Outcomes Associated with Serum Calcium Level in Men with Non-Dialysis-Dependent Chronic Kidney Disease

Background and objectives: Elevated serum calcium has been associated with increased mortality in dialysis patients, but it is unclear whether the same is true in non-dialysis-dependent (NDD) chronic kidney disease (CKD). Outcomes associated with low serum calcium are also not well-characterized.Design, setting, participants, & measurements: We examined associations of baseline, time-varying, and time-averaged serum calcium with all-cause mortality in a historic prospective cohort of 1243 men with moderate and advanced NDD CKD by using Cox models.Results: The association of serum calcium with mortality varied according to the applied statistical models. Higher baseline calcium and time-averaged calcium were associated with higher mortality (multivariable adjusted hazard ratio (95% confidence interval): 1.31 (1.13, 1.53); P < 0.001 for a baseline calcium 1 mg/dl higher). However, in time-varying analyses, lower calcium levels were associated with increased mortality.Conclusions: Higher serum calcium is associated with increased long-term mortality (as reflected by the baseline and time-averaged models), and lower serum calcium is associated with increased short-term mortality (as reflected by the time-varying models) in patients with NDD CKD. Clinical trials are warranted to determine whether maintaining normal serum calcium can improve outcomes in these patients.Mineral and bone disorders in chronic kidney disease (CKD) (1) have emerged as novel mortality risk factors in dialysis patients (2–8). Some of these abnormalities (such as serum phosphorus and parathyroid hormone (PTH) levels) have also been implicated in similar ways in patients with non-dialysis-dependent (NDD) CKD (9–12). Serum calcium''s effect on outcomes has been the focus of attention mainly in dialysis patients, where calcium metabolism is significantly distorted (13–19). The use of calcium-containing phosphate binders further complicates the picture because these medications could be involved in the etiology of vascular calcification (20,21), and their roles as therapeutic agents have been intensely debated (22). Supporting the potential role for calcium in cardiovascular disease were epidemiologic studies showing an association between higher calcium and increased mortality (2–8). Some of the same studies have also suggested that extremely low calcium levels may themselves be deleterious (2,3), which has ultimately resulted in recommendations to attain a low-normal serum calcium level in dialysis patients (23). Studies examining the role of calcium in NDD CKD patients are fewer and failed to unequivocally show an association between abnormal calcium levels and vascular calcification (24–27). No study has yet examined the association of calcium levels with mortality in NDD CKD.We examined the association of serum calcium levels with all-cause mortality in a large number of male US veterans with moderate and advanced NDD CKD at a single medical institution.     

CRP Polymorphisms and Progression of Chronic Kidney Disease in African Americans

Background and objectives: Chronic inflammation may play a role in chronic kidney disease (CKD) progression. CRP gene polymorphisms are associated with serum C-reactive protein (CRP) concentrations. It is unknown if CRP polymorphisms are associated with CKD progression or modify the effectiveness of anti-hypertensive therapy in delaying CKD progression.Design, setting, participants, & measurements: We genotyped 642 participants with CKD from the African American Study of Kidney Disease and Hypertension (AASK), selecting five tag polymorphisms: rs2808630, rs1205, rs3093066, rs1417938, and rs3093058. We compared the minor allele frequencies (MAF) of single nucleotide polymorphisms (SNPs) in AASK to MAFs of African Americans from NHANES III. Among AASK participants, we evaluated the association of SNPs with CRP levels and prospectively with a composite: halving the GFR, ESRD, or death.Results: The MAF was higher for the rs2808630_G allele (P = 0.03) and lower for the rs1205_A allele (P = 0.03) in the AASK compared with NHANES III. Among AASK participants, the rs3093058_T allele predicted higher CRP concentrations (P < 0.0001) but not CKD progression. The rs2808630_GG genotype was associated with higher risk of the composite endpoint compared with the AA genotype (P = 0.002). Participants with the rs2808630_GG genotype on angiotensin converting enzyme inhibitors (ACEIs) versus β blockers had increased risk of progression (P = 0.03).Conclusion: CRP SNPs that were associated with higher levels of CRP did not predict CKD progression. The rs2808630_GG genotype was associated with higher risk of CKD progression, and in patients with this genotype, ACEIs did not slow progression.Familial clustering of chronic kidney disease (CKD) and ESRD has been reported in populations throughout the world for most types of nephropathy (1–6). This genetic predisposition to ESRD seems to be strongly associated with race (7,8). Compared with people with no family history of kidney disease, African Americans with a first-degree relative with ESRD have a nine-fold increase in the risk of ESRD compared with a three- to five-fold increase in whites (8). Recently, the candidate gene MYH9 has been identified as associated with nondiabetic ERSD in African Americans, and this association explains some of the disparity in incidence of ESRD observed between whites and African Americans (7,9). However, it is possible that additional genetic variants, such as those related to inflammatory pathways, may also be associated with ESRD.Biomarkers of inflammation, including C-reactive protein (CRP), are increased even in early stages of CKD and have been linked to the risk of CKD progression (10–15). These observations have led to studies examining the genetic basis of inflammation and identification of several candidate genes for ESRD susceptibility (16–19). Recently, several large population-based studies showed that plasma CRP levels are under genetic influence (20–25). Some of these polymorphisms have been consistently associated with CRP levels (higher levels associated with rs3093058_T and lower levels associated with rs1205_A and rs2808630_G) and the risk of cardiovascular events (rs3093058_T) in African Americans (23).CRP gene polymorphisms that affect CRP concentrations may reflect lifetime exposure to CRP more accurately than single time point measurements of serum CRP concentrations. The primary goal of this study was to characterize CRP gene polymorphisms and evaluate their association with CKD progression. We hypothesized that polymorphisms associated with higher levels of CRP would be associated with higher risk of CKD progression. Additionally, we examined whether these polymorphisms modify the renoprotective effects of angiotensin converting enzyme inhibitors (ACEIs), a drug class known to have anti-inflammatory effects (26–28). We hypothesized that patients with polymorphisms associated with higher levels of CRP would benefit most from ACEIs.     

Associations between Serum Leptin Level and Bone Turnover in Kidney Transplant Recipients

Background and objectives: Obesity is associated with increased parathyroid hormone (PTH) in the general population and in patients with chronic kidney disease (CKD). A direct effect of adipose tissue on bone turnover through leptin production has been suggested, but such an association has not been explored in kidney transplant recipients.Design, setting, participants, & measurements: This study examined associations of serum leptin with PTH and with biomarkers of bone turnover (serum beta crosslaps [CTX, a marker of bone resorption] and osteocalcin [OC, a marker of bone formation]) in 978 kidney transplant recipients. Associations were examined in multivariable regression models. Path analyses were used to determine if the association of leptin with bone turnover is independent of PTH.Results: Higher leptin levels were associated with higher PTH and lower vitamin D levels, and adjustment for vitamin D attenuated the association between leptin and PTH. However, higher leptin was also significantly associated with lower levels of the bone turnover markers: 1 SD higher leptin was associated with 0.13 lower log-OC (−0.17, −0.08, P < 0.001) and 0.030 lower log-CTX (−0.045, −0.016, P < 0.001) after multivariable adjustments. Path analysis indicated that the association of leptin with PTH was mostly mediated through vitamin D, and that the association between leptin and bone turnover was independent of PTH and vitamin D.Conclusions: Elevated leptin level is associated with lower bone turnover independent of its effects on serum PTH in kidney transplant recipients.Secondary hyperparathyroidism (SHPT) develops early in the course of chronic kidney disease (CKD) (1), and it has been associated with higher cardiovascular morbidity (2) and mortality (3) in hemodialysis patients and with higher mortality in patients with nondialysis-dependent CKD (4). In addition to factors directly related to worsening kidney function (e.g., abnormalities in calcium, phosphorus, vitamin D, and FGF23 metabolism) (1,5–8), PTH levels are also affected by demographic (9,10) and co-morbidity characteristics (11) in CKD. There is mounting evidence that obesity is also associated with higher PTH levels in the general population (12–16) and in patients with CKD (17,18). Furthermore, measurements of body composition suggest that the higher PTH associated with elevated body mass index (BMI) is directly related to the higher adiposity of these individuals (16). There have been speculations that obesity and adiposity indirectly cause elevated PTH levels by affecting vitamin D metabolism (15,19). This would logically imply a consequent increase in bone turnover mediated by PTH. More recently it has been suggested that adipose tissue may also exert a direct effect on bone tissue, possibly mediated through leptin secretion (20), providing an explanation for the decrease in bone turnover reported by some studies in obese individuals, despite relatively higher PTH levels (12). Earlier studies in dialysis patients reported an inverse association between leptin level and bone turnover (21,22). It is unclear if similar associations are present in kidney transplant recipients, a population that is also characterized by distinct changes in bone metabolism (23–26).The gold standard of determining bone turnover is bone histology, but this method is not feasible for application in large groups of patients. Possible alternatives to bone histology are biochemical markers of bone turnover such as serum beta crosslaps (CTX)—the C-terminal telopeptide fragments of type I collagen, a marker of bone resorption (27), or serum osteocalcin (OC) and serum alkaline phosphatase (ALP), markers of bone formation (28,29). To test the hypothesis that leptin may be directly associated with bone metabolism rather than through its effects on PTH, we examined the association of serum leptin with serum PTH level and with biochemical markers of bone resorption and formation in a large prevalent cohort of kidney transplant recipients.     

