2022
DOI: 10.3390/cells11182917
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Diabetic Proteinuria Revisited: Updated Physiologic Perspectives

Abstract: Albuminuria, a hallmark of diabetic nephropathy, reflects not only injury and dysfunction of the filtration apparatus, but is also affected by altered glomerular hemodynamics and hyperfiltration, as well as by the inability of renal tubular cells to fully retrieve filtered albumin. Albuminuria further plays a role in the progression of diabetic nephropathy, and the suppression of glomerular albumin leak is a key factor in its prevention. Although microalbuminuria is a classic manifestation of diabetic nephropa… Show more

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Cited by 33 publications
(21 citation statements)
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“…Generally speaking, the pathogenesis of metabolic-mediated proteinuria is complicated, including but not limited to glomerular hyperfiltration, highly increased trans-glomerular pressure, and the consequent glomerular and tubulointerstitial damage. [36] Notably, the reduction in trans-glomerular pressure and hyperfiltration benefits the attenuation of proteinuria, which has been found in clinical trials with the administration of ACEI, ARB, SGLT2 inhibitors, and finerenone. [3740] The underlying mechanism of glomerular hyperfiltration at the early stage of DKD might be the excess glucose reabsorbed by the proximal tubules via SGLT2 and the reduction in distal sodium delivery, which decreases tubulo-glomerular feedback with consequent dilation of afferent arterioles and constriction of angiotensin-induced efferent arterioles.…”
Section: Discussionmentioning
confidence: 99%
“…Generally speaking, the pathogenesis of metabolic-mediated proteinuria is complicated, including but not limited to glomerular hyperfiltration, highly increased trans-glomerular pressure, and the consequent glomerular and tubulointerstitial damage. [36] Notably, the reduction in trans-glomerular pressure and hyperfiltration benefits the attenuation of proteinuria, which has been found in clinical trials with the administration of ACEI, ARB, SGLT2 inhibitors, and finerenone. [3740] The underlying mechanism of glomerular hyperfiltration at the early stage of DKD might be the excess glucose reabsorbed by the proximal tubules via SGLT2 and the reduction in distal sodium delivery, which decreases tubulo-glomerular feedback with consequent dilation of afferent arterioles and constriction of angiotensin-induced efferent arterioles.…”
Section: Discussionmentioning
confidence: 99%
“…Activation of the RAAS results in vasoconstriction, increased sodium reabsorption, and enhanced release of noradrenaline, aldosterone, and antidiuretic hormones (Fig. 2) [10,21]. RAASis counteract the improper activation of the RAAS, thereby mitigating hypertension and other harmful effects on the CV and renal systems.…”
Section: Hyperkalemia In Ckd Patients With T2d On Raasimentioning
confidence: 99%
“…The principal cause is stemming from the unopposed RAAS as the underlying cause of high mortality risk [12,16]. The KDIGO 2021 clinical practice guidelines for managing BP in CKD patients and KDIGO 2022 guidelines for diabetes management in CKD patients recommend RAASi be used at the highest approved doses that are tolerated, given the CV and kidney benefits [17,[21][22][23]. A clear understanding of potassium homeostasis is crucial in mitigating the risk of hyperkalemia while maximizing the extended outcome benefits of RAASi.…”
Section: Hyperkalemia In Ckd Patients With T2d On Raasimentioning
confidence: 99%
“…Activated endothelial cells exhibit disturbances in barrier function, increasing vascular permeability at the glomerular ( 43 ) and tubular ( 44 ) vascular beds. This allows plasma proteins such as albumin to leak into the urine, presenting clinically as proteinuria - a hallmark of DN ( 45 ). At the molecular level, hyperglycemia enhances endothelial expression of adhesion molecules that recruit leukocytes ( 46 ), decreasing the synthesis of antiproteinuric factors ( 47 ).…”
Section: Endothelial Dysfunction and Increased Permeabilitymentioning
confidence: 99%