Urology Annals

CASE REPORT
Year
: 2013  |  Volume : 5  |  Issue : 2  |  Page : 126--128

Transmesocolic robotic extended pyelolithotomy of a large gas-containing renal stone: Case report and review of the literature


Ted B Manny1, Julia S Manny1, Ashok K Hemal2,  
1 Department of Urology, Wake Forest University Baptist Medical Center, Medical Center Blvd, Winston-Salem, North Carolina 27157, USA
2 Department of Pathology, Wake Forest University Baptist Medical Center, Medical Center Blvd, Winston-Salem, North Carolina 27157, USA

Correspondence Address:
Ashok K Hemal
Department of Urology, Wake Forest University Baptist Medical Center, Medical Center Blvd, Winston-Salem, North Carolina 27157
USA

Abstract

We present the fifth case in the world literature of a gas-containing urinary stone. Our patient is a 31-year-old woman referred for left flank pain and gross hematuria who was noted on imaging to have a 6.5 cm left renal pelvis stone containing gas. Cultures revealed Escherichia coli from the urine and stone material. Chemistry revealed underlying gouty diathesis. The stone was removed using robotic extended pyelolithotomy. Overall, renal function remained unchanged while drainage improved on nucleotide renography. Review of the world literature suggests that gas-containing renal stones are invariably associated with emphysematous pyelonephritis commonly caused by E. coli and Klebsiella. Contributing factors to gas-containing stone formation include urinary stasis, metabolic mineral derangement and, in a minority of the cases, diabetes.



How to cite this article:
Manny TB, Manny JS, Hemal AK. Transmesocolic robotic extended pyelolithotomy of a large gas-containing renal stone: Case report and review of the literature.Urol Ann 2013;5:126-128


How to cite this URL:
Manny TB, Manny JS, Hemal AK. Transmesocolic robotic extended pyelolithotomy of a large gas-containing renal stone: Case report and review of the literature. Urol Ann [serial online] 2013 [cited 2021 Jul 27 ];5:126-128
Available from: https://www.urologyannals.com/text.asp?2013/5/2/126/110015


Full Text

 Introduction



Gas-containing urinary stones are a rare entity, and are associated with anaerobic fermenting organisms such as Escherichia coli and Klebsiella. [1],[2],[3],[4] We present the fifth such case in the world literature and the first treated with robotic pyelolithotomy.

 Case Report



A 31-year-old Mexican-American woman was referred for a large left renal stone found on initial work-up for flank pain and gross hematuria. She was non-diabetic and denied prior medical or surgical history. Exam was significant for mild left costovertebral angle tenderness. Urinalysis revealed positive nitrite and a pH of 5.0. Complete blood count was normal and the patient denied recent febrile illness. Urine culture was positive for E. coli resistant to trimethoprim-sulfamethoxasazole. Axial imaging showed gas in the collecting system and within several compartments of a 6.5 cm lamellated renal pelvis stone without radiographic evidence of acute infection [Figure 1]. Renogram demonstrated 20% left relative function and significant obstruction, with a T½ of 65 min. Serum chemistry showed no metabolic acidosis, hypercalcemia or hyperglycemia. The Cockcroft-Gault calculated creatinine clearance was 177 mL/min. Options including nephrectomy, percutaneous nephrostolithotomy (PCNL) and robotic extended pyelolithotomy were discussed with the patient. She strongly desired nephron-sparing surgery. Given the stone was large but confined to the renal pelvis, without significant branching, we felt that a robotic approach provided the most efficient means of removal.{Figure 1}

The patient was taken to the operative suite and placed in a left-side up 60-degree flank position. A Veress needle was used to obtain pneumoperitoneum and a 12 mm camera port, three 8 mm robotic ports and two 5-mm assistant ports were placed. A bulge corresponding to the left kidney was easily identified in the left mesocolon. A 4-cm incision was carried through the mesocolon parallel to the vascular arcades. The renal pelvis was exposed and a transverse pyelotomy was made directly onto the stone [Figure 2]. Robotic forceps were used to manipulate the stone into a laparoscopic specimen retrieval bag. The renal pelvis was irrigated and found to be free of residual fragments. Inspection of the uretero-pelvic junction showed no obvious crossing vessels, narrowed segments or kinking. A 6 French ×28 cm ureteral stent was then placed in an anterograde fashion into the urinary bladder and verified by reflux of urine through the proximal stent lumen. The pyelotomy was then closed in two layers with running 3-0 poligecaperone, followed by an interrupted imbricating layer. A closed suction drain was brought into the retroperitoneum via the lateral most robotic port. The mesocolon was re-approximated and the specimen was removed by extending the inferior-most port site. Total procedure time was 120 min, with 63 min of robotic console time. The Foley catheter was removed post-op day 1. Drain output remained minimal and it was removed post-op day 2 as the patient was discharged home. The ureteral stent was removed in the office cystoscopically 4 weeks after surgery.{Figure 2}