Coronary Calcification in Patients with Chronic Kidney Disease and Coronary Artery Disease

Background and objectives: A close linkage between chronic kidney disease (CKD) and cardiovascular disease (CVD) has been demonstrated. Coronary artery calcification (CAC) is considered to be the causal link connecting them. The aim of the study is to determine the relationship between level of kidney function and the prevalence of CAC.Design, setting, participants, & measurements: Autopsy subjects known to have coronary artery disease and a wide range of kidney function were studied. Patients without CKD were classified into five groups depending on estimated GFR (eGFR) and proteinuria: eGFR ≥60 ml/min/1.73 m² without proteinuria; CKD1/2: eGFR ≥60 ml/min/1.73 m² with proteinuria; CKD3: 60 ml/min/1.73 m² >eGFR ≥30 ml/min/1.73 m²; CKD4/5: eGFR <30 ml/min/1.73 m²; and CKD5D: on hemodialysis. Intimal and medial calcification of the coronary arteries was evaluated. Risk factors for CVD and uremia were identified as relevant to CAC using logistic regression analysis.Results: Intimal calcification of plaques was present in all groups, but was most frequent and severe in the CKD5D group and less so in the CKD4/5 and CKD3 groups. Risk factors included luminal stenosis, age, smoking, diabetes, calcium-phosphorus product, inflammation, and kidney function. Medial calcification was seen in a small number of CKD4/5 and CKD5D groups. Risk factors were use of calcium-containing phosphate binders, hemodialysis treatment, and duration.Conclusions: It was concluded that CAC was present in the intimal plaque of both nonrenal and renal patients. Renal function and traditional risks were linked to initimal calcification. Medial calcification occurred only in CKD patients.Cardiovascular disease (CVD) is the main cause of morbidity and mortality in patients with end-stage renal disease (ESRD) (1,2) or chronic kidney disease (CKD) (3–7). The mechanisms underlying this increased cardiovascular risk are not clearly understood. In the general population, traditional risk factors for CVD have been well characterized (8), and these are also present in CKD (3–6,9). The mechanisms involved in the connection between CKD and CVD are probably numerous (3–6). Vascular calcification, such as coronary artery calcification (CAC) (10,11), is considered to be the causal link between them.Vascular calcification is common in physiologic and pathologic conditions such as aging, diabetes, dyslipidemia, genetic diseases, and diseases with disturbances of calcium metabolism (12–14). In CKD patients, vascular calcification is even more common, developing early and contributing to the markedly increased cardiovascular risk. Pathomorphologically, atherosclerosis (plaque-forming degenerative changes of the aorta and of large elastic arteries) and arteriosclerosis (concentric medial thickening and hyalinosis of muscular arteries) can be distinguished. Increased knowledge about the mechanisms of calcification together with improved imaging techniques have provided evidence that vascular calcification should be divided into two distinct entities according to the specific site of calcification within the vascular wall: plaque calcification, involving patchy calcification of the intima in the vicinity of lipid or cholesterol deposits, and calcification of the media in the absence of such lipid or cholesterol deposits, known as Mönckeberg-type atherosclerosis (12–14). These two types of calcification may vary in terms of the type of vessel affected, the location along the arterial tree (proximal versus distal), clinical presentation, and treatment and prognosis (12–14). In the general population and in patients with CKD, electron-beam computed tomography (EBCT) has proven CAC as a potent predictor of cardiac events (15–18). Both the prevalence and intensity of CAC are increased in patients with CKD (19–27). Several studies have been undertaken to investigate whether calcification occurs in the intima or media of the coronaries and whether the morphologic details of calcified plaques differ between renal and nonrenal patients (12–14,24). Causal elements for either type of CAC have not been definitively determined (12–14).Autopsy studies are limited in terms of patient selection, but have a major advantage in terms of being able to distinguish intimal from medial calcification. Therefore, our primary goal is to determine whether, among autopsy subjects known to have CAD, there exists a direct relationship between level of kidney function and the prevalence of intimal or medial calcification.     

Prevalence of Atrial Fibrillation and Its Predictors in Nondialysis Patients with Chronic Kidney Disease

Background and objectives: Chronic kidney disease (CKD) increases systemic inflammation, which is implicated in development and maintenance of atrial fibrillation (AF); therefore, we hypothesized that the prevalence of AF would be increased among nondialysis patients with CKD. This study also reports independent predictors of the presence of AF in this population.Design, setting, participants, & measurements: A retrospective, cross-sectional analysis of 1010 consecutive nondialysis patients with CKD from two community-based hospitals was conducted. Estimated GFRs (eGFRs) were calculated using the Modification of Diet in Renal Disease (MDRD) equation. Multivariate logistic regression was used to determine independent predictors.Results: Of 1010 nondialysis patients with CKD, 214 (21.2%) had AF. Patients with AF were older than patients without AF (76 ± 11 versus 63 ± 15 yr). The prevalence of AF among white patients (42.7%) was higher than among black patients (12.7%) or other races (5.7%). In multivariate analyses, age, white race, increasing left atrial diameter, lower systolic BP, and congestive heart failure were identified as independent predictors of the presence of AF. Although serum high-sensitivity C-reactive protein levels were elevated in our population (5.2 ± 7.4 mg/L), levels did not correlate with the presence of AF or with eGFR. Finally, eGFR did not correlate with the presence of AF in our population.Conclusions: The prevalence of AF was increased in our population, and independent predictors were age, white race, increasing left atrial diameter, lower systolic BP, and congestive heart failure.Atrial fibrillation (AF) is the most common arrhythmia in clinical practice (1). Cardiac comorbidities that are associated with AF include hypertension, coronary artery disease (CAD), valvular heart disease (VHD), congestive heart failure (CHF), cardiomyopathy, pericarditis, congenital heart disease (CHD), and cardiac surgery (2–9). Noncardiac comorbidities that are associated with AF include acute pulmonary embolism, chronic obstructive pulmonary disease (COPD), obstructive sleep apnea, hyperthyroidism, and obesity (10–14).Evidence suggests that inflammation is involved in the pathogenesis of AF (15–20). For example, AF after cardiac surgery is associated with proinflammatory cytokine and complement activation (16,19). Moreover, patients with refractory lone AF have inflammatory infiltrates, myocyte necrosis, and fibrosis on biopsy (18). Several studies also reported elevated serum high-sensitivity C-reactive protein (hsCRP) levels in patients with AF (15–17,20).Evidence suggests that inflammation is associated with renal dysfunction (21–24). Proposed mechanisms include decreased proinflammatory cytokine clearance, endotoxemia, oxidative stress, and reduced antioxidant levels (23,24). Moreover, hsCRP levels are higher among elderly patients with renal insufficiency (24). In hemodialysis (HD) patients with ESRD, hsCRP, IL-6, and fibrinogen levels are elevated (21,22).HD patients with ESRD have an increased prevalence of AF; however, prevalence among nondialysis patients with CKD has not been investigated (25–30). Because CKD promotes inflammation, which promotes AF, we hypothesized the prevalence of AF would be increased among nondialysis patients with CKD. This study reports the prevalence and independent predictors of the presence of AF in a nondialysis population with CKD.     

