaneous nephrolithotomy (<scp>SMP</scp>): a new concept in technique and instrumentation

Zeng, Guohua; Wan, Shouhong; Zhao, Zhijian; Zhu, Jianguo; Tuerxun, Aierken; Song, Chao; Zhong, Liang; Liu, Ming; Xu, Kecheng; Li, Hu‐Lin; Jiang, Ziying; Khadgi, Sanjay; Pal, Shashi Kiran; Liu, Jianjun; Zhang, Guoxi; Liu, Yongda; Wu, Wenqi; Chen, Wenzhong; Sarıca, Kemal

doi:10.1111/bju.13242

Cited by 104 publications

(76 citation statements)

References 11 publications

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“…UMP may not require percutaneous nephrostomy (i.e., tubeless). The concept of super-minipercutaneous nephrolithotomy using 7 F nephroscope and a modified 10-14 F access sheath with suctionevacuation function is similar to UMP [27]. …”

Section: Ultra-minipercutaneous Nephrolithotomy (S 11-14 F)mentioning

confidence: 99%

“…Active washout could be used in several ways: by transportation of fragments within continuous irrigation backflow through access sheath alongside the scope; by filling of collecting system with high pressure and quickly remove the scope resulting in immediate inversion of irrigation flow and pressure with spillage-like removal of stones via the access sheath [27]; by sweeping fragments down the ureter; or by irrigation with a syringe via an additional channel of access sheath [26].…”

Section: Hydrodynamic Background Of Percutaneous Nephrolithotomymentioning

confidence: 99%

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New technology in ureteroscopy and percutaneous nephrolithotomy

Rassweiler

Klein

2016

Current Opinion in Urology

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Section: Ultra-minipercutaneous Nephrolithotomy (S 11-14 F)mentioning

confidence: 99%

Section: Hydrodynamic Background Of Percutaneous Nephrolithotomymentioning

confidence: 99%

New technology in ureteroscopy and percutaneous nephrolithotomy

Rassweiler

Klein

2016

Current Opinion in Urology

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“…The key feature of the irrigation‐suction sheath is that it allows inflow and outflow respectively (the inflow is through the space between the two layers of the sheath, the outflow is through the central lumen of the sheath). This is completely different to the first‐generation SMP or traditional mini‐PCNL systems, wherein the inflow and outflow take place in the same lumen of the sheath. In the first‐generation SMP or traditional mini‐PCNL systems, the inflow can partially offset the effect of outflow and push the stone fragments back in to the collecting system, which can lead to migration of the stone and lengthening of the operation time.…”

Section: Discussionmentioning

confidence: 94%

The new generation super‐mini percutaneous nephrolithotomy (SMP) system: a step‐by‐step guide

et al. 2017

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ObjectiveTo present our novel miniaturised endoscopic system and describe a step-by-step guide for successful implementation of the super-mini percutaneous nephrolithotomy (SMP). Patients and MethodsThe new-generation SMP endoscopic system consists of (i) a 40 000-pixel super-mini nephroscope with an 8.0-F outer diameter and 7.5-F inner diameter dismountable sheath, and (ii) a newly designed irrigation-suction sheath available in either 12 F or 14 F. The irrigation-suction sheath is a twolayered metal structure. The key feature of the irrigationsuction sheath is to allow irrigation and suction respectively (the inflow through the space between the two layers of the sheath, the outflow through the central lumen of the sheath). This property improves irrigation and stone clearance despite reduced instrument dimension. In all, 59 patients with renal stones underwent new-generation SMP between April 2016 and December 2016. The percutaneous tract dilatation was carried out to 14 F. Lithotripsy was performed using either holmium laser or a pneumatic lithotripter. Stone fragments were sucked out by vacuum suctioning through the sheath. A nephrostomy tube or JJ stent was placed only if clinically indicated. Low-dose computed tomography was performed to assess the stone-free status on the morning after the procedure. ResultsThe mean stone burden was 2.4 cm. Of the 59 patients, nine had diabetes and five had hypertension. SMP was completed successfully in all patients with a mean operation duration of 32.9 min and a mean haemoglobin decrease of 13 g/L. The stonefree rate was 91.5%. Complications occurred in 5.1% of the patients, all of them were Clavien-Dindo Grade I (minor fever managed by antipyretic therapy), and no transfusions were needed. ConclusionThe new-generation SMP system is safe, feasible, and effective for managing renal calculi of <3 cm, with the advantages of a small percutaneous tract, less blood loss, high efficacy in stone clearance, improved visual field, short operation duration, and ease of operating.

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“…The large gap brings many advantages, such as sufficient drainage which can reduce intrapelvic pressure effectively, great vortex effects which can accelerate stone extraction and decreased fraction between the lens barrel and the stone which can reduce the damage of lens barrel. iii) We recommend upgrading the PolyScope by adding a ‘handle’ just like the one used in SMP (27), consisting of a straight and an oblique bifurcated tube. The straight tube can be contiguous with the access sheath and has a receptacle for a silicone or rubber cap at the proximal end.…”

Section: Discussionmentioning

confidence: 99%

Flexible ureteroscopic holmium laser lithotripsy with PolyScope for senile patients with renal calculi

Ding

Shi

et al. 2018

Exp Ther Med

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The present study reported the clinical experience of using a PolyScope with holmium laser lithotripter in managing renal calculi in senile patients. Between December 2013 and December 2016, 157 senile patients (69.1±6.1 years old) were treated with PolyScope holmium laser lithotripsy for renal calculi at Xin Hua Hospital (Shanghai, China). The mean stone digitized surface area was 154.2±57.7 mm2 (range, 55.8–478.3 mm2). A thorough medical history investigation, and laboratory and radiological examination were followed by proper preoperative management. The PolyScope was then passed into the renal cavities following the position of the ureteral access sheath, with laser energy maintained at 1.0–2.0 J, frequency 10–15 Hz. The demographical and operative information of senile patients were compared with that of the 332 non-senile patients operated at the same period time. The average operative time was 54.6±13.2 min (range, 37–124 min). No major complications, including ureteral perforation or sepsis were encountered. The single session stone-free rate (SFR) was 81.5% and the overall SFR was 89.2%, similar to that of the non-senile group. PolyScope combined with holmium laser lithotripter is safe and effective in managing renal calculi in senile patients compared with non-senile patients, with considerately high SFRs and low complication rates.

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Super‐mini percutaneous nephrolithotomy (SMP): a new concept in technique and instrumentation

Cited by 104 publications

References 11 publications

New technology in ureteroscopy and percutaneous nephrolithotomy

New technology in ureteroscopy and percutaneous nephrolithotomy

The new generation super‐mini percutaneous nephrolithotomy (SMP) system: a step‐by‐step guide

Flexible ureteroscopic holmium laser lithotripsy with PolyScope for senile patients with renal calculi

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