P. Jaeger et al., MORPHOLOGICAL AND FUNCTIONAL-CHANGES IN CANINE KIDNEYS FOLLOWING EXTRACORPOREAL SHOCK-WAVE TREATMENT, Urologia internationalis, 54(1), 1995, pp. 48-58
Extracorporeal shock-wave lithotripsy (ESWL) has rapidly become establ
ished worldwide as a routine method for treatment of nephro- and urete
rolithiasis. Although initial studies showed no tissue-damaging effect
by the shock waves, we found, in an animal experiment using canine ki
dneys, that the ESWL-induced damage to the renal parenchyma is more ma
rked than originally assumed. The damage is limited to the area that w
as focused on, and heals relatively rapidly by connective tissue encap
sulation with final cicatrisation without any further residual effects
being observed up to the present. This parenchymal damage is probably
also the cause of the macrohematuria that is always observed during t
herapy. The resulting tissue damage is not extensive enough to cause a
demonstrable reduction of function as measured by the usual methods (
serum creatinine, creatinine clearance, isotopy renography, i.v. urogr
aphy). In serum we observed a transient decrease of calcium, an immedi
ate increase of lactate-dehydrogenase, transaminases (SGOT and SGPT) a
nd a delayed increase of alkaline phosphates. Creatinine, blood urea n
itrogen, sodium, potassium and amylase remained within normal limits.
In urine, a decrease of creatinine and an increase of glucose excretio
n were noted. We believe that these changes represent a relatively mil
d and transient damage of renal cells and do not reflect the occasiona
lly heavy morphological changes observed after shock-wave exposure. Th
e main clinical complication is the large subcapsular hematoma which,
according to the present knowledge, could well result from a lesion of
the larger peripheral vessels. Damage to other organs such as subsero
us colonic and small bowel hematomata are to be expected although they
do not lead to clinical symptoms.