Stones: Treatment Selection for Upper Urinary Tract Calculi
(Redirected from Stones: Approach to Surgical Management of Upper Urinary Tract Calculi)
See 2016 AUA Stone Surgery Guideline Notes
Includes 2016 AUA Stone Surgery Guidelines
Investigations Prior to Treatment★[edit | edit source]
UrologySchool.com Summary[edit | edit source]
- History and Physical Exam
- Labs:
- Mandatory (1):
- Urinalysis +/- culture
- Certain situations (4):
- Serum electrolytes
- Serum creatinine
- CBC
- Coagulation profile
- Mandatory (1):
- Imaging
- Non-contrast CT
- Should be obtained prior to PCNL
- Can help select between SWL vs. URS (decision should not be based on US)
- Certain situations: functional imaging, other contrast enhanced studies
- Non-contrast CT
Laboratory[edit | edit source]
- Urinalysis +/- culture
- Required prior to intervention
- Urine culture
- Should be obtained in patients with clinical or laboratory signs of infection
- If the culture demonstrates infection, appropriate antibiotics should be prescribed based on sensitivity
- Intraoperative urine cultures should be obtained, if technically feasible, from urine proximal to the stone if infected urine is suspected at the time of intervention
- Potential for discordance between preoperative voided urine cultures or those from indwelling urethral catheters compared to urine proximal to an obstructing stone
- Stone cultures
- May be obtained, especially in cases of suspected infection-related stones, in order to help guide postoperative therapy
- Potential for discordance between stone cultures and preoperative voided urine cultures
- May be obtained, especially in cases of suspected infection-related stones, in order to help guide postoperative therapy
- Should be obtained in patients with clinical or laboratory signs of infection
- Presence of crystals
- May reveal clues to underlying stone composition
- Urine pH
- May add useful information when one is considering uric acid stones (low pH) or the presence of urease-producing bacteria (high pH)
- Serum electrolytes and creatinine
- Should be obtained if there is suspicion of reduced renal function
- Reduced renal function is suspected in those with hydronephrosis, parenchymal thinning or co-morbid conditions associated with renal dysfunction and electrolyte disturbances
- Should be obtained if there is suspicion of reduced renal function
- CBC and platelet count
- Should be obtained for patients:
- Undergoing procedures where there is a significant risk of hemorrhage (e.g. PCNL)
- With symptoms suggesting anemia, thrombocytopenia, or infection
- Should be obtained for patients:
- Coagulation studies
- In the absence of clinical indications (e.g., systemic anticoagulation, relevant hepatic dysfunction, hematologic disease or bleeding disorders, history suggestive of a coagulation disorder) coagulation studies should not be routinely obtained prior to surgical management of urinary stone disease
Imaging[edit | edit source]
- Non-contrast CT
- CT protocols have been developed and evaluated utilizing radiation doses approximating those of plain film radiography.
- Should be obtained prior to performing PCNL
- Defines stone burden and distribution
- Provides information regarding collecting system anatomy, position of peri-renal structures and relevant anatomic variants
- May be used to predict stone composition
- May be used to predict operative outcomes
- May be used to help select the best candidate for SWL vs. URS
- Ultrasound alone to select SWL vs. URS should be discouraged
- Disadvantages of US:
- Provides no information on stone density
- Inaccurate in determination of stone size
- US will correlate approximately 2/3 of the time with the stone size determined on CT scan.
- US will overestimate the size of 1/3 of stones < 10 mm, and underestimate the size of 1/3 of stone, > 10 mm.
- KUB underestimates > 90% stones > 10 mm due in part to its inability to measure in three dimensions
- US will correlate approximately 2/3 of the time with the stone size determined on CT scan.
- Disadvantages of US:
- Factors associated worse SWL outcomes:
- Renal stone attenuation >900-1000 Hounsfield units
- Skin-to-stone distance >10cm
- Ultrasound alone to select SWL vs. URS should be discouraged
- Functional imaging study (DTPA or MAG‐3)
- May be obtained if clinically significant loss of renal function in the involved kidney(s) is suspected
- Additional contrast imaging may be obtained if further definition of the anatomy is needed
- Situations in which complex urinary tract anatomy may require further imaging include:
- Ectopic kidneys (e.g., horseshoe kidney, pelvic kidney, cross-fused ectopia)
- Other congenital kidney conditions (e.g., UPJ obstruction, duplicated collecting system, caliceal diverticulum, ureteral stricture, megaureter, ureterocele),
- Renal transplant grafts
- Kidneys with prior surgery
- Complex stone anatomy/conditions (e.g., staghorn stones, nephrocalcinosis).
