Time-dependent lipid profile inversely associates with mortality in hemodialysis patients - independent of inflammation/malnutrition.

BACKGROUND: Patients with end-stage kidney disease have an extremely high cardiovascular mortality rate, but there is a paradoxical relationship between lipid profile and survival in haemodialysis patients. To investigate whether inflammation/malnutrition confounds the associations between lipids and mortality, we studied a full lipid profile comprising of five clinically well-established lipid parameters and its associations with mortality in a large, multinational European cohort with a median follow-up >3 years. METHODS: The association between quartiles of total, high-density lipoprotein (HDL), non-HDL, low-density lipoprotein (LDL) cholesterol, as well as triglyceride, levels and the end-points of all-cause, cardiovascular and non-cardiovascular mortality was assessed in a cohort of 5,382 incident, adult haemodialysis patients from >250 Fresenius Medical Care dialysis centres out of 14 participating countries using baseline and time-dependent Cox models. Analyses were fully adjusted and stratified for inflammation/malnutrition status and other patient-level variables. RESULTS: Time-dependent quartiles of total, HDL, non-HDL and LDL cholesterol were inversely associated with the hazard for all-cause, cardiovascular and non-cardiovascular mortality. Compared with the lowest quartile of the respective lipid parameter, hazard ratios of other quartiles were <0.86. Similar, albeit weaker, associations were found with baseline lipid profile and mortality. Neither time-dependent nor baseline associations between lipid profile and mortality were affected by inflammation/malnutrition, statin use or geography. CONCLUSIONS: Baseline and time-dependent lipid profile are inversely associated with mortality in a large, multicentre cohort of incident haemodialysis patients. Inflammation/malnutrition is not a confounder nor effect modificator of the associations between lipid profile and mortality in European haemodialysis patients.

Chronic kidney disease, cognitive decline, and incident dementia: the 3C Study.

OBJECTIVE: To evaluate the longitudinal relationship between moderate chronic kidney disease (CKD), decline in kidney function, and microalbuminuria with subsequent cognitive decline and incident dementia. METHODS: This study is based on a population-based cohort of 7,839 subjects over 65 years with 7 years of follow-up. Glomerular filtration rate was estimated (eGFR) using the CKD-EPI equation. Global cognitive function was assessed using the Mini-Mental State Examination (MMSE) and dementia was actively screened and diagnosed. RESULTS: At baseline, 12% of the participants had an eGFR <60 mL/min/1.73 m(2). A total of 564 incident dementia cases were diagnosed during the follow-up. Low baseline eGFR values were not associated with an increased risk of incident dementia or cognitive decline over the 7-year follow-up, except a borderline significant association with dementia with vascular component. However, eGFR decline over the first 4-year period was associated with higher risk of dementia with vascular component (relative risk = 5.35 [1.76-16.3] in those with eGFR decline >4 mL/min/1.73 m(2)/y compared with those <4) and with higher cognitive decline on the MMSE (-0.12 points, p < 0.01 in those with eGFR >4 mL/min/1.73 m(2)/y compared with those <4) in the 3 subsequent years. Proteinuria tended to be associated with an increased risk of subsequent dementia with vascular component. CONCLUSIONS: Despite a large sample and a long follow-up, we found no increased risk of cognitive decline or dementia associated with low eGFR level. However, faster eGFR decline was associated with global cognitive decline and incident dementia with vascular component, suggesting that this association may be mediated by vascular mechanisms.

[Evaluation of renal function: an update]. / Evaluation de la fonction rénale: une actualisation.

During the last years, GFR estimation has received substantial attention with a focus on comparing results of new formulas with GFR measurements, and standardization of creatinine assays. Calibration of creatinine should improve performances. However, frequently used equations have lower precision in high GFR populations. This is the reason why a continuous effort in improving predicting equations is still needed. The use of calibrated creatinine, the onset of new GFR markers such as cystatin C, and pooling data across many study populations are underway to develop better prediction.

[Cystatin C: current step and future prospects]. / Cystatine C: point d'étape et perspectives.

