泌尿系统结石的治疗:结石病专家的最新技术和未来展望。

IF 1.4 Q3 UROLOGY & NEPHROLOGY Archivio Italiano di Urologia e Andrologia Pub Date : 2024-06-27 DOI:10.4081/aiua.2024.12703
Athanasios Papatsoris, Alberto Budia Alba, Juan Antonio Galán Llopis, Murtadha Al Musafer, Mohammed Alameedee, Hammad Ather, Juan Pablo Caballero-Romeu, Antònia Costa-Bauzá, Athanasios Dellis, Mohamed El Howairis, Giovanni Gambaro, Bogdan Geavlete, Adam Halinski, Bernhard Hess, Syed Jaffry, Dirk Kok, Hichem Kouicem, Luis Llanes, Juan M Lopez Martinez, Elenko Popov, Allen Rodgers, Federico Soria, Kyriaki Stamatelou, Alberto Trinchieri, Christian Tuerk
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Options of treatment: The surgical treatment modalities of renal and ureteral stones are well defined by the guidelines of international societies, although for some index cases more alternative options are possible. For 1.5 cm renal stones, both m-PCNL and RIRS have proven to be valid treatment alternatives with comparable stone-free rates. The m-PCNL has proven to be more cost effective and requires a shorter operative time, while the RIRS has demonstrated lower morbidity in terms of blood loss and shorter recovery times. SWL has proven to be less effective at least for lower calyceal stones but has the highest safety profile. For a 6mm obstructing stone of the pelviureteric junction (PUJ) stone, SWL should be the first choice for a stone less than 1 cm, due to less invasiveness and lower risk of complications although it has a lower stone free-rate. RIRS has advantages in certain conditions such as anticoagulant treatment, obesity, or body deformity. Technical issues of the surgical procedures for stone removal: In patients receiving antithrombotic therapy, SWL, PCN and open surgery are at elevated risk of hemorrhage or perinephric hematoma. URS, is associated with less morbidity in these cases. An individualized combined evaluation of risks of bleeding and thromboembolism should determine the perioperative thromboprophylactic strategy. Pre-interventional urine culture and antibiotic therapy are mandatory although UTI treatment is becoming more challenging due to increasing resistance to routinely applied antibiotics. The use of an intrarenal urine culture and stone culture is recommended to adapt antibiotic therapy in case of postoperative infectious complications. Measurements of temperature and pressure during RIRS are vital for ensuring patient safety and optimizing surgical outcomes although techniques of measurements and methods for data analysis are still to be refined. Ureteral stents were improved by the development of new biomaterials, new coatings, and new stent designs. Topics of current research are the development of drug eluting and bioresorbable stents. Complications of endoscopic treatment: PCNL is considered the most invasive surgical option. Fever and sepsis were observed in 11 and 0.5% and need for transfusion and embolization for bleeding in 7 and 0.4%. Major complications, as colonic, splenic, liver, gall bladder and bowel injuries are quite rare but are associated with significant morbidity. Ureteroscopy causes less complications, although some of them can be severe. They depend on high pressure in the urinary