- Further imaging may be required in certain patients (e.g., neurologic disorders, including spinal dysraphism; unusual body habitus; presence of urinary diversion or prior kidney/ureteral surgery)
- CT and IVP are the most useful IV contrast studies
- MR urography can be useful in defining anatomy during pregnancy (without contrast) and in the setting of IV contrast allergy, although stones are typically not well visualized directly with MR imaging
- Contrast imaging studies can also include retrograde or antegrade pyelography
- Situations in which complex urinary tract anatomy may require further imaging include:
Treatment Selection[edit | edit source]
- Factors to consider when selecting treatment for urolithiasis:
- Presence of symptoms
- Observation may be appropriate for select, asymptomatic stones
- Stone factors
- Total stone burden
- Stone location
- Stone composition
- Patient factors
- Anticoagulation
- BMI
- Renal function
- Renal anatomic factors
- Presence of symptoms
General Considerations[edit | edit source]
- If purulent urine is encountered during endoscopic intervention, stone removal procedures should be aborted, appropriate drainage should be established, antibiotics continued, and a urine culture should be obtained.
- Stone material should be sent for analysis
- An exception would be a patient who has had multiple recurrent stones that have been documented to be of similar stone composition and there is no clinical or radiographic evidence that stone composition has changed.
Management of Ureteric Stones[edit | edit source]
UrologySchool.com summary★[edit | edit source]
- Uncomplicated, < 10mm: observation +/- MET (recommended distal, optional mid or proximal location)
- >10mm or failure of conservative management: URS vs. SWL
- URS preferred for distal and mid
- URS and SWL options for proximal
Symptomatic[edit | edit source]
Conservative treatment[edit | edit source]
- If the ureter is not otherwise obstructed (e.g. from ureteric stricture distal to stone), the main determinant of stone passage is the axial diameter of the stone
- Second most important determinant is the location of the stone within the ureter at presentation
- Other factors that may influence interval to stone passage include:
- Laterality (right side more likely to pass)
- Duration of symptoms before presentation
- Degree of hydronephrosis
- Stone composition has not been shown to influence interval to stone passage
Observation[edit | edit source]
- Patients with uncomplicated [any location] ureteral stones <10 mm should be offered observation; [different than 2015 CUA Ureteric Calculi guidelines which suggest intervention for stone >5mm]★
- A trial of spontaneous passage is reasonable in patients amenable to conservative therapy with distal ureteral stones <10 mm in whom pain is well controlled and there are no signs of infection or high-grade obstruction.
- The smaller the stone and the more distally in the ureter the stone is located, the greater the likelihood of spontaneous passage
- The control arms of RCTs evaluating tamsulosin as MET show that ≈50% of patients with distal ureteral calculi <10 mm in size will spontaneously pass their stones
- A trial of spontaneous passage is reasonable in patients amenable to conservative therapy with distal ureteral stones <10 mm in whom pain is well controlled and there are no signs of infection or high-grade obstruction.
Medical expulsive therapy[edit | edit source]
- Patients with uncomplicated distal ureteral stones <10mm should be offered medical expulsive therapy (MET) with α-blockers [same as 2015 CUA Ureteric Calculi Guidelines]★
- Ureteral contractility is mediated by both α and β adrenoreceptors in the ureteral wall. Stimulation of α1-receptors promotes contraction of ureteral smooth muscle, leading to more vigorous and frequent peristalsis. α1-antagonists have the potential to inhibit ureteral spasm and uncontrolled contraction, theoretically reducing pain and promoting spontaneous stone passage.
- In patients with <10 mm distal ureteral stones, spontaneous stone passage rates improves with α-blockers compared to no treatment (ARR: 23%, 77% α-blockers vs. 54% placebo or no treatment)
- SUSPEND (Lancet 2015)
- Population: 1136 patients with ≤10 mm ureteral calculi
- Randomized to tamsulosin (0.4 mg daily), nifedipine (30 mg daily) and placebo (1:1:1)
- Primary outcome: absence of need for additional intervention at 4 weeks rather than radiographic evidence of stone passage
- Results: no difference between groups for the primary outcome.