Cystatin C is a low molecular weight-protein, which may replace creatinine for the evaluation of renal function, particularly in the clinical settings where the relationship between creatinine production and muscular mass impairs the clinical performance of creatinine. This paper intends to summarize the current knowledge about the physiology of cystatin C and about its use as a renal marker, alone or within formulas developed to estimate the glomerular filtration rate. Moreover, this paper reviews the recent data about potential other applications of cystatin C, especially in cardiology, in oncology and in clinical pharmacology.

Arterial stiffness and enlargement in mild-to-moderate chronic kidney disease.

Chronic kidney disease (CKD) is associated with an increased risk of cardiovascular morbidity and mortality. Arterial stiffness and remodeling have been well documented in patients with end-stage renal disease, but little is known about arterial phenotype in CKD patients with moderate reduction in glomerular filtration rate (GFR). In total, 95 patients (58+/-15 years, mean+/-s.d.) with CKD and GFR measured by renal clearance of (51)Cr-ethylenediaminetetraacetate were compared to 121 hypertensive patients without CKD (59+/-11 years), and 57 normotensive subjects (56+/-6 years). Common carotid artery diameter, intima-media thickness (IMT), distensibility, and Young's elastic modulus were noninvasively determined with a high-definition echotracking system. Patients with CKD had a significantly larger carotid internal diameter than in hypertensives and normotensives (6.32+/-1.05, 5.84+/-0.74, and 5.50+/-0.64 m x 10(-3), respectively; P<0.001), resulting in 25% and 11% increases in circumferential wall stress, respectively, since no significant difference in IMT was observed. Carotid distensibility and elastic modulus did not significantly differ between CKD and hypertensives; normotensives had significantly higher distensibility and lower elastic modulus than CKD and hypertensive patients. Carotid-femoral pulse wave velocity was significantly higher in CKD patients than in hypertensives and normotensives. In multivariate analyses either involving the entire population or restricted to CKD patients, GFR was independently and strongly related to carotid diameter and elastic modulus. Arterial enlargement and increased arterial stiffness occur in parallel with the decline in renal function in patients with mild-to-moderate CKD.

[Is sentinel node biopsy feasible in endometrial cancer? Results in 26 patients]. / La biopsie du ganglion sentinelle dans les cancers de l'endomètre est-elle faisable? Résultats sur 26 cas.

OBJECTIVES: To evaluate detection rate, topography and false negatives of sentinel lymph node in endometrial cancer. MATERIAL AND METHODS: Twenty-six patients were included. Lymphoscintigraphy was performed the day before surgery. Preoperative detection of the sentinel lymph node was performed with cervical blue dye injection and a gamma probe. Separate pathology examinations were performed for sentinel and non-sentinel lymph nodes. Sentinel lymph nodes were examined with hematoxylin-eosin-safran stain, and immunohistochemistry if negative. RESULTS: Twenty-six patients had a positive lymphoscintigraphy. Preoperative detection was successful in 21 patients (80.8%): the detection rate with isotopic method, 19 cases (73.1%), was superior to the dye detection, 15 cases (57.7%). No isolated lombo-aortic sentinel lymph nodes were observed, and all sentinel lymph nodes were in the ilio-obturator region. Seven patients presented lymphatic spread, and 4 of them had at least one sentinel node. There was one micrometastasis in sentinel node, associated with isolated tumoral cells in pelvic lymphadenectomy. There was no false negative of sentinel node. CONCLUSION: The biopsy of sentinel lymph node is a feasible procedure in endometrial cancer. There was one micrometastatic sentinel node. However there was no isolated lomboaortic sentinel lymph node in this study.

Reproducibility of the ventricular synchronization parameters assessed by multiharmonic phase analysis of radionuclide angiography in the normal heart.

