Endourology and Stone Disease

89Urology Journal    Vol 5    No 2    Spring 2008

Treatment of Steinstrasse by Transureteral Lithotripsy
Sayed Mohammad Reza Rabbani

Introduction: Extracorporeal shock wave lithotripsy (SWL) is an essential 
treatment for urinary calculi, but Post-SWL steinstrasse is a potential 
complication, especially in large-burden calculi. Our purpose was to evaluate 
the efficacy of transureteral lithotripsy (TUL) in the treatment of steinstrasse 
caused by SWL.
Materials and Methods: Twenty-four patients with steintrasse following 
SWL were treated by TUL. The length of steinstrasse varied from 1.5 cm 
to 6 cm. The patients were followed up after TUL and failed treatment was 
considered if the steinstrasse was not cleared within 6 weeks.
Results: Fourteen patients (58.3%) became stone free, of whom 8 had a 
double-J stent before SWL. Partial response was seen in 6 patients (25.0%). 
The remained 4 patients (16.7%) with failed TUL underwent open 
ureterolithotomy. One patient developed nonfunctioning kidney during the 
follow-up. Transureteral lithotripsy was successful in 6 out 8 patients with 
type 1, 8 out of 12 with type 2, and none of those with type 3 steinstrasse. 
All of the successful cases of TUL were in the patients with lower ureteral 
calculi. 
Conclusion: Successful treatment of steinstrasse by TUL can be achieved 
in less than two-thirds of the cases. Type and location of steinstrasse may 
influence the outcomes. This complication seems sometimes to be troublesome 
and may even cause kidney loss. 

Urol J. 2008;5:89-93. 
www.uj.unrc.ir

Keywords: urinary calculi, 
complications, steinstrasse, 

ureteroscopy, shock wave lithotripsy

Department of Urology, Shaheed 
Beheshti Hospital, Yasuj University 

of Medical Sciences, Yasuj, Iran

Corresponding Author:
Seyed Mohammad Reza Rabbani, MD

Shaheed Beheshti Hospital,  
Yasuj, Iran

Tel: +98 917 741 1389
Fax: +98 741 222 1811

E-mail: smrrabani@yahoo.com

Received December 2007 
Accepted March 2008

INTRODUCTION
Steinstrasse or “stone street,” is an 
aggregation of particles in the ureter 
formed following extracorporeal 
shock wave lithotripsy (SWL). It 
is a well-recognized, but usually 
transient and asymptomatic, 
complication of SWL and is a 
common radiological finding on 
routine radiographic images taken 
between 24 and 48 hours after 
lithotripsy (15%).(1) However, it 
may cause partial or complete 
ureteral obstruction, often 
superimposed with urinary tract 
infection. Steinstrasse has 3 types(1); 
type 1 is made up of particles 2 mm 

in diameter or smaller. Type 2 has a 
leading large fragment of 4 mm to 5 
mm in diameter with a tail of 2-mm 
particles. Type 3 is composed of 
large fragments.

All patients with steinstrasse are 
initially treated conservatively. In 
case of obstruction, infection, pain, 
or failed passage of the calculus 
fragments, further treatment should 
be used, ranging from repeated 
SWL, percutaneous nephrostomy 
(PCN), endoscopic manipulation, 
and finally, open surgery.(1-3) There 
is no standard treatment protocol 
for the steinstrasse and choosing 



Transureteral Lithotripsy for Steinstrasse—Rabbani

90 Urology Journal    Vol 5    No 2    Spring 2008

a therapeutic modality depends on the degree 
of obstruction, infection, kidney function, and 
response to each kind of therapy.(1-3) In this 
study, we used transureteral lithotripsy (TUL) 
as an available procedure for the treatment 
of steinstrasse, when there was an indication 
for intervention, regardless of the type of the 
steinstrasse. 

MATERIALS AND METHODS
We diagnosed 76 patients with steinstrasse after 
SWL in a period of 26 months beginning from 
April 2005. Steinstrasse was defined as fragments 
of calculi that form a column occupying more 
than 17% of the length of the ureter.(1,4) All of 
the patients had received analgesics, antibiotics, 
and hydration in the period of conservative 
management after SWL with a plain abdominal 
radiography, every week, and ultrasonography, 
every 2 weeks. During a maximum follow-up 
period of 1.5 month, passage of the calculus 
fragments occurred in 52 patients (68.4%) without 
the need for further surgical intervention. The 
remained 24 patients (31.6%) underwent TUL. 
The mean length of steinstrasse in this group 
was 2.62 cm (range, 1.5 cm to 6 cm). Type 1 
steinstrasse was present in 8 patients (33.3%), type 
2 in 12 patients (50%), and type 3 in 4 patients 
(16.7%). The calculi were in the lower, middle, 
and upper ureter in 17 (70.8%), 2 (8.3%), and 5 
(20.8%) patients, respectively. 