- The results of this trial were not incorporated into the AUA Guideline Panel’s meta-analysis
- Pickard, Robert, et al. "Medical expulsive therapy in adults with ureteric colic: a multicentre, randomised, placebo-controlled trial." The Lancet 386.9991 (2015): 341-349.
- SUSPEND (Lancet 2015)
- In patients with <10 mm distal ureteral stones, spontaneous stone passage rates improves with α-blockers compared to no treatment (ARR: 23%, 77% α-blockers vs. 54% placebo or no treatment)
- Calcium channel blockers
- Suppress smooth muscle contraction by inhibiting the influx of extracellular calcium into smooth muscle cells
- Insufficient supporting data for the utilization of this agent for MET.
- Patients should be informed that medications for MET are prescribed off-label
- Ureteral contractility is mediated by both α and β adrenoreceptors in the ureteral wall. Stimulation of α1-receptors promotes contraction of ureteral smooth muscle, leading to more vigorous and frequent peristalsis. α1-antagonists have the potential to inhibit ureteral spasm and uncontrolled contraction, theoretically reducing pain and promoting spontaneous stone passage.
- MET can be considered an option in patients with an uncomplicated middle or proximal ureteric calculi <10mm; [2015 CUA Ureteric Calculi Guidelines do not explicitly describe role of MET in these locations]★
- No benefit of therapy based on the few α-blocker trials that included patients with middle and proximal ureteral calculi; therefore, use of MET for stones in the middle and proximal ureter could not be specifically endorsed. However, because of the low side effect profile of α-blockers and the demonstrated efficacy of α-blockers in patients with <10 mm stones in any location of the ureter, a trial of α-blockers in a patient with middle or proximal ureteric calculi <10mm, can be considered an option, despite the lack of demonstrable benefit
Failure of Conservative Treatment[edit | edit source]
- In most patients, definitive stone treatment should be offered if observation +/- MET is not successful after 4-6 weeks and/or the patient/clinician decide to intervene sooner★
- Indications to proceed with surgical intervention (3):
- Pain: recurrent renal colic requiring repeated visits to the emergency department or hospital admission for parenteral analgesia
- Worsening renal function
- Infection: evidence of urinary tract sepsis
- A 6-week interval is recommended to reduce the potential for permanent damage.
- Continued renal blockage after this time may lead to irreversible kidney damage
- A previous study has also indicated that most stones destined to pass spontaneously will do so within 6 weeks. As such, there seems little benefit in continuing MET beyond this time interval.
- Indications to proceed with surgical intervention (3):
- Clinicians should offer reimaging to patients prior to surgery if passage of stones is suspected or if stone movement will change management
- ≈10% risk of negative URS for ureteral stones < 4 mm in a distal ureteral location
- Other factors that influence the decision to re-image a patient include time interval since prior imaging, pain, and presence of obstruction/hydronephrosis
- Reimaging should focus on the region of interest and limit radiation exposure to uninvolved regions
Intervention[edit | edit source]
- Approach: URS vs. SWL for ureteric calculi
- The patient should be informed of the advantages and disadvantages of SWL and URS (anesthesia requirements, stone-free rates, need for additional procedures, and associated complications of each procedure)
- SWL is the procedure with the least morbidity and lowest complication rate
- 2012 Cochrane Review comparing SWL and URS identified 7 RCTs significantly lower complication rate for SWL compared to URS
- Ureteral perforation occurs significantly more frequently during URS than SWL
- No difference with regard to UTI, sepsis, ureteral stricture, or ureteral avulsion
- 2012 Cochrane Review comparing SWL and URS identified 7 RCTs significantly lower complication rate for SWL compared to URS
- URS has a greater stone-free rate in a single procedure
- Stone-free rates are higher for URS than SWL for all ureteral stones EXCEPT proximal ureteral stones >10 mm in size where stone-free rates are comparable
- Ureteroscopy is the most cost-effective treatment strategy for ureteral stones at all locations, after observation fails.