tract (sepsis or renal bleeding) or application of excessive force to the urinary tract (ureteral avulsion or stricture). Diagnostic work up:  Genetic testing consents the diagnosis of monogenetic conditions causing stones. It should be carried out in children and in selected adults. In adults, monogenetic diseases can be diagnosed by systematic genetic testing in no more than 4%, when cystinuria, APRT deficiency, and xanthinuria are excluded. A reliable stone analysis by infrared spectroscopy or X-ray diffraction is mandatory and should be associated to examination of the stone under a stereomicroscope. The analysis of digital images of stones by deep convolutional neural networks in dry laboratory or during endoscopic examination could allow the classification of stones based on their color and texture. Scanning electron microscopy (SEM) in association with energy dispersive spectrometry (EDS) is another fundamental research tool for the study of kidney stones. The combination of metagenomic analysis using Next Generation Sequencing (NGS) techniques and the enhanced quantitative urine culture (EQUC) protocol can be used to evaluate the urobiome of renal stone formers. Twenty-four hour urine analysis has a place during patient evaluation together with repeated measurements of urinary pH with a digital pH meter. Urinary supersaturation is the most comprehensive physicochemical risk factor employed in urolithiasis research. Urinary macromolecules can act as both promoters or inhibitors of stone formation depending on the chemical composition of urine in which they are operating. At the moment, there are no clinical applications of macromolecules in stone management or prophylaxis. Patients should be evaluated for the association with systemic pathologies.</p><p><strong>Prophylaxis: </strong>Personalized medicine and public health interventions are complementary to prevent stone recurrence. Personalized medicine addresses a small part of stone patients with a high risk of recurrence and systemic complications requiring specific dietary and pharmacological treatment to prevent stone recurrence and complications of associated systemic diseases. 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Technical issues of the surgical procedures for stone removal: In patients receiving antithrombotic therapy, SWL, PCN and open surgery are at elevated risk of hemorrhage or perinephric hematoma. URS, is associated with less morbidity in these cases. An individualized combined evaluation of risks of bleeding and thromboembolism should determine the perioperative thromboprophylactic strategy. Pre-interventional urine culture and antibiotic therapy are mandatory although UTI treatment is becoming more challenging due to increasing resistance to routinely applied antibiotics. The use of an intrarenal urine culture and stone culture is recommended to adapt antibiotic therapy in case of postoperative infectious complications. Measurements of temperature and pressure during RIRS are vital for ensuring patient safety and optimizing surgical outcomes although techniques of measurements and methods for data analysis are still to be refined. 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引用次数: 0