All of the patients underwent TUL by 8-F 
to 9.8-F semirigid ureteroscopes (Richard 
Wolf, Knittlingen, Germany). Function of the 
kidneys was checked before TUL by blood urea 
nitrogen and serum creatinine levels, intravenous 
urography, and ultrasonography. Intervention 
was done at least 1 month after the initial SWL 
and conservative management. Fourteen patients 
(58.3%) had double-J stents before SWL. 

The patients were followed up after TUL and 
failed treatment was considered if the steinstrasse 
was not cleared within 6 weeks. In cases with 
failed TUL, the treatment was repeated or other 
modalities were used based on the availability 
of the facilities and the patient and surgeon’s 
preferences. 

RESULTS 
We managed 24 patients with steinstrasse 
following SWL. There were 16 men (67%) and 
8 women (33%) with a mean age of 34.5 years 
(range, 22 to 48 years). Fourteen patients (58.3%) 
had successful TUL and became stone free, 8 of 
whom had a double-J stent before SWL. 

Six patients (25.0%) had only partial response to 
TUL (debulking, but not stone free), 1 of whom 
responded to the second TUL, and 1 developed 
nonfunctioning kidney during the follow-up, and 
4 responded to SWL. The remained 4 patients 
(16.7%) underwent open ureterolithotomy. No 
procedure-related complication was detected in 
our patients.   

Transureteral lithotripsy was successful in 6 out 
8 patients with type 1, 8 out of 12 with type 2, 
and none of those with type 3 steinstrasse. All of 
the successful cases of TUL were in the patients 
with lower ureteral calculi. The Table shows the 
outcomes in relation to the calculi location and 
type.

DISCUSSION
Since the introduction of percutaneous 
nephrolithotripsy, calculi greater than 2 cm 
are more commonly treated by this method 
rather than SWL. As a result, the incidence 
of complicated steinstrasse has been reduced. 
Management of the three types of steinstrasse has 
been previously discussed. Type 1 is more likely 
to be passed by conservative management. Type 
2 steinstrasse that usually has a herald calculus 
greater than 4 mm to 5 mm may respond well to 
SWL or TUL. Type 3 steinstrasse almost always 
does not respond to conservative management 
and needs a suitable intervention.(1) The use of 
double-J stenting before lithotripsy significantly 
lowers the incidence of steinstrasse in patients 
with a stone burden of 1.5 cm to 3.5 cm; however, 
the incidence of steinstrasse increases with the size 
of the calculi, whether or not a double-J stent is 
placed.(5-7) 

Overall, steinstrasse occurs in about 5% of cases in 
most series.(8) Fedullo and colleagues reported that 
75% of steinstrasse cases occurred in the lower 
ureter;18%, in the upper ureter; and 6%, in the 



Transureteral Lithotripsy for Steinstrasse—Rabbani

Urology Journal    Vol 5    No 2    Spring 2008 91

middle ureter. They also reported 35% of patients 
required intervention and 75% of interventions 
were endoscopic.(9) In our study, only about 
30% of the patients with steinstrasse needed 
intervention, the calculi of whom were located in 
the lower, upper, and middle ureter in 71%, 21%, 
and 8%, respectively. Nearly 70% of the patients 
had spontaneous passage of the calculi within a 
4-week follow-up. 

Indications for intervention in steinstrasse are 
basically the same as those used for calculus-
induced obstruction of a solitary kidney with 
rising creatinine levels, urosepsis, and failure 
of fragments passage within a reasonable time. 
Steinstrasse should be treated if it is symptomatic 
(pain and sepsis) or causes a silent obstruction 
over a 30-day period.(8) The Alternatives 
include placement of a drainage percutaneous 
tube to allow fragments to pass, ureteroscopy 
and TUL, SWL of a lead fragment, or open 
ureterolithotomy.(8) The choice of TUL or 
SWL for the treatment of lower ureteral calculi 
is still open to debate.(10) In our series, SWL 
was not easily available and the patients would 

have to travel to other cities nearby. On the 
other hand, due to the costs, they preferred 
TUL. Regarding our speculation of the ease 
and efficacy of TUL especially in lower ureteral 
steinstrasse, we decided to attempt TUL. Several 
studies have shown that repeat SWL is a safe and 
efficient sort of treatment for steinstrasse after 
failed conservative management,(11-13) but in our 
experience, only type 2 steinstrasse was a suitable 
case for repeat SWL.

