Cancer Clinical Trial
Official title:
Spironolactone Administration to Prevent Ischemic Kidney Injury in Critically Ill Cancer Patients
Acute kidney injury frequently affects cancer patients. The main cause of acute kidney
injury is ischemic damage caused by transient decrease in renal blood flow, followed by
blood flow restoration and accompanying reperfusion injury (ischemia-reperfusion injury.
Several studies, mainly in animal models have tried to establish spironolactone role on
kidney injury induced by ischemia-reperfusion injury. It has been demonstrated in renal
transplant recipients that the administration of spironolactone can prevent oxidative stress
and is safe. The group of cancer patients with states capable of producing tissue
hypoperfusion (hypovolemic shock, heart failure, major surgery, use of anesthetics) are at
increased risk of developing acute renal ischemia-reperfusion injury.
The investigators hypothesis is that spironolactone may be useful in preventing acute renal
injury when administered during the first six hour of renal ischemia-reperfusion insult.
The purpose of this study is to determine the utility of spironolactone administered after
an ischemic renal insult (major surgery) to prevent acute kidney injury in critically cancer
patients.
Investigators propose a pilot study, randomized, double blind, placebo controlled trial,
approved by the local ethical committee, to compare the efficacy of spironolactone to
prevent acute kidney injury in patients after major surgery. Investigators will include 12
patients in spironolactone group (25mg daily for three days) and 12 patients in placebo
group.
Acute kidney injury frequently affects cancer patients, with an estimated annual risk of
17.5% after cancer diagnosis. In critically ill cancer patients, acute kidney injury
incidence varies between 12 to 49%, and between 9 and 32% need renal replacement therapy. In
this last group of patients, acute kidney injury frequently occurs as part of multiple
organic failure and is associated with a mortality rate of 53 to 93%, as well as an
increment in costs and days of hospitalization.
The main cause of acute kidney injury is ischemic damage caused by transient decrease in
renal blood flow, followed by blood flow restoration and accompanying reperfusion injury
(ischemia-reperfusion injury.
The decrease on renal blood flow is followed by an increment of aldosterone, this hormone
acts on epithelial cells through mineralocorticoid receptors in several tissues, including
heart and kidneys. In kidneys, aldosterone promotes sodium absorption and potassium
excretion.
The decrease in renal blood flow is a strong stimulus for aldosterone secretion. This
hormone has non-genomic actions on smooth muscle cells and vascular endothelium, causing
vasoconstriction, interleukin and oxygen reactive species generation, and beta-transforming
growth factor (TGF BETA) mediated fibrosis, among others.
At renal level, it has been demonstrated that mineralocorticoid receptor blockade can
prevent proteinuria and glomerulosclerosis development in animal models of chronic kidney
disease. Moreover, in chronic kidney disease patients with proteinuria, spironolactone
addition to angiotensin converting enzyme inhibitors (ACEI), reduces proteinuria in 42%
without a higher risk of hyperkalemia.
Several studies, mainly in animal models have tried to establish spironolactone role on
kidney injury induced by ischemia-reperfusion injury.
In an acute and chronic cyclosporine (CyA) nephrotoxicity rat model, spironolactone
administration prevented kidney injury associated to afferent arteriole vasoconstriction.
In an animal ischemia-reperfusion model produced by renal artery clipping, spironolactone
administration one (Sp1), two (Sp2) or three (Sp3) days before ischemic insult resulted in
better renal plasmatic flow and creatinine clearance, and prevented histopathological
ischemic lesions. Spironolactone administration stimulated nitric oxide production and
prevented lipid peroxidation and caspase 3 mediated apoptotic injury.
To determine aldosterone blockade effects after ischemic injury, a new group of animals
received spironolactone at 0, 3, 6 and 9 hours after IR insult. Spironolactone
administration up to 6 hours after IR insult prevented histologic kidney tubular damage.
KIM-1 mRNA levels did not augmented in 0 and 3 hour groups, suggesting that spironolactone
administration up to three hours after renal ischemic injury prevented kidney damage.
Considering that IR injury is the principal etiologic agent on acute kidney injury in renal
transplant patients, in 2013, a pilot double blinded clinical trial included 20 living
kidney transplants divided in spironolactone (25mg per day) or placebo groups, receiving the
drug one day before and three days after renal transplant surgery. It was observed that in
spironolactone prophylactically treated patients, urinary levels of hydrogen peroxide were
inferior at the fifth day compared to placebo group, however, there were no differences in
serum creatinine levels nor in other urinary biomarkers (KIM-1, IL-18, HSP-72). In this
trial, no patient developed potassium levels higher than 6mEq/dL and there was only one
patient in each group with serum potassium higher than 5mEq/L, demonstrating that
spironolactone administration was safe.
The group of cancer patients with states capable of producing tissue hypoperfusion
(hypovolemic shock, heart failure, major surgery, use of anesthetics) are at increased risk
of developing acute renal ischemia-reperfusion injury.
The investigators hypothesis is that spironolactone may be useful in preventing acute renal
injury when administered during the first six hour of renal ischemia-reperfusion insult.
The purpose of this study is to determine the utility of spironolactone administered after
an ischemic renal insult (major surgery) to prevent acute kidney injury in critically cancer
patients.
Investigators propose a pilot study, randomized, double blind, placebo controlled trial,
approved by the local ethical committee, to compare the efficacy of spironolactone to
prevent acute kidney injury in patients after major surgery. Investigators will include 12
patients in spironolactone group (25mg daily for three days) and 12 patients in placebo
group. During five days investigators will collect values of plasma creatinine, sodium,
potassium, blood ureic nitrogen, vital signs and urinary output.
;
Allocation: Randomized, Endpoint Classification: Safety/Efficacy Study, Intervention Model: Parallel Assignment, Masking: Double Blind (Subject, Caregiver, Investigator, Outcomes Assessor), Primary Purpose: Prevention
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