摘要

目的:介绍 2024 年 1 月在巴伦西亚举行的结石病专家大会期间,由全球公认的尿路结石病专家组成的专家小组在尿路结石治疗方面的最新进展。治疗方案:肾结石和输尿管结石的手术治疗方式已在国际学会的指南中明确规定,但对于某些指标性病例,还可以有更多的替代选择。对于 1.5 厘米的肾结石,m-PCNL 和 RIRS 已被证明是有效的替代治疗方法,无石率相当。m-PCNL 被证明更具成本效益,所需手术时间更短,而 RIRS 在失血量和恢复时间方面的发病率更低。事实证明,至少对于下腔结石而言,SWL 的效果较差,但其安全性最高。对于 6 毫米的肾盂输尿管交界处(PUJ)梗阻性结石,如果结石小于 1 厘米,SWL 应是首选,因为其侵入性较小,并发症风险较低,但结石游离率较低。RIRS 在某些情况下具有优势,如抗凝剂治疗、肥胖或身体畸形。手术取石的技术问题:在接受抗血栓治疗的患者中,SWL、PCN 和开放手术发生出血或肾周血肿的风险较高。在这些情况下,尿路造影术的发病率较低。对出血和血栓栓塞风险的个体化综合评估应决定围手术期的血栓预防策略。介入前尿液培养和抗生素治疗是必须的,但由于对常规抗生素的耐药性不断增加,UTI 治疗变得更具挑战性。建议使用肾内尿培养和结石培养,以便在术后出现感染并发症时调整抗生素治疗。尽管测量技术和数据分析方法仍有待完善,但 RIRS 期间的温度和压力测量对于确保患者安全和优化手术效果至关重要。通过开发新的生物材料、新的涂层和新的支架设计,输尿管支架得到了改进。目前的研究课题是药物洗脱支架和生物可吸收支架的开发。内窥镜治疗的并发症:PCNL 被认为是创伤最大的手术方案。分别有 11% 和 0.5% 的患者出现发热和败血症,分别有 7% 和 0.4% 的患者因出血而需要输血和栓塞。结肠、脾脏、肝脏、胆囊和肠道损伤等重大并发症非常罕见,但发病率很高。输尿管镜检查引起的并发症较少,但有些并发症可能很严重。这些并发症取决于泌尿道压力过高(败血症或肾出血)或泌尿道受力过大(输尿管撕裂或狭窄)。诊断工作: 基因检测有助于诊断导致结石的单基因疾病。应在儿童和选定的成年人中进行基因检测。在成人中,如果排除胱氨酸尿症、APRT 缺乏症和黄嘌呤尿症,通过系统的基因检测可以诊断出的单基因疾病不超过 4%。必须通过红外光谱或 X 射线衍射对结石进行可靠的分析,并在立体显微镜下对结石进行检查。在干燥实验室或内窥镜检查中,通过深度卷积神经网络对结石的数字图像进行分析,可以根据结石的颜色和质地对其进行分类。扫描电子显微镜(SEM)与能量色散光谱仪(EDS)的结合是研究肾结石的另一种基本研究工具。利用下一代测序(NGS)技术进行的元基因组分析与增强型尿液定量培养(EQUC)方案相结合,可用于评估肾结石患者的尿液微生物组。在对患者进行评估时,应进行 24 小时尿液分析,并使用数字 pH 计反复测量尿液 pH 值。尿液过饱和度是尿路结石研究中最全面的理化风险因素。尿液中的大分子物质既可以促进结石形成,也可以抑制结石形成,这取决于它们在尿液中的化学成分。目前,临床上还没有应用大分子来治疗或预防结石。应评估患者是否伴有全身性病变:在预防结石复发方面,个性化医疗和公共卫生干预是相辅相成的。个性化医疗针对的是一小部分具有高复发风险和全身并发症的结石患者,他们需要特定的饮食和药物治疗来预防结石复发和相关全身疾病的并发症。 更多的人在一生中会形成一颗或几颗结石,他们应该通过改变饮食和生活方式来治疗结石。为了降低结石在普通人群中的发病率,通过公共卫生干预进行初级预防是可取的。有复发 "高风险 "的肾结石患者需要早期诊断,以便开始具体的治疗。通过结石分析,可以识别出大多数形成非钙结石的 "高危 "患者:感染结石(石灰华)、尿酸和尿酸盐、胱氨酸和其他罕见结石(二羟腺嘌呤、黄嘌呤)。钙结石的 "高危 "患者需要通过临床和实验室评估进行更困难的诊断。尤其应积极寻找胱氨酸尿症和原发性高草酸尿症患者:人工智能在以下方面的应用前景广阔:通过 CT 成像自动识别输尿管结石、通过人口统计学和临床参数预测结石成分和 24 小时泌尿系统危险因素、通过评估内窥镜图像评估结石成分以及预测结石治疗效果。泌尿科医生、肾病学家和科学家在肾结石基础研究中的协同作用将提高研究的深度和广度,从而更全面地了解肾结石的形成。
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Management of urinary stones: state of the art and future perspectives by experts in stone disease.

