Urology Department, Sohag Faculty of Medicine, Sohag University, Sohag, Egypt.
Urology Department, Sohag Faculty of Medicine, Sohag University, Sohag, Egypt.
J Pediatr Urol. 2023 Oct;19(5):561.e1-561.e11. doi: 10.1016/j.jpurol.2023.06.017. Epub 2023 Jun 20.
The high recurrence rates in pediatric urolithiasis indicate the need for none invasive or a minimally invasive treatment such as SWL. Therefore, EAU, ESPU and AUA recommend SWL as a first line treatment for renal calculi ≤ 2, and RIRS or PCNL for renal calculi > 2 cm. SWL is superior to RIRS and PCNL as it is inexpensive, outpatient procedure, and it has a high SFR in well selected cases specially pediatrics. On the other hand, SWL therapy has a limited efficacy with a lower SFR, and high retreatment rate and/or additional interventions for treatment of larger and harder renal calculi.
We carried out this study to evaluate the efficacy and safety of SWL for treatment of renal stones > 2 cm to extend its indications for pediatric renal calculi.
Between January 2016 and April 2022, we reviewed the records of patients with renal calculi treated by SWL, mini-PCNL, RIRS and open surgery in our institution. Forty-nine eligible children aged 1-5 years old, presented with renal pelvic and/or calyceal calculi measuring 2-3.9 cm and underwent SWL therapy were picked up and participated in the study. The data of an additional eligible 79 children with the same age and had renal pelvic and/or calyceal calculi > 2 cm up to stag horn calculi and underwent mini-PCNL, RIRS and open renal surgery were also picked up and participated in the study. We retrieved the following preoperative data from the records of the eligible patients; age, gender, weight, length, radiological findings (stone size, side, site, number and radio-density), renal function tests, routine laboratory findings, and urine analysis. The outcomes data in the form of; operative time, fluoroscopy time, hospital stay, SFRs, retreatment rates and complication rates were also retrieved from the records of patients treated with SWL and other techniques. Also, we collected the SWL characteristics in terms of; position, number and frequency of shocks, voltage, time of the session and U/S monitoring to assess stone fragmentation. All SWL procedures were performed according to the institution's standards.
The mean age of patients treated with SWL was 3.23 ± 1.19 years old, the mean size of the treated calculi was 2.31 ± 0.49 and the mean length of the SSD was 8.2 ± 1.4 cm. All patients had NCCT scan and the mean radio-density of the treated calculi was 572 ± 169.08 HUs based on NCCT scans Table (1). Single- and two-session SFRs of SWL therapy were 75.5% (37/49 patients) and 93.9% (46/49 patients), respectively. The overall success rate was 95.9% (47/49 patients) after three-session of SWL. Complications experienced by 7 patients (14.3%) in the form of fever (4.1%), vomiting (4.1%), abdominal pain (4/1%), and hematuria (2%). All complications were managed in outpatient settings. Our results were obtained on the basis of preoperative NCCT scans for all patients and postoperative plain KUB films and real-time abdominal U/S. Furthermore, single-session SFRs for SWL, mini-PCNL, RIRS and open surgery were 75.5%, 82.1%, 73.7% and 90.6%, respectively. Two-session SFRs by the same technique were 93.9%, 92.8%, and 89.5% for SWL, mini-PCNL and RIRS, respectively. A lower overall complication rate and higher overall SFR were found with SWL therapy compared to other techniques, Fig. (1).
Being a non-invasive outpatient procedure with a low complication rate and good spontaneous passage of stone fragments is the main advantage of SWL. In this study, the overall SFR is 93.9% where 46 out of 49 patients were completely rendered stone free after three session of SWL with overall success rate 95.9%. Badawy et al. reported overall success rates of 83.4% for renal stones with a mean stone size of 12.5 ± 7.2 mm. In children with renal stones measuring 18.2 mm, Ramakrishnan et al. reported a 97% SFR in accordance with our results. The high overall success rate (95.9%) and SFR (93.9%) in our research were attributed to the regular use of ramping procedure, low shock wave rate, percussion diuretics inversion (PDI) approach and alpha blocker therapy in all participants and short SSD. The limitations of our study are small sample of patients and its retrospective nature.
The non-invasive nature and replicability of the SWL procedure, along with the high success and low complication rates, give us a new insight to consider its application for treating pediatric renal calculi > 2 cm over the other more invasive techniques. Short SSD, the use of ramping procedure, low shock wave rate, 2 min break, PDI approach and alpha blockers therapy help better success of SWL.
