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Literature DB >> 3398160

An experimental model for the systematic investigation of stone fracture by extracorporeal shock wave lithotripsy.

Abstract

An experimental model of stone fracture utilizing "Z" brick is presented. The model is described and it is applied to determine the effects of varying numbers of shocks, voltage and to make inferences about some of the fracture mechanisms occurring during ESWL.

Entities: Disease

Mesh：

Year: 1988 PMID： 3398160 DOI： 10.1016/s0022-5347(17)41643-0

Source DB: PubMed Journal: J Urol ISSN： 0022-5347 Impact factor: 7.450

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Cited

4 in total

1. Stone disintegration: effect of shock wave projection and electrode age on this parameter in a standard stone model.

Authors: K Sarica; L Işikay; S Kiliç; A Koşar; O Yaman; Y Z Müftüoğlu; O Süzer
Journal: Int Urol Nephrol Date: 1997 Impact factor: 2.370

2. Leucine aminopeptidase enzymuria: quantification of renal tubular damage following extracorporeal shock wave lithotripsy.

Authors: K Sarica; O Süzer; O Yaman; B Küpeli; S Baltaci; E Bilaloğlu; S Tasman
Journal: Int Urol Nephrol Date: 1996 Impact factor: 2.370

3. Controlled cavitation to augment SWL stone comminution: mechanistic insights in vitro.

Authors: Alexander P Duryea; William W Roberts; Charles A Cain; Timothy L Hall
Journal: IEEE Trans Ultrason Ferroelectr Freq Control Date: 2013-02 Impact factor: 2.725

4. Effects of Stone Size on the Comminution Process and Efficiency in Shock Wave Lithotripsy.

Authors: Ying Zhang; Isaac Nault; Sorin Mitran; Edwin S Iversen; Pei Zhong
Journal: Ultrasound Med Biol Date: 2016-08-09 Impact factor: 2.998

4 in total