Urinary Biomarkers in the Clinical Prognosis and Early Detection of Acute Kidney Injury

Background and objectives: Several novel urinary biomarkers have shown promise in the early detection and diagnostic evaluation of acute kidney injury (AKI). Clinicians have limited tools to determine which patients will progress to more severe forms of AKI at the time of serum creatinine increase. The diagnostic and prognostic utility of novel and traditional AKI biomarkers was evaluated during a prospective study of 123 adults undergoing cardiac surgery.Design, setting, participants, & measurements: Urinary neutrophil gelatinase-associated lipocalin (NGAL), cystatin C (CyC), kidney injury molecule-1 (KIM-1), hepatocyte growth factor (HGF), π-glutathione-S-transferase (π-GST), α-GST, and fractional excretions of sodium and urea were all measured at preoperative baseline, postoperatively, and at the time of the initial clinical diagnosis of AKI. Receiver operator characteristic curves were generated and the areas under the curve (AUCs) were compared.Results: Forty-six (37.4%) subjects developed AKI Network stage 1 AKI; 9 (7.3%) of whom progressed to stage 3. Preoperative KIM-1 and α-GST were able to predict the future development of stage 1 and stage 3 AKI. Urine CyC at intensive care unit (ICU) arrival best detected early stage 1 AKI (AUC = 0.70, P < 0.001); the 6-hour ICU NGAL (AUC = 0.88; P < 0.001) best detected early stage 3 AKI. π-GST best predicted the progression to stage 3 AKI at the time of creatinine increase (AUC = 0.86; P = 0.002).Conclusion: Urinary biomarkers may improve the ability to detect early AKI and determine the clinical prognosis of AKI at the time of diagnosis.Acute kidney injury (AKI) is a common and serious complication of cardiothoracic surgery (1); depending on the definition of AKI used, it may occur in over 40% of adults, with 1% to 5% requiring renal replacement therapy (RRT) (2–9). Recently, standardized clinical definitions of AKI have been implemented through the use of the RIFLE (Risk, Injury, Failure, Loss, and ESRD) and AKIN (Acute Kidney Injury Network) criteria (10,11). However, these criteria are still very much dependent on delayed serum creatinine elevations, the current gold standard for the diagnosis of AKI. Furthermore, as a functional marker of glomerular filtration, serum creatinine is not ideally suited to diagnose AKI caused by renal tubular injury, rather than reversible prerenal azotemia (10).In recent years, several novel human biomarkers have been demonstrated to detect acute tubular injury and have shown promise in their ability to precede and/or complement serum creatinine in the diagnosis of AKI (12–15). Cardiac surgery has long been used to study AKI because of the ability to prospectively follow patients before and after a well timed renal insult; for this reason, several urinary proteins have been shown to serve as biomarkers of AKI after cardiac surgery, including neutrophil gelatinase-associated lipocalin (NGAL) (16–20), cystatin C (CyC) (19,21), kidney injury molecule-1 (KIM-1) (18,21), interleukin-18 (IL-18) (22), and α-glutathione-S-transferase (α-GST) (23,24). Limited data are available comparing the ability of these markers to predict renal outcomes at the time of AKI diagnosis. In fact, nephrologists have limited tools in their arsenal to assess the presence and severity of renal tubular injury at the time of AKI diagnosis. Although urinalysis with microscopy has been shown to be of some utility in the differential diagnosis of AKI in a generalized hospital-based cohort (25), data supporting its use in the specific setting of cardiac surgery are lacking (24). Similarly, diagnostic mainstays of AKI evaluation such as the fractional excretion of sodium (FENa) have long been shown to be suboptimal tools in the complex setting of cardiac surgery AKI (24), in which volume status, fluid responsiveness, and diuretic use confound inferences regarding the relationship between tubular function and injury (26,27). Additionally, although recent data support the utility of the fractional excretion of urea (FEUrea) as a diagnostic tool in AKI (28), not all data support its use (29). Furthermore, very little is known about the utility of FENa or FEUrea compared with the novel urinary biomarkers discussed above for the differential diagnosis and prognostic evaluation of AKI.In this study, we assessed the diagnostic utility of urinary NGAL, CyC, KIM-1, hepatocyte growth factor (HGF), α-GST (a proximal tubular damage marker), π-GST (a marker specific to distal tubule damage), FENa, and FEUrea as biomarkers for the detection of early and severe AKI after adult cardiac surgery. These novel biomarkers can be thought of as falling into two categories: constitutive markers (proteins/enzymes that are normally present in renal tubular cells and not normally found in the urine in significant concentration but are released into the urine in direct response to cellular injury), and inducible biomarkers (proteins that are not normally found in high concentrations in renal tubular cells or urine until their production is directly upregulated in response to cellular injury). CyC, α-GST, and π-GST are constitutive proteins that are extruded into urine in the presence of site-specific renal tubular injury (CyC and α-GST are proximal and π-GST is distal); intracellular GSTs are released into urine by damaged tubular cells, whereas injured proximal tubules fail to reabsorb filtered CyC. In contrast, KIM-1 and NGAL are inducible biomarkers, gene products that are increased in direct response to nephron damage (30,31). We also evaluated the ability of these markers to predict the severity/stage of AKI at the time of clinical diagnosis by serum creatinine increase. We performed all of the above analyses for those subjects who developed AKI as defined by the AKIN (11). Recent data demonstrate that urine NGAL after cardiac surgery varies with baseline renal function (32); as such, a secondary analysis of baseline GFR was conducted for the aforementioned panel of biomarkers (32). Finally, we interpreted the data for all novel biomarker concentrations adjusted and unadjusted for dilution by indexing to urinary creatinine, but for brevity''s sake, we only report the indexed values unless otherwise noted.     

The HALT Polycystic Kidney Disease Trials: Design and Implementation

Background and objectives: Two HALT PKD trials will investigate interventions that potentially slow kidney disease progression in hypertensive autosomal dominant polycystic kidney disease (ADPKD) patients. Studies were designed in early and later stages of ADPKD to assess the impact of intensive blockade of the renin-angiotensin-aldosterone system and level of BP control on progressive renal disease.Design, settings, participants, and measurements: PKD-HALT trials are multicenter, randomized, double-blind, placebo-controlled trials studying 1018 hypertensive ADPKD patients enrolled over 3 yr with 4 to 8 yr of follow-up. In study A, 548 participants, estimated GFR (eGFR) of >60 ml/min per 1.73 m² were randomized to one of four arms in a 2-by-2 design: combination angiotensin converting enzyme inhibitor (ACEi) and angiotensin receptor blocker (ARB) therapy versus ACEi monotherapy at two levels of BP control. In study B, 470 participants, eGFR of 25 to 60 ml/min per 1.73 m² compared ACEi/ARB therapy versus ACEi monotherapy, with BP control of 120 to 130/70 to 80 mmHg. Primary outcomes of studies A and B are MR-based percent change kidney volume and a composite endpoint of time to 50% reduction of baseline estimated eGFR, ESRD, or death, respectively.Results: This report describes design issues related to (1) novel endpoints such as kidney volume, (2) home versus office BP measures, and (3) the impact of RAAS inhibition on kidney and patient outcomes, safety, and quality of life.Conclusions: HALT PKD will evaluate potential benefits of rigorous BP control and inhibition of the renin-angiotensin-aldosterone system on kidney disease progression in ADPKD.Autosomal dominant polycystic kidney disease (ADPKD) is the most common inherited kidney disease occurring in 1/400 to 1/1000 live births and accounts for ∼4.6% of the prevalent kidney replacement population in the United States (1,2). ADPKD is a systemic disorder characterized by early onset hypertension before loss of kidney function. Hypertension relates to progressive kidney enlargement and is a significant independent risk factor for progression to ESRD (3).As kidney cysts enlarge, kidney architecture and vasculature are compressed, resulting in interstitial fibrosis and tubular atrophy. Despite cyst growth and kidney enlargement, kidney function remains intact for decades. However, once GFR begins to decrease, a progressive decline in kidney function occurs, with 50% of patients requiring renal replacement therapy by age 53 yr (4,5).MR imaging can accurately and reproducibly measure kidney volume and small changes in total kidney volume over short periods of time in ADPKD (6–8). Imaging studies in early ADPKD indicate that >90% show significant kidney enlargement (4 to 5%/yr), while renal function remains intact (6,8). In The Consortium of Radiologic Imaging Study of ADPKD (CRISP), hypertensive ADPKD patients showed a greater increase in kidney volume compared with normotensives with normal renal function (6.4 versus 4.3%/yr) (9). However, a causal role for hypertension in accelerated kidney growth in ADPKD cannot be proven from this observational cohort. The Polycystic Kidney Disease Treatment Network (HALT PKD) will directly test whether BP has a causal role in increased kidney volume in ADPKD.The renin-angiotensin-aldosterone system (RAAS) plays a role in the pathophysiology of hypertension and is activated in ADPKD patients (10–14). Some (12,13), but not all (14), have found higher plasma renin and aldosterone levels and a more pronounced decrease in renal vascular resistance after administration of angiotensin converting enzyme inhibitor (ACEi) in ADPKD compared with essential hypertensives. Angiotensin II is an important growth factor for kidney epithelial and interstitial fibroblasts, indicating that the RAAS may play also a role in cyst growth and expansion and kidney fibrosis. With increasing cyst size, activation of the RAAS occurs, BP increases, and a vicious cycle ensues with enhanced cyst growth, hypertension, and more cyst growth, ultimately leading to ESRD.There are multiple randomized controlled trials in kidney disease addressing the impact of inhibition of RAAS on disease progression using ACEi that include ADPKD subjects (4,15–22). To date, no benefit of inhibition of the RAAS has shown benefit on progression to ESRD or rate of GFR decline (7). Importantly, a meta-analysis of 142 ADPKD subjects from eight trials in nondiabetic kidney disease reported a 25% nonsignificant relative risk reduction in the composite endpoint of ESRD or doubling of serum creatinine in individuals on ACEi compared with other anti-hypertensive agents (19). The meta-analysis also noted that most enrolled ADPKD subjects had late-stage disease, with a mean age of 48 yr and a mean baseline serum creatinine of 3.0 mg/dl. Overall, past studies have been limited by small numbers of patients who have been studied at relatively late stages of disease.Renal chymase, which locally activates angiotensin II through non-ACE pathways, is elevated in ADPKD kidneys (23). Systemic angiotensin II levels do not suppress with chronic ACEi therapy in ADPKD, suggesting that non–ACEi dependent activation of the RAAS exists in ADPKD. Systemic and renal hemodynamic responses to exogenous angiotensin I and II persist in the presence of ACEi therapy in ADPKD (24,25). Additionally, although angiotensin receptor blocker (ARB) therapy prevents the action of angiotensin II in systemic and renal circulations by binding with the angiotensin type 1 II receptor, angiotensin II levels increase with chronic ARB therapy and exogenous angiotensin II responses are also not totally suppressed (24,25). Therefore, if angiotensin II levels are important in regulating BP and renal plasma flow as well as promoting cyst growth in ADPKD, combination therapy with ACEi and ARB may be warranted.On this background, the HALT-PKD trials, constituting two concurrent multicenter randomized placebo controlled trials have been initiated to compare the impact of rigorous versus standard BP control as well as combined ACEi + ARB therapy versus ACEi monotherapy on progression in both early and later stage ADPKD. This report will present the study design and rationale for these trials.     