- Patients should be informed about the possible need for stent placement after URS, and less commonly, after SWL, because this may influence their decisions
- SWL is the procedure with the least morbidity and lowest complication rate
- Stone location
- Mid or distal ureter:★
- URS is the recommended first-line therapy
- SWL is second-line therapy
- For women of child-bearing age with mid or distal ureteral calculi, URS is preferred, as the effects of shock wave energy on the ovary have not been completely elucidated
- [Proximal ureter:]★
- [URS and SWL are options]
- For proximal ureteric stones < 10mm, stone-free rates with URS are superior than SWL
- For proximal ureteric stones >10mm, stone-free rates are equivalanet
- Therefore, the recommendation for first-line use of URS was not extended to proximal ureteral stones.
- [URS and SWL are options]
- Alternative treatment options, such as open or laparoscopic ureterolithotomy, or antegrade URS via a percutaneous approach, are not preferred over SWL because of greater invasiveness.
- Mid or distal ureter:★
- Stone Composition
- URS recommended over SWL for suspected cystine or uric acid ureteral stones
- Cystine stones are often only faintly radio-opaque and pure uric acid stones are typically radiolucent and therefore, stone targeting with fluoroscopy may be problematic for SWL.
- Furthermore, cystine stones are typically resistant to SWL fragmentation
- URS recommended over SWL for suspected cystine or uric acid ureteral stones
- In patients who fail or are unlikely to have successful results with SWL and/or URS, clinicians may offer PCNL, laparoscopic, open, or robotic assisted stone removal.
- A percutaneous and antegrade approach may be used for very large proximal ureteral calculi not amenable to SWL or URS
- If a ureteric stricture is present, can perform open, laparoscopic, or robotic-assisted laparoscopic treatment for both the stricture and the stone in the same session
- The patient should be informed of the advantages and disadvantages of SWL and URS (anesthesia requirements, stone-free rates, need for additional procedures, and associated complications of each procedure)
Management of Renal Stones[edit | edit source]
UrologySchool.com Summary★[edit | edit source]
- Asymptomatic, non-obstructing caliceal stones: active surveillance
- Symptomatic, total stone burden < 20mm
- Non-lower pole: either SWL or URS are preferred over PCNL
- Lower pole:
- ≤10mm: SWL or URS
- 10-20mm: PCNL (first-line) or URS (no SWL)
- Symptomatic, total stone burden >20mm: PCNL (first-line) or URS (option) (no SWL)
Asymptomatic, non-obstructing caliceal stones[edit | edit source]
- Active surveillance may be offered
- Observation of asymptomatic, non-obstructing caliceal stones is appropriate as long as the patient is counseled about the risk of stone growth, passage, and pain.
- There is conflicting data on the natural history of asymptomatic renal stones
- ≈50% of asymptomatic stones will progress, a much smaller percentage will require surgical intervention.
- Lower pole stone location and isolated stone ≥ 4 mm were associated with a higher likelihood of failing observation.
- Risk of surgical intervention for initially asymptomatic stones: ≈10-20% at 3-4 years
- Sorenson et al. NEJM 2022[1]
- Population: 73 patients, urology clinics of the participating large, urban, tertiary-care centers, scheduled to undergo endoscopic surgical treatment (ureteroscopy or PCNL) of a primary stone, with one or more secondary stones on computed tomography (CT)
- Primary stones defined as those located within the ureter or a kidney and that produced symptoms or were considered at high risk of causing an adverse clinical event
- Secondary stones defined as small (≤6 mm), asymptomatic renal stones that were:
- Located in the contralateral kidney (in the case of a primary renal stone) OR
- In either kidney (in the case of a primary ureteral stone, with the specific kidney identified before randomization)
- Patients with known systemic disease or anatomical disorders such as medullary sponge kidney, primary hyperparathyroidism, renal tubular acidosis, sarcoidosis, and horseshoe kidney were excluded.
- Randomized to treatment vs. control of secondary stones
- Secondary stones in patients in the treatment group were removed by ureteroscopy
- Outcomes
- Primary: relapse in each group, defined according to any of 3 measures:
- Emergency department visit owing to stones on the same side where the original asymptomatic stone had occurred (trial side) during the follow-up period (2 weeks to 5 years after surgery)
- Subsequent surgery to remove stones on the trial side in the follow-up period
- Growth of an original secondary stone, as measured with the use of CT.
- Stone growth defined as an increase in stone size of more than 1 mm in one dimension or 1 mm or more in two dimensions, as measured by subsequent CT scans.