Radionuclide angiography (RNA) permits analysis of contractility and conduction abnormalities. We determined the parameters of normal ventricular synchronization, assessed the reproducibility of the technique, and compared first harmonic (1H) and third harmonic (3H) analysis. Forty-four normal subjects (28 men and 16 women) were studied. RNA was performed in left anterior oblique (LAO) and left lateral (LL) projections. The onset (To), mean time (Tm), total contraction time (Tt) for right ventricle (RV) and left ventricle (LV), interventricular time (T(RV-LV) = Tm(LV - Tm(RV)) in LAO, and the apex-to-base time (T(a-b)) in LL were measured on the histograms of the time-activity curve. Reproducibility (R) was tested by studying 26 consecutive patients with two successive RNAs. RV starts contracting 25 ms before LV (To(RV) = 29 +/- 37 ms; To(LV) = 54 +/- 39 ms; mean +/- SD) with a 37 ms longer total contraction time. T(RV-LV) is 3 +/- 16 ms. In LL projection, apex and base contract synchronously: T(a-b) = 2 +/- 16 ms. 3H analysis enlarges all duration parameters (To, Tm and Tt), but does not alter synchronization (deltaT(a-b) and deltaT(RV-LV) between 1H and 3H <1%, p = NS). Reproducibility of the duration (T(tLV) and T(tRv)) and synchronization parameters (T(a-b) and T(RV-LV)) is high (R < or = 2.2%). In conclusion, the simultaneous contraction of right and left ventricles and of apex and base can be quantified by RNA phase analysis with high reproducibility. These results, consistent with published electrophysiological data, provide the basis for further non-invasive investigations of ventricular resynchronization in patients with basal electrical or mechanical asynchrony.

Expression of rat thick limb Na/H exchangers in potassium depletion and chronic metabolic acidosis.

BACKGROUND: Regulation of renal transporter expression has been shown to support adaptation of transporter activities in several chronic situations. Basolateral and apical Na/H exchangers (NHE) in medullary thick ascending limb (MTAL) are involved in NH4+ and HCO3+ absorption, respectively. The NH4+ absorption rate in Henle's loop is increased in chronic metabolic acidosis (CMA) and potassium depletion (KD), which may be secondary to the increased NH4+ concentration in luminal fluid and/or to an increased NH4+ absorptive capacity of MTAL. HCO3- absorptive capacity in Henle's loop is increased in CMA and decreased in metabolic alkalosis, but is unchanged in KD despite the presence of metabolic alkalosis. The present study compared the effects of NH4Cl-induced CMA and KD on the expression of basolateral NHE-1 and the effect of KD on the expression of apical NHE-3 in MTAL. METHODS: NHE-1 and NHE-3 mRNAs and proteins were assessed by a competitive reverse transcription-polymerase chain reaction (RT-PCR) method and semiquantitative immunoblots, respectively, in MTAL-purified suspensions from rats with CMA and KD. RESULTS: NHE-1 protein abundance was similarly increased (approximately 90%) at two and five weeks of KD, while NHE-1 mRNA amount in MTAL cells was increased at two weeks of KD and returned to normal values by five weeks of KD. In contrast, NHE-1 mRNA and protein abundance did not change in CMA. NHE-3 protein abundance remained unchanged in both two and five weeks of KD, while NHE-3 mRNA was unchanged by two weeks of KD and reduced by approximately 50% at five weeks of KD. CONCLUSIONS: The results suggest the following: (1) in KD, where the increased NH4+ concentration of luminal fluid that favors NH4+ absorption is counterbalanced by a decrease in BSC1 expression and activity, the increased NHE-1 expression may support an increased MTAL NH4+ absorptive capacity in CMA, NHE-1 expression is not specifically regulated and remains unchanged, suggesting that the increase in NH4+ concentration in luminal fluid is the main determinant of increased NH4+ absorption in MTAL. (2) In KD, NHE-3 expression did not decrease despite the presence of metabolic alkalosis, in agreement with the unchanged HCO3- absorptive capacity of Henle's loop.

Paracellin-1 is critical for magnesium and calcium reabsorption in the human thick ascending limb of Henle.