Phosphoinositides and SNARE chaperones synergistically assemble and remodel SNARE complexes for membrane fusion

Yeast vacuole fusion requires 4 SNAREs, 2 SNARE chaperone systems (Sec17p/Sec18p/ATP and the HOPS complex), and 2 phosphoinositides, phosphatidylinositol 3-phosphate [PI(3)P] and phosphatidylinositol 4,5-bisphosphate [PI(4,5)P₂]. By reconstituting proteoliposomal fusion with purified components, we now show that phosphoinositides have 4 distinct roles: PI(3)P is recognized by the PX domain of the SNARE Vam7p; PI(3)P enhances the capacity of membrane-bound SNAREs to drive fusion in the absence of SNARE chaperones; either PI(3)P or PI(4,5)P₂ can activate SNARE chaperones for the recruitment of Vam7p into fusion-competent SNARE complexes; and either PI(3)P or PI(4,5)P₂ strikingly promotes synergistic SNARE complex remodeling by Sec17p/Sec18p/ATP and HOPS. This ternary synergy of phosphoinositides and 2 SNARE chaperone systems is required for rapid fusion.Intracellular membrane fusion is a conserved reaction, vital for vesicle trafficking, hormone secretion, and neurotransmission. Fusion is regulated by NSF (N-ethylmaleimide-sensitive factor)/Sec18p, αSNAP (soluble NSF attachment protein)/Sec17p, SNAREs (SNAP receptors), Sec1p/Munc18–1p family (SM) proteins, Rab GTPases, and Rab:GTP-binding proteins, termed “Rab effectors” (1–3). Lipids, including phosphoinositides, sterols, diacylglycerol (DAG), and phosphatidic acid (PA), have specific roles in fusion (4–14). Proteins and lipids cooperate for their enrichment in membrane fusion microdomains (6, 8, 15, 16).SNARE proteins are integral or peripheral membrane proteins required for membrane fusion. SNAREs have either a Q or R residue at the center of their SNARE domain and associate in 4-helical QabcR complexes in cis (anchored to one membrane) or in trans (anchored to apposed membranes), where a, b, and c are families of related Q-SNAREs (2, 17, 18). Reconstituted proteoliposomes (RPLs) bearing Q-SNAREs fuse with RPLs bearing an R-SNARE through trans-SNARE-complex assembly (19, 20). This fusion has slow kinetics, requires nonphysiologically high SNARE densities, and causes substantial leakage of luminal contents of the RPLs (21–24).We study membrane fusion with yeast vacuoles (lysosomes). Vacuole fusion (25) requires 3 Q-SNAREs (Vam3p, Vti1p, and Vam7p) and 1R-SNARE (Nyv1p) (26, 27), two SNARE chaperone systems, Sec17p/Sec18p/ATP (28), and the HOPS (homotypic fusion and vacuole protein sorting)/Vps Class C complex (29, 30), the Rab-GTPase Ypt7p (31), and chemically minor but functionally vital “regulatory lipids”: ergosterol (ERG), DAG, PI(3)P, and PI(4,5)P₂ (8). Inactive 4SNARE cis-complexes on isolated organelles are disassembled by Sec17p/Sec18p/ATP (27). The heterohexameric HOPS complex, containing the SM protein Vps33p as a subunit, promotes and proofreads SNARE-complex assembly (32–34). HOPS can physically interact with the Q-SNAREs [Vam7p (35) and Vam3p (36, 37)], 4SNARE cis-complexes (32), GTP-bound Ypt7p (29), and phosphoinositides (35). PI(3)P supports the membrane association of the Qc-SNARE Vam7p, which has no transmembrane domain, through binding its PX domain (38). SNAREs, HOPS, Ypt7p, and regulatory lipids assemble in an interdependent fashion to form a fusion-competent membrane microdomain, the “vertex ring” (8, 16, 39). Trans-SNARE complexes are essential for fusion (26), yet fusion can be accelerated by SNARE-associating factors such as HOPS (14, 35) and by cycles of SNARE complex disassembly and reassembly, termed “remodeling” (40).Membrane fusion has been reconstituted with all purified yeast vacuolar components, including 4SNAREs, vacuolar lipids, 2 SNARE chaperone systems, and phosphoinositides (14). We now show distinct functions of phosphoinositides in RPL fusion: the PX-domain of the SNARE Vam7p recognizes PI(3)P, as reported (38); PI(3)P activates the 3Q-SNAREs to be more fusogenic in the absence of SNARE chaperones; either PI(3)P or PI(4,5)P₂ accelerates fusion by promoting the synergy between Sec17p/Sec18p and HOPS, although this synergy is not a function of the membrane recruitments of these SNARE chaperones. This ternary synergy between phosphoinositides and SNARE chaperones is essential for the assembly and remodeling of SNARE complexes.     

Relationship between Kidney Function and Liver Histology in Subjects with Nonalcoholic Steatohepatitis

Background and objectives: We assessed whether nonalcoholic steatohepatitis (NASH) diagnosed by liver biopsy is associated with decreased kidney function and whether such association is independent of insulin resistance and features of the metabolic syndrome.Design, settings, participants, & measurements: We enrolled 80 consecutive overweight patients with biopsy-proven NASH and 80 nonsteatotic control subjects who were matched for age, gender, and body mass index. Chronic kidney disease (CKD) was defined as the presence of estimated GFR (eGFR) of ≤60 ml/min per 1.73 m² and/or abnormal albuminuria (i.e., urinary albumin/creatinine ratio ≥30 mg/g).Results: NASH patients had significantly (P < 0.001) lower eGFR (75.3 ± 12 versus 87.5 ± 6 ml/min per 1.73 m²) and a greater frequency of abnormal albuminuria (14 versus 2.5%) and CKD (25 versus 3.7%) than control subjects. The significant differences in eGFR, albuminuria, and CKD that were observed between the two groups were only slightly weakened after adjustment for age, gender, body mass index, smoking status, insulin resistance (by homeostasis model assessment), and components of the metabolic syndrome. Notably, histologic severity of NASH (i.e., fibrosis stage) was strongly associated with either decreasing eGFR or increasing albuminuria (P < 0.01 or less), independently of potential confounding factors.Conclusions: Our findings suggest that patients with biopsy-proven NASH have moderately decreased eGFR and a higher frequency of abnormal albuminuria and CKD than matched control subjects and that the severity of NASH histology is associated with decreased kidney function, independently of traditional risk factors, insulin resistance, and components of the metabolic syndrome.Nonalcoholic fatty liver disease (NAFLD) is the most frequent cause of chronic liver disease among adults in Western countries (1–4). It comprises a disease spectrum ranging from simple steatosis to nonalcoholic steatohepatitis (NASH) and cirrhosis. The prevalence of NAFLD has been estimated to be between 20 and 30% in the general adult population, but this value is much higher in people with type 2 diabetes or obesity (i.e., approximately 70 and 90%, respectively) (1–4).In recent years, the increasing recognition of the importance of NAFLD/NASH and its strong association with the metabolic syndrome has stimulated an interest in the putative role of NAFLD/NASH in the development and progression of cardiovascular disease (5). Similarly, the possible link between NAFLD/NASH and chronic kidney disease (CKD) has also attracted scientific interest. Although there is now growing evidence to suggest that NAFLD/NASH is closely linked to an increased risk of cardiovascular morbidity and mortality (2,5), the available information on the association between NAFLD/NASH and kidney disease is quantitatively limited.A number of epidemiologic studies have recently shown that NAFLD/NASH is strongly associated with an increased prevalence (6–10) and incidence (11–14) of CKD in both nondiabetic and diabetic individuals. However, in all these studies, the diagnosis of NAFLD/NASH was based on either serum liver enzymes or ultrasound imaging, but was not confirmed by a liver biopsy, which is the gold standard for diagnosing NAFLD/NASH (1,2).Thus, the aim of this study was to evaluate whether patients with histologically defined NASH have a greater frequency of CKD than nonsteatotic healthy controls and whether there is a significant association between decreased kidney function and the histologic features of NASH. Clarification of this research question may help to clarify the underlying biologic mechanisms and may be of clinical importance in planning preventive and therapeutic strategies.     