- Primary: relapse in each group, defined according to any of 3 measures:
- Results
- Baseline characteristics
- Median secondary stone size: 3 mm treatment vs. 4 mm control
- Median number of secondary stones: 1 treatment vs 1 control
- Primary outcome
- Treatment group had significantly fewer relapses than the treatment group (relapse rate 16% treatment vs. 63% control)
- Baseline characteristics
- Sorensen, Mathew D., et al. "Removal of small, asymptomatic kidney stones and incidence of relapse." New England Journal of Medicine 387.6 (2022): 506-513.
- Population: 73 patients, urology clinics of the participating large, urban, tertiary-care centers, scheduled to undergo endoscopic surgical treatment (ureteroscopy or PCNL) of a primary stone, with one or more secondary stones on computed tomography (CT)
- Sorenson et al. NEJM 2022[1]
- ≈50% of asymptomatic stones will progress, a much smaller percentage will require surgical intervention.
- Treatment of asymptomatic, non-obstructing renal stones should be considered in:
- Solitary kidney (including renal transplants)
- Women considering pregnancy
- Cases of associated infection
- Vocational reasons (e.g. airline pilots, military)
- Poor access to medical care
- Children
- Rapidly increasing in size
- If observation is chosen for asymptomatic, non-obstructing caliceal stones, follow-up imaging studies to assess for stone growth or new stone formation is recommended. Dietary modifications and medical therapy may be considered, especially if new stone formation occurs
Symptomatic[edit | edit source]
- Treatment approach based primarily on
- Total stone burden (most important factor influencing treatment decisions)
- Classified as (3):
- < 1 cm
- ≥ 1 and ≤ 2 cm
- > 2 cm
- Classified as (3):
- Stone location is second most important consideration
- Classified as (2):
- Lower pole stones
- Non-lower pole stones
- Classified as (2):
- Total stone burden (most important factor influencing treatment decisions)
Stone burden ≤20mm★[edit | edit source]
- Non-lower pole stone
- Recommended options: SWL or URS
- Treatment options for patients with a <20 mm non-lower pole renal stone burden include
- SWL
- URS
- PCNL
- For stone burdens <20mm, stone-free rates of both URS and SWL are acceptable and have less morbidity compared to PCNL.
- Stones in a non-lower pole location tend to respond more readily to SWL and URS, making those techniques more competitive with PCNL.
- PCNL stone-free rates are the least affected by stone size, while stone-free rates of both SWL and URS decline with increasing stone burden.
- Excellent clearance with URS has been reported for all renal stones, suggesting that stone size and density, along with patient anatomy, are more important factors than intrarenal stone location when considering URS treatment decisions
- For PCNL, stones within the middle calyx and renal pelvis are more likely to be cleared than stones in upper or lower calyceal locations
- SWL for kidney stone burden < 1cm
- Stone-free rates: ≈50-90%
- Most studies have assessed stone-free outcomes using renal ultrasound or plain radiography, which have limited sensitivity to detect small stones
- Successful clearance with SWL is dependent on stone location:
- Highest for stones in the renal pelvis and ureteropelvic junction (UPJ 80-88%)
- Favorable for stones in the upper and middle calyces (70%)
- Consistently less for lower poles stones (35-69%)
- Stone-free rates: ≈50-90%
- Treatment options for patients with a <20 mm non-lower pole renal stone burden include
- Recommended options: SWL or URS
- Lower pole stone
- ≤ 10 mm
- Recommended options: SWL or URS
- An RCT found that there was no significant difference between the stone-free rates with URS vs. SWL. Intraoperative complications were higher with URS, and patient-derived QoL measures were better with SWL in this trial.§
- CT imaging parameters should be used for patient selection.
- Lower pole anatomic features that may reduce stone passage after SWL
- Narrow lower pole infundibulum (width <4 mm)
- Acute lower pole infundibulopelvic angle (<90 degrees)
- Multiple lower pole infundibula rather than a single infundibulum
- Invasiveness and higher rate of significant complications of PCNL limit its widespread adoption in the treatment of kidney stone burden <1 cm
- PCNL should be used for stones that have failed less invasive treatment modalities (SWL or URS) or are extremely large or dense.
- Recommended options: SWL or URS
- > 10mm
- Recommended options: PCNL (preferred) or URS; SWL not recommended
- PCNL has a higher stone-free rate but greater morbidity than URS
- PCNL should be considered the primary treatment
- Lower pole stones tend to prove the most difficult to treat and are more difficult to clear with URS or SWL, and therefore stones ≥1 cm within the lower pole may be most efficiently treated with PCNL.