Grossly, the stone was hard and non-friable. Axial sectioning revealed several hollow compartments consistent with gas pockets on pre-op imaging [Figure 3]. Culture of stone material revealed E. coli, also resistant to trimethoprim-sulfamethoxasole. Compositional analysis showed the stone to be 100% calcium phosphate.{Figure 3}

At 12 months post-op, the patient was well and had a single episode of dysuria, which was culture negative. Renogram showed resolved left obstruction and stable relative function while calculated creatinine clearance was unchanged from pre-op. Plain abdominal radiograph and renal ultrasound were without urinary calculi.

 Discussion



The first case of a gas-containing stone was reported by Simpson et al. in 1998 in a 68-year-old non-diabetic man with a history of ipsilateral untreated uretero-pelvic junction obstruction [Table 1]. [1] Since that time, three other cases have been reported, including this case, bringing the total to five. [2],[3],[4] The most common presentation was urosepsis. All the patients survived, and four of five patients had their stone burden successfully treated using a variety of surgical approaches. Only one patient required nephrectomy for a poorly functioning kidney. [1]{Table 1}

All patients described in the literature meet the criteria for Class 1 emphysematous pyelonephritis (EPN) as there was no extension of gas beyond the renal pelvis [Table 1]. [5] This relatively mild form of EPN has an excellent prognosis with concomitant antibiotic therapy and relief of obstruction. Huang et al. have extensively studied the microbiology of EPN and have shown that all cases have been associated with anaerobic gas-fermenting organisms (E. coli 69%, Klebsiella 29%). The microbiology from the five cases of gas-containing stones mirror this trend, with E. coli in 80% and Klebsiella in 20% [Table 1].

Urinary stasis appears paramount in the formation of gas-containing urinary calculi. All patients in the literature had radiographic signs of obstruction at presentation [Table 1]. Stasis likely decreases renal perfusion, impairing the ability for formed gas to exit the renal unit, and predisposes to stone formation itself by allowing further supersaturation of solutes.

Metabolic factors also likely play a significant role in patients with gas-containing stones. Compositional stone analysis is available for four of five patients, with calcium phosphate being the most common [Table 1]. Our patient, who had 100% calcium phosphate composition, also met the criteria for gouty diathesis. She had persistent aciduria despite normal serum uric acid. Such patients are predisposed to uric acid, calcium oxalate and calcium phosphate stones. [6] Patient 3 had documented primary hyperparathyroidism, with a serum calcium level of 11.7 at the time of presentation, and also had 100% calcium phosphate stones. Patient 4 carried a diagnosis of sarcoidosis that was associated with elevated Vitamin D levels and hypercalcemia/hypercalcuria.

Nephron-sparing management was employed in four of five cases of gas-containing stones [Table 1]. PCNL was used in two patients. [2],[3] As a high-volume center for both PCNL and robotic renal surgery, we elected to perform robotic extended laparoscopic pyelolithotomy as it was felt to be the most efficient and minimally invasive means of addressing the stone. Pre-operative imaging suggested a single large, unbranched stone within an extra-renal pelvis, which we felt was the ideal anatomy for a robotic approach.

References

1Simpson AD, Rytina ER, Ball RY, Gaches CG. "Stones, gas and gaiters": Gas-filled matrix calculi of the renal pelvis. Br J Urol 1998;81:770-2.
2Nilsen F, Karlsen S, Gjertsen O. Gas-containing renal stones treated with percutaneous nephrostolithotomy: Case Report. J Endourol 2001;15:915-7.
3Paterson R, Welsch J, Koerner T, Lingeman J. Urinary calculus containint gas. Urol 2002;60:164.
4Rapoport M, Sadah A. Gas-containing renal stones. J Urol 2006;68:890.e13-5.
5Huang J, Tseng C. Emphysematous pyelonephritis. Arch Intern Med 2000;160:797-805.
6Khatchadourian J, Preminger G, Whitson P, Adams-Huet B, CY Pak. Clinical and biochemical presentation of gouty diathesis: Comparison of uric acid versus pure calcium stone formers. J Urol 1995;154:1665-9.