We evaluated 1,003 patients treated with extracorporeal shock wave lithotripsy after a mean followup of 19.1 months (range 12 to 26 months). Followup excretory urograms were normal in 97 per cent of the patients. Two-thirds of the patients reported further discharge of residual fragments, mainly during the first 3 months. Rehospitalization was necessary in 57 patients. Over-all, the rate free of stones after followup was 72.2 per cent and it was not different for primary and recurrent stone patients. Rates free of stones were influenced mainly by the primary stone location and the number of stones in a renal unit. Patients with lower caliceal stones had a rate without calculi of only 57.8 per cent. Almost identical results were obtained for stones other than in the lower calix, when fragments were found in the lower calix at the time the patient was discharged from the hospital. The pre-treatment stone volume, as determined by measuring the stone area in square millimeters, did not influence the final rates free of stones for calculi up to 400 mm.2, that is 2.4 cm. of a sphere. Only calculi larger than 400 mm.2 showed an inverse relationship to the final rate free of stones. Multiple stones yielded a success rate of 64 per cent, with 90 per cent of the patients having regrowth of residual fragments. Serious complications during followup were not encountered.
We treated 417 patients with upper ureteral stones with extracorporeal shock wave lithotripsy. All patients with obstructing stones underwent retrograde manipulation, which was successful in 57 per cent. Management of obstructing stones in situ (215 patients) with and without decompression of the collecting system required additional treatments in 13 per cent and ancillary procedures in 25 per cent. Nonocclusive ureteral stones were not manipulated. Treatment of these stones in situ slightly increased the need for postoperative ancillary procedures, compared to successful repositioning into the kidney (5.9 versus 3 per cent). Secondary treatments, however, were necessary as often as with occlusive stones. The main reason for failure of extracorporeal shock wave lithotripsy was the lack of fluid around an impacted stone. An energy absorptive effect of muscle tissue for stones projecting on the psoas muscle could not be demonstrated. The best and most consistent results were obtained when the stone was manipulated successfully into the renal collecting system.
Eighty-seven patients with branched renal calculi were treated by a combination of percutaneous nephrolithotomy and extracorporeal shock wave lithotripsy. Stone debulking was achieved by percutaneous nephrolithotomy and residual stone fragments were destroyed by shock wave lithotripsy. Of the patients 70 (80 per cent) required 2 to 3 treatments, 12 (14 per cent) required 4 treatments and 5 (6 per cent) required 5 to 6 treatments. Results after 3 months indicated that 58 patients were free of stones, 3 had recurrent stones and 12 had disintegrated stone particles (less than 3 mm.) in the collecting system, while 13 were lost to followup. One patient had undergone nephrectomy. This treatment plan minimized the disadvantages of either technique when used alone and made open operative intervention unnecessary. Procedural and fluoroscopy times were reduced drastically compared to reported data on percutaneous nephrolithotomy only. We believe that more than 90 per cent of all branched calculi can be treated with this combined technique.
The combined use of percutaneous nephrolithotomy and extracorporeal shock wave lithotripsy in patients with staghorn calculi has become an established treatment regimen. We evaluated the results of 90 staghorn calculi-bearing kidneys treated with such combination therapy after a mean follow-up of approximately 2 years. A total of 69 kidneys (76.7 per cent) became free of stones at some point after treatment. However, due to stone recurrence this number decreased to 55 kidneys (61.1 per cent) at the end of follow-up. Patients who had undergone a previous open operation on the stone-bearing kidney showed less favorable results than the over-all group. When our results were compared to reported data on open surgery or percutaneous nephrolithotomy alone even better results may have been obtained by such treatment modalities. However, our data indicate that percutaneous stone debulking combined with further destruction of residual stone fragments by shock wave lithotripsy certainly is less invasive than an open operation and provides an alternative to percutaneous treatment alone, which can yield comparable results.
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