- PCNL is also preferred when prior URS or SWL attempts have been unsuccessful.
- Ureteroscopy is the treatment modality of choice when PCNL is completely or relatively contraindicated and is a reasonable first-line option in experienced hands.
- SWL should not be recommended as an initial treatment modality
- In general, SWL results are disappointing for lower pole stone burdens ≥ 1 cm
- Recommended options: PCNL (preferred) or URS; SWL not recommended
- ≤ 10 mm
Stone burden > 20 mm ★[edit | edit source]
- Recommended options: PCNL (first-line) or URS (option); SWL not recommended as first-line
- PCNL offers a considerably higher stone-free rate in a single procedure than URS or SWL.
- Success of SWL is dependent on several other factors, including obesity, skin-to-stone distance, collecting system anatomy, stone composition and stone density/attenuation, which could also contribute to lower stone-free rates
- The benefit of a higher stone-free rate must be weighed against the increased invasiveness and risk of complications for PCNL compared to URS or SWL.
- In patients with significant comorbidities or contraindications to PCNL are present (frailty, coagulopathy, refusal of transfusion), less invasive alternatives such as URS, though less efficient and potentially requiring multiple stages, should be considered.
- 15% overall complication rate with PNCL, majority categorized as Clavien Grade I. Bleeding necessitating blood transfusion (7%) is the most common complication
- The risk of ureteral obstruction from stone fragments (steinstrasse) increases
- PCNL offers a considerably higher stone-free rate in a single procedure than URS or SWL.
Special Scenarios[edit | edit source]
Stone composition[edit | edit source]
- Affects success rates with SWL; URS, PCNL, and laparoscopic and open stone surgery are less affected by stone composition, if at all.
- Therefore, factoring stone composition into treatment decision analysis is most relevant for stones ≤2 cm or less in size, for which SWL is often considered first-line therapy or as a first-line therapeutic option.
- Stone compositions most resistant to SWL (in descending order) (4):
- Cystine
- Calcium phosphate (specifically “brushite”)
- Calcium oxalate monohydrate
- Matrix
- PCNL is the preferred treatment approach for matrix renal stones owing to its high success rates and recurrence rates
- In vitro studies have shown that holmium laser lithotripsy fragmentation efficiency is also dependent on stone composition, with the poorest fragmentation seen for the calcium oxalate monohydrate stones and moderate fragmentation seen for uric acid and cystine stones
Residual Fragments[edit | edit source]
- Endoscopic (URS or PCNL) procedures should be offered, especially if infection stones are suspected.★
- Untreated struvite stones have a high likelihood of stone growth and recurrent infections. These “infection stones” may grow to a large size, often filling a large portion or the entire renal collecting system (i.e., staghorn calculus). Such stones may cause persistent infection and chronic obstruction, ultimately leading to severe renal damage with the possibility of life-threatening sepsis. Removal of suspected infection stones or infected stone fragments may significantly limit the possibility of further stone growth, recurrent UTI, or renal damage. An endoscopic approach, either URS or PCNL, offers the best chance of complete removal of infection stones.
- Non-surgical treatment with antibiotics, urease inhibitors, and other supportive measures only is not considered a viable alternative except in patients otherwise too ill to tolerate stone removal or when the residual fragments cannot be safely retrieved
Patient factors[edit | edit source]
Anticoagulation[edit | edit source]
- URS may be safely performed in patients with active anticoagulation or antiplatelet therapy.
Body mass index[edit | edit source]
- PCNL and URS stone-free outcomes are independent of the patient’s BMI, whereas SWL success falls with increasing obesity
Renal function[edit | edit source]
- Symptomatic upper tract stones located in renal units with <15% split function (different thresholds in literature) should be considered for nephrectomy, and stone-specific, nephron-sparing treatments should not be pursued.
- No change in long-term renal function from SWL, multiple URS, or single-access tract PCNL
- The effects of multi-access tract PCNL on renal functional outcomes are mixed
Renal anatomic factors[edit | edit source]
Ureteral pelvic junction obstruction[edit | edit source]
- Options to treat renal stones with concomitant UPJO (3):
- PCNL with antegrade endopyelotomy
- Retrograde endopyelotomy with URS stone removal
- Pyeloplasty (laparoscopic or robotic) with pyelolithotomy or nephrolithotomy
Calyceal diverticula[edit | edit source]
- Calyceal diverticula are urothelium-lined, non-secretory, cystic dilations of the intrarenal collecting system that are thought to arise embryonically.
