ABSTRACT
Although Double-J stents have become very common in the urological practice and are effectively used for various reasons, several complications related to it, such as hematuria, infection, irritative symptoms, pain, perforation, encrustation, and migration, have been observed. The present study reports five case reports of stent encrustation due to forgotten stents.
Introduction
While Double-J (DJ) stent has become an essential tool in the modern urological practice, there has been a significant increase in the number of complications and side effects such as urinary tract infection, hematuria, irritative voiding symptoms, and encrustation related to ureteral stents with the increasing use of it in urology clinics. One of the most prominent of these complications is stent encrustations due to forgotten ureteral stents. Urinary obstruction due to stent encrustations can typically lead to problems such as hydronephrosis, loss of renal function, and urosepsis (1,2). Numerous methods including some minimally invasive procedures such as ureterorenoscopic lithotripsy, percutaneous nephrolithotomy, and open surgical methods have been used in the literature for the treatment of stent encrustations due to forgotten DJ stents (3,4). This study presents five cases with stent encrustation due to forgotten DJ stents and the removal of these stents with holmium laser and percutaneous intervention.
Case Presentation
Case 1
A 28-year-old male patient with dysuria was admitted to our clinic in November 2019. The anamnesis of the patient revealed that he was operated in 2014 due to an external left ureteric stone. A DJ stent was implanted, and the patient did not come to postoperative controls. A kidney, ureter, and bladder (KUB) radiograph showed a DJ stent with encrustation at both ends, one end extending from the kidney to the iliac cross level and the other end in the bladder (Figure 1). The patient underwent one session of cystolithotripsy and one session of percutaneous nephrolithotomy one month later.
Case 2
A 49-year-old male patient with hematuria was admitted to our clinic in May 2019. The anamnesis revealed that the patient was operated in 2016 due to right kidney stone in an external center and did not come to the controls. A KUB radiograph showed an encrusted DJ stent fragment extending from the kidney to proximal ureter with its distal part in the bladder. Of note, the cystolithotripsy and ureterorenoscopy were both performed in the same session.
Case 3
A 53-year-old male patient with no active complaints was referred to our clinic after a visit to another outpatient clinic due to mental retardation in February 2018, during which a forgotten right DJ stent was found in the patient. The anamnesis of the patient revealed that he had undergone ureterolithotomy due to proximal ureteral stone in 2016 and did not come to controls. An abdominopelvic CT showed a DJ stent extending from the kidney to the bladder with an encrusted proximal end. The proximal part was cleared of encrustations by ureterorenoscopic holmium laser lithotripsy.
Case 4
A 47-year-old male patient was admitted to our clinic with the complaint of a foreign body coming out from urethra during urination in September 2019. The medical history of the patient revealed an operation performed in an external center due to left ureteral stone in 2012. A KUB radiograph revealed a spontaneous severed DJ stent extending from the left kidney to the distal part of the ureter with its distal part in the bladder (Figure 2). A two-stage operation was planned, and the patient underwent one session of cystolithotripsy followed by a session of left percutaneous nephrolithotomy one month later.
Case 5
A 54-year-old male patient with hematuria was admitted to our clinic in August 2017. The anamnesis of the patient revealed that he was operated due to right kidney stone in 2013 and did not come to the controls. A KUB radiograph showed a spontaneous ruptured DJ stent with proximal part in the right kidney and distal part in the bladder. The patient underwent one session of cystolithotripsy and one session of right percutaneous nephrolithotomy one month later. Informed consent was obtained from all the patients before the operations.
Discussion
DJ stents are widely used in urology to provide urine flow between the kidney and bladder in various operations such as renal stone surgery, retroperitoneal fibrosis, genitourinary system injuries, renal transplantation, and reconstructive surgical procedures (5,6).
Stents are generally made using polyurethane, polyethylene, and silicone materials. While stents made of silicone can be kept in the body for longer periods, stents made of polyurethane or polyethylene should be replaced every eight weeks (7). Moreover, DJ stenting has late complications such as hydronephrosis, stent migration, encrustation, and fragmentation (8,9), and one of the most important in terms of its results is stent encrustation that may develop due to ureteral stents forgotten in the body for long periods of time. In addition, life-threatening complications such as loss of renal function and urosepsis may also develop as a result of urinary obstruction due to stent encrustations (2). Encrustations developing in DJ stents after being forgotten or long-term applications may cause problems during stent removal. Treatment modalities such as percutaneous nephrolithotomy, ureterorenoscopic pneumatic lithotripsy, and laser lithotripsy can be used for this purpose (9).
To conclude, we suggest that while selecting the appropriate treatment modality, the encrustation load around the stent, its location, and surgical equipment should be considered and possible options should be discussed with the patient. Patients treated with ureteral stents should be informed in detail about the stent, and the ureteral stent should be removed as soon as possible.