Sylvia Berman scite author profile

At the acute stage of renal ischemia/reperfusion-induced AKI, ACE inhibition substantially contributed to the amelioration of acute injury by improving renal function, inhibiting systemic and intrarenal angiotensin-II, attenuating intrarenal inflammation and preserving renal tissue structure. Later on, at the post-reperfusion stage, most of the beneficial effects of captopril administration on the recuperating post-ischemic kidney were no longer evident. Concurrently, ACE inhibition exacerbated intrarenal hypoxia and accelerated oxidative stress, indicating that renal adaptation to some consequences of ischemia does require bioavailability of RAS components.

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Magnesium and C-reactive protein in heart failure: an anti-inflammatory effect of magnesium administration?

Almoznino‐Sarafian

Berman

Mor

et al. 2007

Eur J Nutr

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Renoprotective Effects of DNAse-I Treatment in a Rat Model of Ischemia/Reperfusion-Induced Acute Kidney Injury

Peer

Hamad²,

Berman³

et al. 2016

Am J Nephrol

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Background: Massive DNA destruction/accumulation of cell-free DNA debris is a sensitive biomarker of progressive organ/tissue damage. Deleterious consequences of DNA debris accumulation are evident in cardiac ischemia, thrombosis, auto-inflammatory diseases, SLE-induced lupus nephritis and cystic fibrosis. In case of renal pathologies, degradation and elimination of DNA debris are suppressed, due to downregulated DNAse-I activity within the diseased kidneys. The aim of the current study was to evaluate whether exogenous DNAse-I administration might exert renoprotective effects in the setting of acute kidney injury (AKI or acute renal failure). Methods: Sprague-Dawley rats underwent unilateral nephrectomy, with simultaneous clamping of contralateral kidney artery. The treated group received DNAse-I injection before discontinuing anesthesia. Positive (ischemic) controls received saline injection. Negative (non-ischemic) controls were either non-operated or subjected to surgery of similar duress and duration without ischemia. Renal perfusion was evaluated using the Laser-Doppler technique. Blood was procured for evaluating DNAse-I activity, renal functioning, renal perfusion. The kidneys were allocated for histopathologic examinations and for the evaluation of renal hypoxia, intra-renal apoptosis and proliferation. Results: Contrary to the situation in untreated ischemic rats, renal perfusion was significantly improved in DNAse-treated animals, concomitantly with significant amelioration of damage to renal functioning and tissue integrity. Treatment with DNAse-I significantly decreased the ischemia-induced renal hypoxia and apoptosis, simultaneously stimulating renal cell proliferation. Exogenous DNAse-I administration accelerated the clearance of intra-renal apoptotic DNA debris. Conclusion: Functional/histologic hallmarks of renal injury were ameliorated, renal functioning improved, intra-renal hypoxia decreased and intra-renal regeneration processes were activated. Thus, DNAse-I treatment protected the kidney from deleterious consequences of ischemia-induced AKI.

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Sylvia Berman

The Effect of Sitagliptin Versus Glibenclamide on Arterial Stiffness, Blood Pressure, Lipids, and Inflammation in Type 2 Diabetes Mellitus Patients

Effect of captopril treatment on recuperation from ischemia/reperfusion-induced acute renal injury

Magnesium and C-reactive protein in heart failure: an anti-inflammatory effect of magnesium administration?

Renoprotective Effects of DNAse-I Treatment in a Rat Model of Ischemia/Reperfusion-Induced Acute Kidney Injury

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