Elsevier

Urology

Volume 62, Issue 5, November 2003, Pages 964-967
Urology

Basic science
Evaluation of synchronous twin pulse technique for shock wave lithotripsy: in vivo tissue effects

https://doi.org/10.1016/S0090-4295(03)00685-XGet rights and content

Abstract

Objectives

To study the in vivo tissue effects of synchronous twin pulse technology. Recently, the concept of a synchronous twin pulse technique for shock wave therapy has been introduced with the development of the Twinheads' unit.

Methods

In 10 pigs (20 kidneys), one of three sites was targeted: the renal pelvis (2 pigs), the mid-zone parenchyma (5 pigs), or the lower pole parenchyma (3 pigs). The treatment parameters were 1000 twin shock waves at 14 kV with a 90° angle between the shock wave reflectors using a rate of 60 shock waves/min in 17 kidneys and 120 shock waves/min in 3 kidneys. To study the effect of an increasing number of twin shock waves, 4 animals (8 kidneys) were used; the mid-zone parenchyma was subjected to 2000 and 3000 twin shock waves in 4 kidneys each, using a rate of 60 shock waves/min at 14 kV and a 90° angle in all of them. For comparison with the use of a single head, another 3 animals (6 kidneys) were treated with the use of the single under-table head; all of them received 2000 single shock waves at 14 kV focused on the mid zone of the kidney parenchyma. Within 1 hour of treatment, the treated kidneys were harvested, inspected, and sectioned at the focal site, as well as at 1 and 2 cm distant to the focal site.

Results

No gross lesions of the surrounding organs, subcapsular hemorrhage, or parenchymal damage were found at the outer surfaces of the kidneys undergoing twin head shock wave lithotripsy even after 3000 twin shocks. The coronal section revealed minimal gross lesions in 4 of 28 kidneys. Microscopically, the parenchymal changes were minimal. In vivo study of the use of the single under-table head revealed that 5 of 6 kidneys had large subcapsular hematomas at both anterior and posterior surfaces and on coronal section extending into the parenchyma. Microscopically, the changes were significant.

Conclusions

Synchronous twin pulse shock waves induced minimal damage compared with single pulse standard shock waves. Of note, even after 3000 twin pulses (ie, a total of 6000 shock waves), the renal damage remained minimal.

Section snippets

Material and methods

The attributes of the Twinheads lithotriptor (FMD, Lorton, Va) have been described in detail in a previous study.6 In brief, it comprises an under-table reflector and an over-table reflector to permit shock wave emission from two perpendicular directions. Both reflectors share the same F2. The two shock waves are synchronous.

The Animal Studies Committee of Washington University in St. Louis reviewed and approved the study protocol. The initial part of the study was performed on 14 domestic pigs

Results

All animals treated with the standard single shock SWL had gross hematuria. Those treated with THSWL had clear urine, except for those who had lesions in the kidney.

No gross surface lesions induced by THSWL were observed in either the kidneys or the surrounding organs. Both anterior and posterior surfaces of all kidneys were normal without subcapsular hemorrhage (Fig. 2A,B), regardless of the number or rate of the applied twin shocks. The coronal sections of the kidneys were grossly normal (

Comment

Extracorporeal SWL induces acute structural changes in the treated kidney. The gross appearance of these changes is similar to that of blunt trauma and consists of intraparenchymal and perirenal hemorrhage.7, 8 This may be the result of both a direct mechanical effect and shock wave cavitation.10

In a previous study,6 it was found that delivery of bidirectional synchronous twin pulse shock waves improved the quality and rate of stone disintegration during SWL; optimal results were achieved when

Conclusions

Synchronous 90° twin pulse-induced tissue damage appears acutely to be minimal compared with that after a single head, not only for the same count and rate of generated shock waves but even when a higher count or rate of twin shock waves was applied. Clinical studies with this new technology are now pending.

References (15)

There are more references available in the full text version of this article.

Cited by (0)

This work was supported by Midwest Stone Institute, research endowment to the Division of Urology, Washington University, St. Louis, Missouri.

View full text
Copyright © 2003 Elsevier Inc. All rights reserved.