Aim: To present state of the art on the management of urinary stones from a panel of globally recognized urolithiasis experts who met during the Experts in Stone Disease Congress in Valencia in January 2024. Options of treatment: The surgical treatment modalities of renal and ureteral stones are well defined by the guidelines of international societies, although for some index cases more alternative options are possible. For 1.5 cm renal stones, both m-PCNL and RIRS have proven to be valid treatment alternatives with comparable stone-free rates. The m-PCNL has proven to be more cost effective and requires a shorter operative time, while the RIRS has demonstrated lower morbidity in terms of blood loss and shorter recovery times. SWL has proven to be less effective at least for lower calyceal stones but has the highest safety profile. For a 6mm obstructing stone of the pelviureteric junction (PUJ) stone, SWL should be the first choice for a stone less than 1 cm, due to less invasiveness and lower risk of complications although it has a lower stone free-rate. RIRS has advantages in certain conditions such as anticoagulant treatment, obesity, or body deformity. Technical issues of the surgical procedures for stone removal: In patients receiving antithrombotic therapy, SWL, PCN and open surgery are at elevated risk of hemorrhage or perinephric hematoma. URS, is associated with less morbidity in these cases. An individualized combined evaluation of risks of bleeding and thromboembolism should determine the perioperative thromboprophylactic strategy. Pre-interventional urine culture and antibiotic therapy are mandatory although UTI treatment is becoming more challenging due to increasing resistance to routinely applied antibiotics. The use of an intrarenal urine culture and stone culture is recommended to adapt antibiotic therapy in case of postoperative infectious complications. Measurements of temperature and pressure during RIRS are vital for ensuring patient safety and optimizing surgical outcomes although techniques of measurements and methods for data analysis are still to be refined. Ureteral stents were improved by the development of new biomaterials, new coatings, and new stent designs. Topics of current research are the development of drug eluting and bioresorbable stents. Complications of endoscopic treatment: PCNL is considered the most invasive surgical option. Fever and sepsis were observed in 11 and 0.5% and need for transfusion and embolization for bleeding in 7 and 0.4%. Major complications, as colonic, splenic, liver, gall bladder and bowel injuries are quite rare but are associated with significant morbidity. Ureteroscopy causes less complications, although some of them can be severe. They depend on high pressure in the urinary tract (sepsis or renal bleeding) or application of excessive force to the urinary tract (ureteral avulsion or stricture). Diagnostic work up:  Genetic testing consents the diagnosis of monogenetic conditions causing stones. It should be carried out in children and in selected adults. In adults, monogenetic diseases can be diagnosed by systematic genetic testing in no more than 4%, when cystinuria, APRT deficiency, and xanthinuria are excluded. A reliable stone analysis by infrared spectroscopy or X-ray diffraction is mandatory and should be associated to examination of the stone under a stereomicroscope. The analysis of digital images of stones by deep convolutional neural networks in dry laboratory or during endoscopic examination could allow the classification of stones based on their color and texture. Scanning electron microscopy (SEM) in association with energy dispersive spectrometry (EDS) is another fundamental research tool for the study of kidney stones. The combination of metagenomic analysis using Next Generation Sequencing (NGS) techniques and the enhanced quantitative urine culture (EQUC) protocol can be used to evaluate the urobiome of renal stone formers. Twenty-four hour urine analysis has a place during patient evaluation together with repeated measurements of urinary pH with a digital pH meter. Urinary supersaturation is the most comprehensive physicochemical risk factor employed in urolithiasis research. Urinary macromolecules can act as both promoters or inhibitors of stone formation depending on the chemical composition of urine in which they are operating. At the moment, there are no clinical applications of macromolecules in stone management or prophylaxis. Patients should be evaluated for the association with systemic pathologies.

Prophylaxis: Personalized medicine and public health interventions are complementary to prevent stone recurrence. Personalized medicine addresses a small part of stone patients with a high risk of recurrence and systemic complications requiring specific dietary and pharmacological treatment to prevent stone recurrence and complications of associated systemic diseases. The more numerous subjects who form one or a few stones during their entire lifespan should be treated by modifications of diet and lifestyle. Primary prevention by public health interventions is advisable to reduce prevalence of stones in the general population. Renal stone formers at "high-risk" for recurrence need early diagnosis to start specific treatment. Stone analysis allows the identification of most "high-risk" patients forming non-calcium stones: infection stones (struvite), uric acid and urates, cystine and other rare stones (dihydroxyadenine, xanthine). Patients at "high-risk" forming calcium stones require a more difficult diagnosis by clinical and laboratory evaluation. Particularly, patients with cystinuria and primary hyperoxaluria should be actively searched.

Future research: Application of Artificial Intelligence are promising for automated identification of ureteral stones on CT imaging, prediction of stone composition and 24-hour urinary risk factors by demographics and clinical parameters, assessment of stone composition by evaluation of endoscopic images and prediction of outcomes of stone treatments. The synergy between urologists, nephrologists, and scientists in basic kidney stone research will enhance the depth and breadth of investigations, leading to a more comprehensive understanding of kidney stone formation.

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CiteScore
2.10
自引率
35.70%
发文量
72
审稿时长
10 weeks
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