- Associated with poor urine drainage
- A large percentage of calyceal diverticula are asymptomatic
- Management
- Asymptomatic calyceal diverticular stones require no treatment
- Indications for intervention: calyceal diverticular stones associated with (4):
- Pain
- Recurrent infections
- Hematuria
- Decline in renal function
- Whether non-obstructing caliceal stones can be a source of pain is controversial.There are published reports of eradication of flank pain with stone removal in this setting. The patient must be informed of the possibility that the pain may not improve or resolve after the procedure.★
- Approach:
- Options: PNCL (preferred) vs. URS (no SWL)
- Choice depends on both stone and diverticular anatomic characteristics
- PCNL should be considered first-line treatment for most calyceal diverticular stones
- Directly puncturing into the calyceal diverticulum is preferable and allows for stone fragmentation and removal, easy fulguration of the diverticular lining, and dilation of the diverticular neck if visible and desired
- Ablation of the calyceal diverticular lining, dilation of the diverticular neck to improve drainage, or both are considered integral to achieving stone clearance and preventing stone recurrence
- Directly puncturing into the calyceal diverticulum is preferable and allows for stone fragmentation and removal, easy fulguration of the diverticular lining, and dilation of the diverticular neck if visible and desired
- URS is a reasonable first-line treatment approach for patients with small (<2 cm) calyceal diverticular stones arising from an upper or middle calyx, and with a diverticular neck that is short and identifiable
- For stones in an anterior calyceal diverticulum, URS is preferered over PNCL due to the high risk of bleeding associated with PNCL into an anterior calyx
- SWL is seldom successful for diverticular stones and should not be considered first-line therapy for most symptomatic diverticular stones
- Options: PNCL (preferred) vs. URS (no SWL)
Horseshoe Kidneys and Renal Ectopia[edit | edit source]
- Horseshoe Kidneys
- Embryonically, the abnormal medial fusion of the left and right metanephric blastemata creates an isthmus that anchors the fused kidneys at the level of the inferior mesenteric artery, leading to incomplete renal ascent and malrotation. As a result, the:
- Renal pelvis becomes elongated and anteriorly located
- UPJ has a high insertion into the renal pelvis and is also anteriorly situated
- Proximal ureter courses more anteriorly than usual because it must traverse over the isthmus of the horseshoe kidney.
- Collectively, these changes are thought to impede normal urinary drainage and promote urinary stasis and renal stone formation
- Embryonically, the abnormal medial fusion of the left and right metanephric blastemata creates an isthmus that anchors the fused kidneys at the level of the inferior mesenteric artery, leading to incomplete renal ascent and malrotation. As a result, the:
- Management
- SWL is a reasonable treatment option for stone burden < 1.5 cm and there is no UPJO or demonstration of poor renal drainage
- UPJO and poor pelvicalyceal drainage must be excluded before SWL treatment
- These are not uncommon in horseshoe kidneys and severely impede SWL success
- Pelvic kidneys are routinely malrotated and often have a high ureteral insertion or UPJO, which can further hinder stone fragment passage
- UPJO and poor pelvicalyceal drainage must be excluded before SWL treatment
- URS may also be reasonable for stone burden < 2 cm, although they may require multiple treatment sessions.
- During URS, fragmented stones should be basket extracted rather than left in situ and left to pass spontaneously, given the often compromised drainage associated with horseshoe kidneys
- For stone burdens of ≥2 cm, PCNL or laparoscopy should be the initial treatment; a combination of the two procedures is expected for pelvic kidneys
- PCNL stone clearance and complications rates are the same for horseshoe kidney compared to orthotopic kidney.
- A retroreneal colon may accompany horseshoe kidneys, and a preoperative CT is recommended to fully evaluate the safest percutaneous track.
- PCNL stone clearance and complications rates are the same for horseshoe kidney compared to orthotopic kidney.
- When UPJO is confirmed, laparoscopy is the treatment of choice because it can address the stones and provides the highest success rate for UPJ repair.