IV.
小儿尿石症的高复发率表明需要进行非侵入性或微创治疗,如体外冲击波碎石术(SWL)。因此,EAU、ESPU 和 AUA 建议将 SWL 作为肾铸型结石≤2cm 的一线治疗方法,对于肾铸型结石>2cm 推荐使用经皮肾镜取石术(PCNL)或输尿管软镜碎石术(RIRS)。SWL 优于 RIRS 和 PCNL,因为它价格低廉、可门诊治疗,并且在精心选择的病例中,特别是儿科患者中,碎石成功率(SFR)较高。另一方面,SWL 治疗的疗效有限,SFR 较低,对于较大和较硬的肾结石,其复发率和/或额外干预的治疗率较高。
我们开展本研究旨在评估 SWL 治疗>2cm 肾结石的疗效和安全性,以扩大其在小儿肾结石治疗中的适应证。
2016 年 1 月至 2022 年 4 月,我们回顾了在我院接受 SWL、mini-PCNL、RIRS 和开放性手术治疗的肾结石患者的记录。我们选取了 49 名年龄在 1-5 岁之间、肾盂和/或肾盏结石大小为 2-3.9cm 的患者接受 SWL 治疗,并参与了本研究。我们还选取了 79 名年龄相同、肾盂和/或肾盏结石大小>2cm 至鹿角形结石且接受 mini-PCNL、RIRS 和开放性肾手术治疗的患者,共纳入了 128 名患者。我们从符合条件的患者的病历中检索了以下术前数据:年龄、性别、体重、身高、影像学发现(结石大小、侧别、部位、数量和放射密度)、肾功能检查、常规实验室检查和尿液分析。SWL 和其他技术治疗患者的手术时间、透视时间、住院时间、SFR、复发率和并发症发生率等治疗结果数据也从患者病历中检索。我们还收集了 SWL 的碎石特征,包括:碎石位置、冲击波次数、电压、单次碎石时间和超声监测,以评估结石碎裂情况。所有 SWL 操作均根据机构标准进行。
SWL 治疗患者的平均年龄为 3.23±1.19 岁,治疗结石的平均大小为 2.31±0.49cm,SSD 的平均长度为 8.2±1.4cm。所有患者均行 NCCT 扫描,治疗结石的平均放射密度为 572±169.08 HUs(表 1)。SWL 治疗单次和两次碎石的 SFR 分别为 75.5%(47/49 例患者)和 93.9%(46/49 例患者)。三次 SWL 碎石后总成功率为 95.9%(47/49 例患者)。7 例患者(14.3%)出现并发症,表现为发热(4.1%)、呕吐(4.1%)、腹痛(4/1%)和血尿(2%)。所有并发症均在门诊处理。我们的结果是基于所有患者术前 NCCT 扫描和术后平片 KUB 及实时腹部超声检查。此外,SWL、mini-PCNL、RIRS 和开放性手术的单次碎石 SFR 分别为 75.5%、82.1%、73.7%和 90.6%。同一技术的两次碎石 SFR 分别为 93.9%、92.8%和 89.5%。SWL 治疗的总体并发症发生率较低,总体 SFR 较高,如图 1 所示。
SWL 作为一种非侵入性的门诊手术,具有较低的并发症发生率和良好的结石碎片自发排出率,是其主要优势。在本研究中,总 SFR 为 93.9%,49 例患者中有 46 例在三次 SWL 碎石后完全排净结石,总成功率为 95.9%。Badawy 等人报告称,肾铸型结石的总体成功率为 83.4%,平均结石大小为 12.5±7.2mm。在儿童肾结石大小为 18.2mm 的情况下,Ramakrishnan 等人报道 SFR 为 97%,与我们的结果一致。我们研究中的高总成功率(95.9%)和 SFR(93.9%)归因于所有患者常规使用斜坡程序、低冲击波率、敲击利尿剂反转(PDI)方法和α受体阻滞剂治疗,以及 SSD 较短。本研究的局限性在于患者样本量小且为回顾性研究。
SWL 操作的非侵入性和可重复性,以及高成功率和低并发症发生率,为我们提供了一种新的思路,即考虑将其应用于治疗>2cm 的小儿肾结石,而不是其他更具侵入性的技术。短 SSD、斜坡程序的使用、低冲击波率、2 分钟休息、PDI 方法和α受体阻滞剂治疗有助于提高 SWL 的成功率。
IV。