Off-Pump Coronary Artery Bypass Surgery and Acute Kidney Injury: A Meta-Analysis of Randomized Controlled Trials

Background and objectives: Off-pump coronary artery bypass grafting (CABG) has been advocated to cause less inflammation, morbidity, and mortality than the more traditional on-pump technique. This meta-analysis compares these two surgical techniques with respect to causing acute kidney injury (AKI).Design, setting, participants, & measurements: This study searched for randomized controlled trials in MEDLINE and abstracts from the proceedings of scientific meetings through February 2010. Included were trials comparing off-pump to on-pump CABG that reported the incidence of AKI, as defined by a mixture of criteria including biochemical parameter/urine output/dialysis requirement. Mortality was evaluated among the studies that reported kidney-related outcomes. For primary and subgroup analyses, fixed-effect meta-analyses of odds ratios (OR) were performed.Results: In 22 identified trials (4819 patients), the weighted incidence of AKI in the on-pump CABG group was 4.0% (95% confidence interval [CI] 1.8%, 8.5%), dialysis requirement 2.4% (95% CI 1.6%, 3.7%), and mortality 2.6% (95% CI 1.6%, 4.0%). By meta-analysis, off-pump CABG was associated with a 40% lower odds of postoperative AKI (OR 0.60; 95% CI 0.43, 0.84; P = 0.003) and a nonsignificant 33% lower odds for dialysis requirement (OR 0.67; 95% CI 0.40, 1.12; P = 0.12). Within the selected trials, off-pump CABG was not associated with a significant decrease in mortality.Conclusions: Off-pump CABG may be associated with a lower incidence of postoperative AKI but may not affect dialysis requirement, a serious complication of cardiac surgery. However, the different definitions of AKI used in individual trials and methodological concerns preclude definitive conclusions.First introduced in the 1960s (1–3), coronary artery bypass grafting (CABG) remains the standard of care for symptomatic patients with three-vessel or left main coronary artery disease (4,5). For the past 30 years, CABG has been performed primarily with the use of an extracorporeal cardiopulmonary bypass (CPB) machine (on-pump) requiring cannulation of the heart and aorta, crossclamping of the ascending aorta, and the induction of cardioplegic arrest. However, in the 1990s, interest emerged in performing off-pump CABG (6,7) with the hope of reducing postoperative complications associated with the use of CPB, including the generalized systemic inflammatory response (8) and acute organ dysfunction such as cerebral dysfunction (9), myocardial depression (10), and prolonged mechanical ventilation (11).Acute kidney injury (AKI) is a serious complication of on-pump CABG, ranging from small postoperative increases in serum creatinine observed in 5% to 20% of patients (12,13) to severe forms requiring dialysis developing in 1% of patients (14,15). Whether defined by various serum creatinine increments or dialysis requirement, AKI has been linked to excessive in-hospital morbidity and mortality (12,14) and increased resource consumption (16,17). With an estimated 176,000 cardiac bypass procedures performed in 2007 (18), preventing AKI postoperatively is an important goal.Previously published studies comparing the effect of off-pump versus on-pump CABG on kidney end points have yielded conflicting results. Although six meta-analyses have examined this question, results were inconclusive (19,20) or the data synthesis included studies of various designs with a mixture of randomized controlled trials (RCTs) and observational studies (21–24). To shed further light on this question, we conducted a comprehensive meta-analysis restricted to all RCTs published to date, comparing the effect of off-pump versus on-pump CABG on development of AKI including dialysis requirement.     

Urinary Netrin-1 Is an Early Predictive Biomarker of Acute Kidney Injury after Cardiac Surgery

Background and objectives: Netrin-1, a laminin-related axon guidance molecule, is highly induced and excreted in the urine after acute kidney injury (AKI) in animals. Here, we determined the utility of urinary netrin-1 levels to predict AKI in humans undergoing cardiopulmonary bypass (CPB).Design, setting, participants, & measurements: Serial urine samples were analyzed by enzyme-linked immunosorbent assay for netrin-1 in 26 patients who developed AKI (defined as a 50% or greater increase in serum creatinine after CPB) and 34 controls (patients who did not develop AKI after CPB).Results: Using serum creatinine, AKI was detected on average only 48 hours after CPB. In contrast, urine netrin-1 increased at 2 hours after CPB, peaked at 6 hours (2462 ± 370 pg/mg creatinine), and remained elevated up to 48 hours after CPB. The predictive power of netrin-1 as demonstrated by area under the receiver-operating characteristics curve for diagnosis of AKI at 2, 6, and 12 hours after CPB was 0.74, 0.86, and 0.89, respectively. The 6-hour urine netrin-1 measurement strongly correlated with duration and severity of AKI, as well as length of hospital stay (all P < 0.05). Adjusting for CPB time, the 6-hour netrin-1 remained a powerful independent predictor of AKI, with an odds ratio of 1.20 (95% confidence interval: 1.08 to 1.41; P = 0.006).Conclusion: Our results suggest that netrin-1 is an early, predictive biomarker of AKI after CPB and may allow for the reliable early diagnosis and prognosis of AKI after CPB, before the rise in serum creatinine.The incidence of acute kidney injury (AKI) is increasing worldwide, affecting about 6% of all hospitalized patients in whom it is an independent predictor of mortality and morbidity (1–3). In the critical care setting, the prevalence of AKI requiring dialysis is about 6%, with a mortality rate exceeding 60% (4). Once established, the treatment is largely supportive, at an annual cost surpassing $10 billion in the United States alone (5). The diagnosis currently depends on detection of reduced kidney function by the rise in serum creatinine concentration, which is a delayed and unreliable measure in the acute setting (5). Ironically, experimental studies have identified interventions that may prevent or treat AKI if instituted early in the disease process, well before the serum creatinine rises (6). The lack of early predictive biomarkers has impaired our ability to translate these promising findings to human AKI.Cardiopulmonary bypass (CPB) surgery is the most frequent major surgical procedure performed in hospitals worldwide, with well over a million operations undertaken each year. AKI is a frequent and serious complication encountered in 30% to 40% of adults and children after CPB (7–14). AKI requiring dialysis occurs in up to 5% of these patients, in whom the mortality rate approaches 80%, and is indeed the strongest independent risk factor for death (15). However, even a minor degree of postoperative AKI as manifested by only a 0.2 to 0.3 mg/dl rise in serum creatinine from baseline is also associated with a significant increase in mortality (16,17). Additionally, AKI after cardiac surgery is associated with adverse outcomes, such as prolonged intensive care and hospital stay, dialysis dependency, and increased long-term mortality (18). Infants and children with congenital heart diseases may be especially vulnerable to developing AKI, because many require multiple surgeries for step-by-step repair of complex congenital anomalies (8–14). These patients comprise an important population for the initial validation of AKI biomarkers because they do not exhibit common comorbid variables that complicate similar studies in adults, such as diabetes, hypertension, atherosclerosis, and nephrotoxin use (19).Experimental studies aimed at a better understanding of the early adaptive response of the stressed kidney have recently yielded several candidate genes and proteins that are serendipitously emerging as noninvasive candidate biomarkers of AKI (20,21). One example of such a protein is netrin. The netrins were discovered more than a decade ago as neuronal guidance cues (22). Netrins are molecules with a distinctive domain organization that belong to the laminin-related family of axon-guidance molecules (23). Recent studies indicate various other roles for netrins beyond axonal guidance, including development of mammary gland, lung, pancreas, and blood vessels; inhibition of leukocyte migration during sepsis; mitogenesis; and chemoattraction of endothelial cells (23,24). The kidney has one of the highest levels of netrin-1 expression, and administration of recombinant netrin-1 before ischemia reperfusion reduces kidney injury and inflammation (25). Preclinical studies also indicate that netrin-1 protein is markedly induced in kidney tubule cells and appears in the urine early (within 1 to 3 hours) after murine renal ischemic injury as well as other forms of AKI (26). Therefore, the objective of this study was to determine whether urinary netrin-1 levels predict the development of AKI in pediatric patients undergoing CPB.     