- SWL is a reasonable treatment option for stone burden < 1.5 cm and there is no UPJO or demonstration of poor renal drainage
Renal transplants[edit | edit source]
- SWL
- An option for kidney stone burden <1.5 cm in transplant kidneys; however, high re-treatment rates and auxiliary procedure rates should be expected
- URS
- Antegrade and retrograde URS can be used to treat transplant kidney and ureteral stones.
- PCNL
- The preferred treatment choice for large-burden stones(>1.5 cm) or if less invasive methods have failed.
- General consensus is to remove upper tract stones within renal transplants, as the consequences of an obstructing stone can be devastating
- In transplanted kidneys, typical renal colic does not occur because the transplanted kidney and ureter are denervated. The presentation may instead resemble acute rejection or acute tubular necrosis
Prior renal surgery[edit | edit source]
- Not a contraindication to any form of renal stone surgery.
Staghorn stones[edit | edit source]
- No standard definition exists for complete and partial staghorn stones
- Most consider complete staghorn stones to occupy the entire renal collecting system, whereas partial staghorn stones occupy less.
- Majority of staghorn stones are struvite in composition.
- Should be removed if attendant comorbidities do not preclude treatment.★
- Observation and non-operative management is discouraged
- Natural history of untreated staghorn stones (3):
- Complete loss of function in the affected kidney
- Complete renal function loss in 50% of affected kidneys can occur after 2 years without treatment
- Recurrent UTIs and sepsis episodes
- Increased overall mortality
- Complete loss of function in the affected kidney
- Natural history of untreated staghorn stones (3):
- Observation and non-operative management is discouraged
- PCNL is the method of choice for treating partial or complete staghorn kidney stones
- Best approached through upper or lower polar access
- Poorly or nonfunctioning kidneys and those associated with xanthogranulomatous pyelonephritis may be best managed with nephrectomy
- Medical therapy and supportive care are considerations for those not thought to be operative candidates.
Open/laparoscopic/robotic nephrolithotomy[edit | edit source]
- Should not be offered as first-line therapy to most patients with stones
- Indications (2):
- Rare cases of anatomic abnormalities with large or complex stones
- Requiring concomitant reconstruction, such as those with concomitant UPJ obstruction or ureteral stricture.
Nephrectomy[edit | edit source]
- Indications
- May be performed when the involved kidney has negligible function
- Observation may be appropriate for some asymptomatic patients. However, poorly functioning kidneys can often be a source of persistent infection, pain, and pyelonephritis. In these cases, nephrectomy may be the best treatment option to relieve symptoms and prevent systemic complications, such as sepsis and xanthogranulomatous pyelonephritis.
- When considering nephrectomy for the poorly functioning kidney, overall renal function and the condition of the kidney on the contralateral side should be considered.
- May be performed when the involved kidney has negligible function
- In pregnant patients, nephrectomy should be avoided, if possible, until after they deliver.
Evaluation of Outcome[edit | edit source]
- Comparison of outcomes between endourologic stone treatment types is difficult due to varied definitions of success
- Since the introduction of SWL, treatment outcomes for patients with renal calculi have been reported by two different terms:
- Stone-free rate
- Success rate
- Success rate includes patients who are stone free as well as those with clinically insignificant residual fragments.
- Definition of clinically insignificant residual fragments (CIRF): fragments between 2-4 mm.
- Success rate includes patients who are stone free as well as those with clinically insignificant residual fragments.
- These different methods of reporting treatment results, the lack of a standard definition for CIRF, and the various modalities used for assessing postprocedural stone-free status (KUB studies, nephrotomography, ultrasonography, CT) make the comparison of endourologic stone outcomes difficult
- Since the introduction of SWL, treatment outcomes for patients with renal calculi have been reported by two different terms:
Questions[edit | edit source]
- What stone burden threshold is considered an indication for PCNL in renal transplant patients?
Answers[edit | edit source]
- What stone burden threshold is considered an indication for PCNL in renal transplant patients?
- >1.5 cm
Next Chapter: Stones During Pregnancy[edit | edit source]
References[edit | edit source]
- Wein AJ, Kavoussi LR, Partin AW, Peters CA (eds): CAMPBELL-WALSH UROLOGY, ed 11. Philadelphia, Elsevier, 2015, chap 52
- Assimos, Dean, et al. "Surgical management of stones: American urological association/endourological society guideline, PART I." The Journal of urology 196.4 (2016): 1153-1160.