There is continuing controversy in the 
literatures about the success rate of conservative 
management of steinstrasse, mainly due to 
different designs of the studies. We evaluated the 
patients for steinstrasse during the first 48 hours 
after SWL; however, in other studies, they started 
evaluation at least 1 week after SWL, and this 
causes different rates of detected steinstrasse.(14)  

In a study by Mahmod and colleagues, 29 patients 
with steinstrasse were followed for 2 months 
of conservative management with weekly 
radiography and ultrasonography. They found 
51.7% spontaneous calculus passage and treated 
13.8% by repeat SWL and 34% by TUL. In 

Steinstrasse Ureteral Location
Outcome Lower Middle Upper All Calculi

Type 1 Steinstrasse
Successful TUL 6 0 0 6
Repeat TUL 0 1 0 1
SWL 0 0 0 0
Open lithotomy 1 0 0 1

Type 2 Steinstrasse
Successful TUL 8 0 0 8
Repeat TUL 0 0 0 0
SWL 2 0 2 4
Open lithotomy 0 0 0 0

Type 3 Steinstrasse
Successful TUL 0 0 0 0
Repeat TUL 0 0 0 0
SWL 0 0 0 0
Open lithotomy 0 1 2 3
Nonfunctioning kidney 0 0 1 1

All Types
Successful TUL 14 0 0 14
Repeat TUL 0 1 0 1
SWL 2 0 2 4
Open lithotomy 1 1 2 4
Nonfunctioning kidney 0 0 1 1

Outcome of TUL for Steinstrasse in Relation to Type and Location of Calculi*

*TUL indicates transureteral lithotripsy and SWL, shock wave lithotripsy.



Transureteral Lithotripsy for Steinstrasse—Rabbani

92 Urology Journal    Vol 5    No 2    Spring 2008

their study, a 100% success rate was seen. They 
concluded that TUL was a definitive treatment 
modality with about 100% success rate.(15) In 
our opinion, this may be true only in selected 
cases within such a multimodality options of 
treatments. Ibrahim used TUL and SWL in 
his study for the treatment of steinstrasse in 
22 patients.  He performed TUL in 12 selected 
cases, with good results.(14) Goyal and associates 
treated 27 patients with steinstrasse and selected 
3 of them for TUL with good results.(3) Sulaiman 
and colleagues, in their experience on treating 
steinstrasse with SWL, mentioned that failed 
SWL cases could be cleared by laser lithotripsy 
even if they were extended and persistent. We 
did not have laser lithotripter in our center.(12) 
All of these studies show that different modalities 
of treatment may be used to treat steinstrasse 
depending on the type and location of the calculi 
and the overall situation of the patients. Hence, 
careful selection of the patients for each option 
has a major role in this way. However, selection 
of the optimal surgical therapy for complicated 
steinstrasse remains one of the controversial 
topics in urology. We used TUL, which was easily 
available for us, regardless of the type or location 
of steinstrasse in our series. Since we had limited 
number of cases, the results cannot be definitive; 
nonetheless, we can speculate that successful 
TUL is not dependent on the length of the 
steinstrasse, but on its type. For instance, a 6-cm 
type 1 steinstrasse in the lower ureter was treated 
successfully, while a 2-cm type 3 in the middle 
ureter was not cleared by TUL. Also, presence of 
a double-J stent could ease ureteroscopy. 

In this study, we encountered some difficulties. 
First, a wire cannot be passed through the 
steinstrasse, because the ureter is fully packed. 
Therefore, the usual over-the-wire dilating 
balloon cannot be used to open the ureteral 
orifice which is usually smaller than normal; 
large amount of fragments displaced upward in 
the dilated ureter towards the kidney that again 
might cause obstruction. Second, endoscopic 
intervention is sometimes very difficult, especially 
in a large type 1 steinstrasse, because the small 
particles interlock in a similar way to the resilient 
dry calculus walls, making it impossible to pass a 
guide wire through this wall. Although it may be 

possible to destruct this wall gradually by water 
jet, it takes too much time. Third, we had 1 case 
of kidney loss is our study. The loss of renal units 
following steinstrasse is a risk if the SWL follow-
up is suboptimal.(16)

CONCLUSION
Steinsrasse is sometimes troublesome and may 
cause even kidney loss. In our experience, success 
rate of TUL in the treatment of this complication 
is only about 60%. The most important factors to 
predict the efficacy of TUL in steinstrasse might 
be its type and location, with type 3 having the 
most negative impact. Larger series are warranted 
to confirm our conclusions.

CONFLICT OF INTEREST
None declared.

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