BACKGROUND: A new protein, named paracellin 1 (PCLN-1), expressed in human thick ascending limb (TAL) tight junctions, possibly plays a critical role in the control of magnesium and calcium reabsorption, since mutations of PCLN-1 are present in the hypomagnesemia hypercalciuria syndrome (HHS). However, no functional experiments have demonstrated that TAL magnesium and calcium reabsorption were actually impaired in patients with HHS. METHODS: Genetic studies were performed in the kindred of two unrelated patients with HHS. Renal magnesium and calcium reabsorption in TAL were analyzed in one homozygous affected patient of each family, one patient with extrarenal hypomagnesemia (ERH), and two control subjects (CSs). RESULTS: We found two yet undescribed mutations of PCLN-1 (Gly 162 Val, Ala 139 Val). In patients with HHS, renal magnesium and calcium reabsorptions were impaired as expected; NaCl renal conservation during NaCl deprivation and NaCl tubular reabsorption in diluting segment were intact. Furosemide infusion in CS markedly increased NaCl, Mg, and Ca urinary excretion rates. In HHS patients, furosemide similarly increased NaCl excretion, but failed to increase Mg and Ca excretion. Acute MgCl(2) infusion in CS and ERH patient provoked a dramatic increase in urinary calcium excretion without change in NaCl excretion. When combined with MgCl(2) infusion, furosemide infusion remained able to induce normal natriuretic response, but was unable to increase urinary magnesium and calcium excretion further. In HHS patients, calciuric response to MgCl(2) infusion was blunted. CONCLUSION: This study is the first to our knowledge to demonstrate that homozygous mutations of PCLN-1 result in a selective defect in paracellular Mg and Ca reabsorption in the TAL, with intact NaCl reabsorption ability at this site. In addition, the study supports a selective physiological effect of basolateral Mg(2+) and Ca(2+) concentration on TAL divalent cation paracellular permeability, that is, PCLN-1 activity.

Biventricular pacing in severe heart failure patients reverses electromechanical dyssynchronization from apex to base.

Biventricular (BV) pacing is an emerging treatment for patients with severe dilated cardiomyopathy and ventricular asynchrony. Radionuclide angioscintigraphy has shown that BV can reduce activation delays between left (LV) and right ventricles (RV), but alterations of electromechanical asynchrony between the LV base and apex have not been previously described. Radionuclide angioscintigraphy with Tc99m red cell labeling was performed in 21 patients, 64 +/- 17 years of age, in NYHA functional Class III or IV, and with a mean QRS duration of 180 +/- 15 ms. Right (RVEF) and LV ejection fraction (LVEF), and the synchronization between LV apex and base (Tab) in the left lateral view, were measured by a phase analysis program (1) at baseline, (2) on day 8 after BV pacemaker implantation (D8), and (3) at 12-month follow-up in BV (M12). BV pacing reversed Tab from 42 +/- 47 ms at baseline to -57 +/- 75** on D8, and -37 +/- 76** on M12. LVEF increased from 17.8 +/- 6.3% to 19.9 +/- 8.3 on D8, and 24.2 +/- 10.8* on M12, and RVEF increased from 27.6 +/- 16% to 29.9 +/- 16 on D8 and 34.1 +/- 12.1* on M12 (*P < 0.05, **P < 0.001). A close correlation was found between early LV apex-to-base resynchronization induced by BV and late increase in LVEF (r = 0.59**). In parallel with its known interventricular resynchronization effect, BV pacing reverses the apex-to-base ventricular activation sequence, causing early contraction of the LV base followed by the apex. These changes persisted up to 12 months along with an improvement in LV systolic function.

Kidney cortex cells derived from SV40 transgenic mice retain intrinsic properties of polarized proximal tubule cells.