Hypophosphatemic Effect of Niacin in Patients without Renal Failure: A Randomized Trial

Background and objectives: Niacin administration lowers the marked hyperphosphatemia that is characteristic of renal failure. We examined whether niacin administration also reduces serum phosphorus concentrations in patients who have dyslipidemia and are free of advanced renal disease.Design, setting, participants, & measurements: We performed a post hoc data analysis of serum phosphorus concentrations that had been determined serially (at baseline and weeks 4, 8, 12, 18, and 24) among 1547 patients who had dyslipidemia and were randomly assigned in a 3:2:1 ratio to treatment with extended release niacin (ERN; 1 g/d for 4 weeks and dose advanced to 2 g/d for 20 weeks) combined with the selective prostaglandin D2 receptor subtype 1 inhibitor laropiprant (L; n = 761), ERN alone (n = 518), or placebo (n = 268).Results: Repeated measures analysis revealed that ERN-L treatment resulted in a net mean (95% confidence interval) serum phosphorus change comparing ERN-L with placebo treatment of −0.13 mmol/L (−0.15 to −0.13 mmol/L; −0.41 mg/dl [−0.46 to −0.37 mg/dl]). These results were consistent across the subgroups defined by estimated GFR of <60 or ≥60 ml/min per 1.73 m², a serum phosphorus of >1.13 mmol/L (3.5 mg/dl) versus ≤1.13 mmol/L (3.5 mg/dl), the presence of clinical diabetes, or concomitant statin use.Conclusions: We have provided definitive evidence that once-daily ERN-L treatment causes a sustained 0.13-mmol/L (0.4-mg/dl) reduction in serum phosphorus concentrations, approximately 10% from baseline, which is unaffected by estimated GFR ranging from 30 to ≥90 ml/min per 1.73 m² (i.e., stages 1 through 3 chronic kidney disease).Abnormalities in calcium-phosphorus homeostasis, including significant elevations in serum phosphorus concentrations, are thought to contribute to arterial stiffening, hypertension, and cardiovascular disease (CVD) risk in patients with advanced chronic kidney disease and ESRD that requires maintenance dialysis (1–6). Observational data from population-based studies suggested that even serum phosphorus concentrations within the normative range are linearly associated with measures of subclinical arteriosclerosis and the development of incident CVD outcomes (7–12). Two cross-sectional studies from patients who underwent cardiac catheterization have further indicated that serum phosphorus concentrations, primarily within the normative range, were directly associated with both the presence and the severity of angiographic coronary artery disease (13,14). Moreover, a graded, independent association between serum phosphorus concentrations (again, within the normative range) and recurrent CVD events was reported among a large clinical trial cohort of patients with a previous myocardial infarction (15).Supplementation of calcium salts, despite their efficacy and tolerability as a phosphorus-lowering treatment in ESRD, may enhance coronary artery and aortic valve calcification (16,17). This observation highlights the need for hyperphosphatemia treatment protocols to balance potential benefits and adverse effects (18–22). Phosphorus-lowering drugs that target other cardiovascular risk factors in chronic kidney disease (CKD), simultaneously, including, for example, dyslipidemia (23), might have additive or synergistic benefits. These findings may also be relevant to populations with less advanced CKD or normal renal function.Preliminary studies suggested that niacin administration (as niacinamide, niceritrol, or nicotinic acid) could be a useful primary or adjunctive treatment for the marked hyperphosphatemia that is characteristic of ESRD (24–30). Several reports from clinical trials of extended-release niacin (ERN) that was given to patients who had dyslipidemia and were free of clinical renal disease and hyperphosphatemia have contained limited additional data noting up to 10% reductions in the serum phosphorus concentrations of actively treated patients (31–34). These repeated clinical observations (24–34) are most plausibly explained by the direct inhibitory effect of niacin compounds on active transport-mediated phosphorus absorption in the mammalian small intestine (35–39).Published studies of patient populations who had dyslipidemia and were receiving ERN that included phosphorus data may have failed to provide information on baseline phosphorus values (33,34), and none (31–34) performed repeated measures analyses to examine the potential effects of niacin treatment on serum phosphorus and calcium concentrations, as well as the calcium-phosphorus products.Focused reexamination of the large, placebo-controlled clinical trial data set assembled by Maccubbin et al. (34) afforded us a unique opportunity to elucidate these and other unresolved issues regarding the impact of niacin given as the fixed-dose combination of ERN and laropiprant (ERN-L), a selective prostaglandin D2 receptor subtype 1 inhibitor that reduces niacin-induced flushing (34) or ERN alone on serum phosphorus and calcium concentrations and calcium-phosphorus products. We further evaluated whether there was evidence for significant effect modification by estimated GFR (eGFR), baseline serum phosphorus concentration, the presence of diabetes, or concurrent hepatic hydroxymethyl glutaryl–CoA reductase inhibitor (statin) use when assessing the potential impact of niacin on these routine clinical measures of calcium-phosphorus homeostasis.     

Treatment Options for Sexual Dysfunction in Patients with Chronic Kidney Disease: A Systematic Review of Randomized Controlled Trials

Background and objectives: Sexual dysfunction is very common in patients with chronic kidney disease (CKD), but treatment options are limited. The benefits and harms of existing interventions for treatment of sexual dysfunction were assessed in patients with CKD.Design, setting, participants, & measurements: MEDLINE (1966 to December 2008), EMBASE (1980 to December 2008), and the Cochrane Trial Registry (Issue 4 2008) were searched for parallel and crossover randomized and quasi-randomized trials. Treatment effects were summarized as mean differences (MD) or standardized mean difference (SMD) with 95% confidence intervals (CI) using a random effects model.Results: Fourteen trials (328 patients) were included. Phosphodiesterase-5 inhibitors (PDE5i) compared with placebo significantly increased the overall International Index of Erectile Function-5 (IIEF-5) score (three trials, 101 patients, MD 1.81, 95% CI 1.51 to 2.10), all of its individual domains, and the complete 15-item IIEF-5 (two trials, 80 patients, MD 10.64, 95% CI 5.32 to 15.96). End-of-treatment testosterone levels were not significantly increased by addition of zinc to dialysate (two trials, 22 patients, SMD 0.19 ng/dl, 95% CI −2.12 to 2.50), but oral zinc improved end-of-treatment testosterone levels. There was no difference in plasma luteinizing and follicle-stimulating hormone level at the end of the study period with zinc therapy.Conclusions: PDE5i and zinc are promising interventions for treating sexual dysfunction in CKD. Evidence supporting their routine use in CKD patients is limited. There is an unmet need for studying interventions for male and female sexual dysfunction in CKD considering the significant disease burden.Sexual dysfunction is a set of disorders characterized by physical and psychologic changes that result in the inability to perform satisfactory sexual activities. The condition has been found to be significantly more common in men and women with chronic kidney disease (CKD) than in the general population (1). Men with CKD frequently suffer from reduced libido, erectile dysfunction, and difficulty reaching orgasm (2). Approximately 50% of male predialysis CKD patients and 80% of male dialysis patients have erectile dysfunction (3–6). Moreover, the prevalence of erectile dysfunction in male dialysis patients has been found to increase with age (63% <50 years versus 90% ≥50 years) (3). Similar results have been reported in women with CKD, with 55% of female dialysis patients reporting difficulty with sexual arousal (2). Dysmenorrhea, delayed sexual development, impaired vaginal lubrication, dyspareunia, and difficulties in reaching orgasm are also frequently observed (7,8).Multiple factors contribute to the frequent occurrence of sexual dysfunction in CKD patients, including hormonal disturbances (such as hyperprolactinemia, hypogonadism in males, and changes in hypothalamic-pituitary function in women) (9), anemia (10), CKD mineral and bone disorder (4), psychosocial factors (such as depression, anxiety, poor self-esteem, social withdrawal, marital discord, body image issues, fear of disability and death, loss of employment, and financial difficulties) (2,11,12), autonomic neuropathy (13), medications (including antihypertensives, antidepressant, and histamine receptor blockers) (2), and comorbid illness (such as diabetes mellitus, cardiovascular disease, and malnutrition) (2,14). Sexual dysfunction is inversely associated with GFR (7) and is improved after renal transplantation (15,16), suggesting that CKD per se may contribute to sexual dysfunction in these patients (15).Studies have also identified significant associations between sexual dysfunction in CKD patients and depression (8,17), impaired quality of life (8,17,18), and adverse cardiovascular outcomes (19). Effective treatment of sexual dysfunction in CKD patients may therefore potentially lead to improvement in these patient-level outcomes, although a causal link has not been definitively established (18).Therapies that have been used to treat sexual dysfunction include phosphodiesterase-5 inhibitors (PDE5i), intracavernosal injections, intraurethral suppositories, hormonal therapy, mechanical devices, and psychotherapy. Although many clinical trials and reviews have explored the role of these interventions for sexual dysfunction in nonuremic patients (20–24), the effectiveness and safety of these interventions in patients with CKD have not yet been studied thoroughly. Therefore, we aimed to evaluate the benefits and harms associated with various interventions for sexual dysfunction in patients with CKD.     

