J Korean Radiol Soc.  1993 Aug;29(4):593-600.

A study on early microstructural changes in the rabbit kidney induced by shock waves

Abstract

Many reports have been published on the tissue damage of a shock wave with respect to histopatological changes in light microscopy and various imaging modalities. However, the studies on the electron microscopic findings and cause of renal functional change such as parenchymal obstructive pattern following extracorporeal shock wave lithotripsy (ESWL) have not been elucidated. In order to evaluate the microstructural changes after shock wave exposure, gross, light microscopic and trasmission electron microscopic findings were analyzed with rabbit kidneys. Preliminary study (n=2) was performed to determine the dosage intensity of shock waves to inflict damage, using a EDAP LT 01 piezoelectric extracorporeal shock wave lithotriptor. A shoke wave of various intensities were given to the left kidneys of 3 different groups of rabbits. Storage value of 100, 50, 25 at rate of 20/sec under 87% power were given to group I (n=4), group II (n=4), and group III(n=3) respectively. The right kidneys were preserved as the control group. The rabbits were killed 6-12 hours later. In gross, there were a few subcapsular hemorrhagic foci and mild congestion of corticomedullary junction without a large hematoma formation. No significant differences were noted between each group. Light microscopic findings were mainly hydropic changes in the proximal convoluted tubules and congestion without significant necrotic changes. The observed pathologic changes in the transmission electron microscopy were vacuolization of cytoplasm with swelling of epithelial cells especially porximal convoluted tubules. There were also tubular obstruction due to swelling and desquamation of epithelial cells into tubular lumen. The structural changes of intracellular organelles were not found at storage values of 25 and 50. But dilatation and structural alterations of endoplasmic reticulums were noted of 100 with cell membrane rupture. The findings of this study suggest that tubular obstructions with or without structural change of intracellular organelles is one cause of renal functional change such as parenchymal obstructive pattern after ESWL.


MeSH Terms

Cell Membrane
Cytoplasm
Dilatation
Endoplasmic Reticulum
Epithelial Cells
Estrogens, Conjugated (USP)
Hematoma
Kidney*
Lithotripsy
Microscopy
Microscopy, Electron, Transmission
Organelles
Rabbits
Rupture
Shock*
Estrogens, Conjugated (USP)
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