BACKGROUND: We have developed a nontransformed immortalized mice kidney cortex epithelial cell (MKCC) culture from a mouse transgenic for a recombinant plasmid adeno-SV40 (PK4). Methods and Results. After 12 months in culture, the immortalized cells had a stable homogeneous epithelial-like phenotype, expressed simian virus 40 (SV40) T-antigen, but failed to induce tumors after injection in nude mice. Epithelium exhibited polarity with an apical domain bearing many microvilli separated from lateral domains by junctional complexes with ZO1 protein. The transepithelial resistance was low. A Na-dependent glucose uptake sensitive to phlorizin and a Na-dependent phosphate uptake sensitive to arsenate were present. Western blot analysis of membrane fractions showed that anti-Na-Pi antiserum reacted with a 87 kD protein. The Na/H antiporters NHE-1, NHE-2, and NHE-3 mRNAs were detected by reverse transcription-polymerase chain reaction (RT-PCR). The corresponding proteins with molecular weights of 111, 81, and 75 kD, respectively, could be detected by Western blot and were shown to be functional. Parathyroid hormone (PTH) induced a tenfold increase in cAMP and reduced the Na-dependent phosphate uptake and NHE-3 activity, as observed in proximal tubule cells. Isoforms alpha, delta, epsilon, and zeta of protein kinase C (PKC) were present in the cells. Angiotensin II (Ang II) elicited a translocation of the PKC-alpha toward the basolateral and apical domains. CONCLUSION: Thus, the MKCC culture retains the structural and functional properties of proximal tubular cells. To our knowledge, it is the first cell culture obtained from transgenic mice that exhibits the NHE-3 antiporter and type II Na-Pi cotransporter. MKCCs also display functional receptors for PTH and Ang II. Thus, MKCCs offer a powerful in vitro system to study the cellular mechanisms of ion transport regulation in proximal epithelium.

Adaptation of NHE-3 in the rat thick ascending limb: effects of high sodium intake and metabolic alkalosis.

The present studies examined the effects of chronic NaCl administration and metabolic alkalosis on NHE-3, an apical Na+/H+ exchanger of the rat medullary thick ascending limb of Henle (MTAL). NaCl administration had no effect on NHE-3 mRNA abundance as assessed by competitive RT-PCR, as well as on NHE-3 transport activity estimated from the Na+-dependent cell pH recovery of Na+-depleted acidified MTAL cells, in the presence of 50 microM Hoe-694, which specifically blocks NHE-1 and NHE-2. Two models of metabolic alkalosis were studied, one associated with high sodium intake, i.e., NaHCO3 administration, and one not associated with high sodium intake, i.e., chloride depletion alkalosis (CDA). In both cases, the treatment induced a significant metabolic alkalosis that was associated with a decrease in NHE-3 transport activity (-27% and -25%, respectively). Negative linear relationships were observed between NHE-3 activity and plasma pH or bicarbonate concentration. NHE-3 mRNA abundance and NHE-3 protein abundance, assessed by Western blot analysis, also decreased by 35 and 25%, respectively, during NaHCO3-induced alkalosis, and by 47 and 33%, respectively, during CDA. These studies demonstrate that high sodium intake has per se no effect on MTAL NHE-3. In contrast, chronic metabolic alkalosis, regardless of whether it is associated with high sodium intake or not, leads to an appropriate adaptation of NHE-3 activity, which involves a decrease in NHE-3 protein and mRNA abundance.

Chronic metabolic acidosis enhances NHE-3 protein abundance and transport activity in the rat thick ascending limb by increasing NHE-3 mRNA.

Chronic metabolic acidosis (CMA) is associated with an adaptive increase in the bicarbonate absorptive capacity of the rat medullary thick ascending limb (MTAL). To specify whether NHE-3, the apical MTAL Na/H exchanger, is involved in this adaptation, NHE-3 mRNA was quantified by a competitive RT-PCR using an internal standard which differed from the wild-type NHE-3 mRNA by an 80-bp deletion. CMA increased NHE-3 mRNA from 0.025+/-0.003 to 0.042+/-0.009 amol/ng total RNA (P < 0.005). NHE-3 transport activity was measured as the initial proton flux rate calculated from the Na-dependent cell pH recovery of Na-depleted acidified MTAL cells in the presence of 50 microM HOE694 which specifically blocks NHE-1, the basolateral MTAL NHE isoform. CMA caused a 68% increase in NHE-3 transport activity (P < 0.001). In addition, CMA was associated with a 71% increase in NHE-3 protein abundance (P < 0.05) as determined by Western blot analysis on MTAL membranes using a polyclonal antiserum directed against a cytoplasmic epitope of rat NHE-3. Thus, NHE-3 adapts to CMA in the rat MTAL via an increase in the mRNA transcript that enhances NHE-3 protein abundance and transport activity.