Treatment with IFN-α, -β, or -γ Is Associated with Collapsing Focal Segmental Glomerulosclerosis

Background and objectives: Treatment with IFN is rarely associated with nephrotic syndrome and renal biopsy findings of minimal-change disease or FSGS.Design, setting, participants, & measurements: We report 11 cases of collapsing FSGS that developed during treatment with IFN and improved after discontinuation of therapy.Results: The cohort consists of seven women and four men with a mean age of 48.2 yr. Ten of the 11 patients were black. Six patients were receiving IFN-α for hepatitis C virus infection (n = 5) or malignant melanoma (n = 1), three were receiving IFN-β for multiple sclerosis, and two were treated with IFN-γ for idiopathic pulmonary fibrosis. After a mean and median duration of therapy of 4.0 and 12.6 months, respectively, patients presented with acute renal failure (mean creatinine 3.5 mg/dl) and nephrotic-range proteinuria (mean 24-hour urine protein 9.7 g). Renal biopsy revealed collapsing FSGS with extensive foot process effacement and many endothelial tubuloreticular inclusions. Follow-up was available for 10 patients, all of whom discontinued IFN. At a mean of 23.6 months, nine of 10 patients had improvement in renal function, including one with complete remission and two with partial remission. Among the seven patients with available data, mean proteinuria declined from 9.9 to 3.0 g/d. Four of the seven patients were treated with immunosuppression, and there was no detectable benefit.Conclusions: Collapsing FSGS may occur after treatment with IFN-α, -β, or -γ and is typically accompanied by the ultrastructural finding of endothelial tubuloreticular inclusions. Optimal therapy includes discontinuation of IFN.FSGS is the most common cause of idiopathic nephrotic syndrome in black patients and may be the most frequent cause of nephrotic syndrome in the general population (1–6). The spectrum of FSGS includes primary forms mediated by a putative circulating or permeability factor and a number of secondary forms caused by such diverse insults as hereditable mutations in podocyte genes, drugs, viral infections, and adaptive responses to reduced renal mass or other hemodynamic stress (1). A variety of histologic variants of FSGS have been identified and can be applied to both primary and secondary forms (7–9). Many secondary forms tend to manifest as particular morphologic subtypes (1).The collapsing variant of FSGS is defined by implosive wrinkling and “collapse” of the glomerular basement membrane associated with hypertrophy and hyperplasia of overlying podocytes (10–12). Collapsing FSGS was mainly described in patients with HIV-associated nephropathy (HIVAN) (13) but also was recognized as a variant of idiopathic FSGS (11,12). Both idiopathic collapsing FSGS and HIVAN are most commonly seen in young black patients (8–12,14). Compared with the usual, most common form of FSGS with discrete segmental scars (FSGS not otherwise specified [FSGS NOS]), collapsing FSGS is distinguished by more severe nephrotic syndrome and renal insufficiency at presentation and a more rapid course to renal failure (8–12,14). Central to the morphogenesis of the collapsing variant is podocyte injury that leads to podocyte dedifferentiation, apoptosis, and proliferation, in part through dysregulation of cell cycle–related proteins (15–19). Podocyte precursor cells from the parietal cell layer may contribute to the glomerular epithelial cell proliferation (20).HIVAN is not the only established secondary cause of collapsing FSGS. Collapsing FSGS has been reported in the setting of Parvovirus B19 infection (21) and in patients with hemophagocytic syndrome (with or without underlying lymphoma) (22). Collapsing FSGS also may follow treatment with pamidronate (23), with 15 cases reported in the medical literature (23,24). In contrast, FSGS NOS has been reported to result from treatment with lithium (25), sirolimus (26), and more recently anabolic steroids (27). Although rare cases of collapsing FSGS also have been reported after treatment with IFN-α (28–30), this therapeutic agent is more commonly associated with minimal-change disease (MCD) (31–38) and FSGS NOS (39–47). We report 11 additional cases of collapsing FSGS that developed during treatment with IFN, including six IFN-α (for hepatitis C virus [HCV] infection or melanoma), three IFN-β (for multiple sclerosis [MS]), and two IFN-γ (for idiopathic pulmonary fibrosis).     

Renal Involvement in Primary Sj?gren's Syndrome: A Clinicopathologic Study

Background & objectives: Renal pathology and clinical outcomes in patients with primary Sjögren''s syndrome (pSS) who underwent kidney biopsy (KB) because of renal impairment are reported.Design, setting, participants, & measurements: Twenty-four of 7276 patients with pSS underwent KB over 40 years. Patient cases were reviewed by a renal pathologist, nephrologist, and rheumatologist. Presentation, laboratory findings, renal pathology, initial treatment, and therapeutic response were noted.Results: Seventeen patients (17 of 24; 71%) had acute or chronic tubulointerstitial nephritis (TIN) as the primary lesion, with chronic TIN (11 of 17; 65%) the most common presentation. Two had cryoglobulinemic GN. Two had focal segmental glomerulosclerosis. Twenty patients (83%) were initially treated with corticosteroids. In addition, three received rituximab during follow-up. Sixteen were followed after biopsy for more than 12 mo (median 76 mo; range 17 to 192), and 14 of 16 maintained or improved renal function through follow-up. Of the seven patients presenting in stage IV chronic kidney disease, none progressed to stage V with treatment.Conclusions: This case series supports chronic TIN as the predominant KB finding in patients with renal involvement from pSS and illustrates diverse glomerular lesions. KB should be considered in the clinical evaluation of kidney dysfunction in pSS. Treatment with glucocorticoids or other immunosuppressive agents appears to slow progression of renal disease. Screening for renal involvement in pSS should include urinalysis, serum creatinine, and KB where indicated. KB with characteristic findings (TIN) should be considered as an additional supportive criterion to the classification criteria for pSS because it may affect management and renal outcome.Primary Sjögren''s syndrome (pSS) is a progressive autoimmune disorder involving the exocrine glands (1), typically presenting with keratoconjunctivitis and xerostomia (2). It is characterized pathologically by a predominant lymphocytic infiltrate around epithelial ducts of exocrine glands on salivary gland biopsy (3). Extraglandular manifestations of pSS, once thought to be uncommon, occur in up to 25% of patients. Patients can be afflicted by severe interstitial lung disease (4), cutaneous vasculitis (5), peripheral neuropathy (6), and hematologic complications such as lymphoma (7). They are also at increased risk for celiac sprue (8) and complications from Helicobacter pylori infection (9) such as mucosa-associated lymphatic tissue (MALT)-type lymphoma.Much of our understanding of the clinical presentation of renal involvement in pSS is based on case reports (10–26) and small retrospective cohorts (27–29). Tubulointerstitial nephritis (TIN) remains the most common presentation of renal involvement in pSS and CD4/CD8 T cell subsets are reported to predominate (27,30). This is often characterized by a distal (type I) renal tubular acidosis (RTA) and less commonly proximal (type II) RTA (Fanconi syndrome) (11,31–33). GN is thought to be a rare occurrence, with only case reports available in the literature (10,12–23), and tends to be a late development (34) in the course of the disease.We examined the renal pathologic findings and clinical trends of all patients with pSS who underwent kidney biopsy (KB) at Mayo Clinic since 1967 and assembled a case series of patients with pSS with renal pathologic disease evaluated by renal biopsy at a single center in the United States. This case series aimed to describe the common clinical presentations of renal disease in pSS, the array of pathologic findings of renal involvement in pSS, and trends during follow-up and treatment.     

Prevalence of Renal Artery and Kidney Abnormalities by Computed Tomography among Healthy Adults

Background and objectives: Management of incidental renal artery and kidney abnormalities in patients undergoing computed tomography scans is a clinical challenge because their frequency in healthy subjects has not been precisely estimated. Therefore, the prevalence and management of these abnormalities were determined among a large cohort of potential kidney donors undergoing protocol evaluations.Design, setting, participants, & measurements: All patients at the Mayo Clinic who underwent computed tomographic angiography and urography as part of their kidney donor evaluation between 2000 and 2008 were identified. Radiographic reports were abstracted for abnormalities of the renal arteries and kidneys. The prevalence of radiographic abnormalities was stratified by age and gender, and the effect on approval for kidney donation was determined.Results: Among 1957 potential kidney donors, the mean ± SD age was 43 ± 12 years, and 58% were women. The most common abnormalities were kidney stones (11%), focal scarring (3.6%), fibromuscular dysplasia (2.8%), and other renal artery narrowing or atherosclerosis (5.3%). Fibromuscular dysplasia, focal scarring, parenchymal atrophy, and upper tract dilation were more common in women. Renal artery narrowing, focal scarring, and indeterminate masses increased with age. Overall, 25% of potential donors had at least one abnormality. However, these incidental radiographic abnormalities contributed to exclusion from donation in only 6.7% of potential donors.Conclusions: Incidental radiographic abnormalities of the renal arteries and kidneys are common. The majority of imaging findings are not perceived to be harmful enough to prevent kidney donation, but future studies are needed to determine their clinical relevance.Potential living kidney donors are a useful population in which to examine the prevalence and perceived significance of renal artery and kidney abnormalities in asymptomatic healthy adults because the donors undergo a rigorous evaluation for underlying disease that might preclude donation. Although the evaluation protocols vary between transplant centers, general guidelines have been developed (1). In addition to the standard history and examination, a laboratory evaluation is performed. Patients who have an abnormally low GFR, proteinuria, or significant risk factors for chronic kidney disease (e.g., diabetes mellitus) are not approved for kidney donation (2). Protocol renal imaging has also become a component of the potential kidney donor evaluation. Imaging of the kidneys and renal vessels not only defines surgical anatomy but also detects occult pathology that might preclude donation (3). Prior studies examining the prevalence of radiographic kidney abnormalities in normal adults have been limited by small sample size (4–20). The purpose of this study is to determine the variety and prevalence of incidental renal artery and kidney abnormalities present by computed tomographic (CT) angiography and urography among asymptomatic healthy adults. In addition, we assessed whether these abnormalities differed by age or gender, reviewed their clinical management, and assessed their effect on approval for donation.     

Longitudinal Relationships among Coronary Artery Calcification,Serum Phosphorus,and Kidney Function

Background and objectives: Coronary artery calcification (CAC) is common in advanced chronic kidney disease (CKD), yet its onset and time course are uncertain. The study objective was to assess longitudinal relationships among CAC, kidney function, and traditional and putative cardiovascular disease (CVD) risk factors.Design, setting, participants, & measurements: This is a prospective cohort analysis from the Spokane Heart Study, a long-term observational study of community-dwelling adults who were assessed every 2 yr for CAC (electron-beam computed tomography), CVD risk factors, and laboratory testing. Estimated GFR (eGFR) was determined by the reexpressed Modification of Diet in Renal Disease equation.Results: CAC was present in 28% (245 of 883) at baseline. After 6 yr, new-onset CAC developed in 33% (122 of 371); severity increased from a median CAC score of 38 to 152 in those with baseline CAC. Neither eGFR (101 ± 34 versus 104 ± 31 ml/min per 1.73 m², respectively) nor serum phosphorus (3.25 ± 0.49 versus 3.29 ± 0.48 mg/dl, respectively) differed by CAC presence or absence at baseline; however, multivariate models (generalized estimating equations for incidence and prevalence) revealed that independent predictors of CAC over time were greater baseline CAC scores, higher serum phosphorus levels, lower eGFR levels, and traditional CVD risk factors. Each 1-mg/dl increase in phosphorus imparted odds ratios for CAC of 1.61 (incidence) and 1.54 (prevalence), risks comparable to traditional CVD risk factors.Conclusions: CAC becomes more frequent and severe over time. Higher levels of serum phosphorus and reduced kidney function independently predicted CAC.When kidney function declines, death from cardiovascular disease (CVD) predominates over progression of chronic kidney disease (CKD) (1–3). Excess CVD risk even in early-stage CKD is not fully explained by traditional, Framingham-type CVD risk factors. In ESRD, coronary artery calcification (CAC) is a common finding associated with clinical CVD (4). In ESRD, the extent of CAC is related to serum phosphorus and the calcium-phosphorus product along with traditional CVD risk factors (4,5). Many years ago, a meticulous autopsy study of hemodialysis patients described a distinctive coronary artery pathology characterized by medial calcification (6). Vascular pathology was similar in nondialysis patients with CKD, but arterial calcification was less frequent and severe (6). Although CAC appears before ESRD, its onset and time course in relation to decreased kidney function are unknown.Experimental models point to hyperphosphatemia, a hallmark of bone and mineral metabolism disorders in CKD, as a potential causal link to vascular calcification. Uremic rodents are protected from developing aortic calcification and/or atherosclerotic lesions by treatment with noncalcemic phosphate binders (7,8). In gene knockout models for phosphorus-regulating factors, fibroblast growth factor 23, or Klotho, nonuremic mice develop elevated serum phosphorus levels and vascular calcification (9,10). Observational studies of people with and without clinically apparent kidney disease also show that higher serum phosphorus levels within the “normal” range are associated with clinical CVD and CAC (11–14). The study objective was to assess longitudinal relationships among CAC, kidney function, and traditional and putative CVD risk factors, including serum phosphorus, among participants in the Spokane Heart Study, a long-term observational study of adults in the community.     

Impact of Age and Overt Proteinuria on Outcomes of Stage 3 to 5 Chronic Kidney Disease in a Referred Cohort

Background and objectives: Population-based studies have reported outcomes and risk factors for patients with chronic kidney disease (CKD), defined primarily by decreased estimated GFR (eGFR). They are characterized by old age, low proteinuria level, and stage 3 CKD. However, many patients referred to nephrologists are younger and have overt proteinuria and advanced CKD. This study evaluated the association between outcomes and those factors among referred CKD patients.Design, setting, participants, & measurements: We retrospectively reviewed 461 referred patients with stage 3 to 5 CKD from January 2003 to December 2007. Key outcomes were death and ESRD. Patients were followed from the time of first serum creatinine measurement to December 2009.Results: The median age of subjects was 67.0 years, and median follow-up was 3.2 years. Overt proteinuria was present in 57.0% of subjects. For stage 3, 4, and 5 CKD, cumulative mortality and probability of ESRD at 3 years was 9.5 and 6.5%, 11.2 and 27.8%, and 16.5 and 79.1%, respectively. Using proportional-hazards regression models, age was a determinant for death, whereas overt proteinuria was strongly associated with ESRD. Among stage 3 CKD patients older than 65 years without overt proteinuria, the incidence of death before renal replacement therapy (RRT) was 2.8/100 patient-years and none had ESRD. In patients with advanced CKD and overt proteinuria, the incidence of ESRD was substantially higher than that of death before RRT.Conclusions: Stratification by age, proteinuria level, and CKD stage could predict the competing outcomes of death before RRT and ESRD among CKD patients.The diagnostic classification of chronic kidney disease (CKD) (1) is useful to understand kidney function and risk of complications. Previous studies have demonstrated that CKD increases the risks of cardiovascular morbidity and mortality (2–13). The prevalence of CKD has been shown to be high in population studies (10% to 13%) (14–16), and for CKD patients in the general population, the risk of death, particularly due to cardiovascular disease (CVD), is much higher than that of ESRD requiring renal replacement therapy (RRT) (12–13). Population-based studies have also reported that CKD patients have a mean age of about 70 years (15–18), and most of them had little proteinuria/albuminuria and stage 3 CKD (15–16), primarily defined by decreased estimated GFR (eGFR).However, many patients referred to nephrologists are relatively younger than those in population-based studies, and often have overt proteinuria and advanced CKD (19–20). A small but significant number of those patients should be carefully evaluated and intensively managed by nephrologists. It is important to clarify the prognoses and risk factors for these patients. Japan is an appropriate country for a survival analysis of CKD patients who have undergone nephrology care as it has a generous social-welfare system, kidney screening program, and public medical care insurance; thus almost all patients can receive sufficient care, including RRT (21).In the present study, we investigated outcomes among referred patients with stage 3 to 5 CKD without previous RRT and evaluated the association between outcomes and clinically relevant risk factors, including age and proteinuria. We also assessed whether CKD patients experienced ESRD or died before RRT, and compared the incidence of these outcomes after stratifying patients by CKD stage, age, and proteinuria level. Unlike previous studies on the prognosis of CKD patients, we followed up patients even after they started chronic RRT.