Inflammation and the bone-vascular axis in end-stage renal disease.

UNLABELLED: Bone loss and vascular calcification coincide in patients with end-stage renal disease, similar as to what is observed in the general population. In the present bone biopsy study, we provide further evidence that (micro-)inflammation may represent a common soil for both diseases. INTRODUCTION: Vascular calcification is a common complication of end-stage renal disease (ESRD) and is predictive of subsequent cardiovascular disease and mortality. Mounting evidence linking bone disorders with vascular calcification has contributed to the development of the concept of the bone-vascular axis. Inflammation is involved in the pathogenesis of both disorders. The aim of the present study was to evaluate the relationship between aortic calcification, inflammation, and bone histomorphometry in patients with ESRD. METHODS: Parameters of inflammation and mineral metabolism were assessed in 81 ESRD patients (55 ± 13 year, 68 % male) referred for renal transplantation. Static bone histomorphometry parameters were determined on transiliac bone biopsies performed during the transplant procedure. Aortic calcification was quantified on lateral lumbar X-rays using the Kauppila method. RESULTS: Aortic calcification, low bone turnover, and low bone area were observed in 53, 37, and 21 % of patients respectively. Inflammatory markers were found to be independently associated with aortic calcification (hsIL-6) and low bone area (TNF-α). Low bone area associated with aortic calcification, independent of age, diabetes, and inflammation. CONCLUSIONS: Low bone area and inflammation associates with aortic calcification, independent of each other and traditional risk factors. Our data emphasize the role of (micro-)inflammation in the bone-vascular axis in CKD.

Oxalobacter formigenes treatment confers protective effects in a rat model of primary hyperoxaluria by preventing renal calcium oxalate deposition.

In primary hyperoxaluria, increased hepatic oxalate production sometimes leads to severe nephrocalcinosis and early end-stage kidney disease. Oral administration of Oxalobacter formigenes (O. formigenes), an oxalate-degrading bacterium, is thought to derive oxalate from systemic sources by inducing net enteric oxalate secretion. Here, the impact of O. formigenes on nephrocalcinosis was investigated in an ethylene glycol rat model mimicking hepatic oxalate overproduction in primary hyperoxaluria. Eighteen rats were administered ethylene glycol (0.75% in drinking water) for 6 weeks, of which 9 were treated by oral gavage with O. formigenes and 9 received vehicle. Five control rats did not receive ethylene glycol or O. formigenes. Plasma and urinary oxalate levels, calcium oxalate crystalluria, urinary volume, fluid intake, and serum creatinine were monitored during the study. On killing, nephrocalcinosis was quantified. Ethylene glycol intake induced pronounced hyperoxalemia, hyperoxaluria, calcium oxalate crystalluria and nephrocalcinosis. Concomitant O. formigenes treatment partially prevented the ethylene glycol-induced increase in plasma oxalate and completely prevented nephrocalcinosis. Urinary oxalate excretion was not reduced by O. formigenes treatment. Nevertheless, absence of crystals in renal tissue of O. formigenes-treated ethylene glycol animals indicates that the propensity for oxalate to crystallize in the kidneys was reduced compared to non-treated animals. This is supported by the lower plasma oxalate concentrations in O. formigenes-treated animals. This study shows a beneficial effect of O. formigenes treatment on ethylene glycol-induced hyperoxalemia and nephrocalcinosis, and thus supports a possible beneficial effect of O. formigenes in primary hyperoxaluria.

Update on the role of bone biopsy in the management of patients with CKD-MBD.

Patients with chronic kidney disease (CKD) are at increased risk of fractures. The fracture risk steadily increases along with the progression of renal disease to become several-fold higher in end-stage renal disease (ESRD) patients as compared to age and sex-matched controls. Renal osteodystrophy (ROD) is a heterogeneous group of metabolic bone diseases complicating progressive chronic kidney disease. Bone biomarkers and bone imaging techniques may help to assess bone health and predict fractures in CKD, but do have important inherent limitations. The gold standard for the diagnosis and specific classification of renal osteodystrophy (ROD) remains the (quantitative) histomorphometric analysis of the bone biopsy. By informing on bone turnover and mineralization, a bone biopsy may help guide prevention and treatment of ROD and its consequences. This review aims to present an update on epidemiological and procedural aspects, clinical indications, and histomorphometric analysis of bone biopsies and to define the role of bone biopsy in current CKD-MBD care.

Dialysis.

Willem Kolff designed his "kunstmatige nier" in the early 1940s using spare parts obtained from the Wehrmacht; with it, he treated 14 patients with acute renal failure. Although there has been a tremendous improvement in the design and construction of dialysis machines, the basic concepts are unchanged. In this review we show that dialysis dose and adequacy can now be predicted using simple clinical methodology. The second part of the article discusses the accumulation or excess removal of important biologically active substances which can result in hitherto unseen clinical syndromes and even pose a threat to life.

Low bone turnover in patients with renal failure.

Renal failure inevitably leads to metabolic bone disease. Low turnover disease or adynamic bone disease (ABD) is characterized by a low number of osteoblasts with normal or reduced numbers of osteoclasts. Mineralization proceeds at a normal rate, resulting in normal or decreased osteoid thickness. Recently, it became clear that the relative contribution of the various types of renal osteodystrophy (ROD) to the spectrum of the histologic picture in renal failure patients underwent profound changes during the last 25 years. At the moment, the exact physiopathological mechanisms behind ABD are not yet elucidated, and thus the reason(s) for its increasing prevalence remains poorly understood. A number of epidemiological and experimental data suggest a multifactorial pathophysiologic process, in which hypoparathyroidism and suppression of the osteoblast are the main actors. Compared to adynamic bone disease, osteomalacia has now become a much rarer disease (around 4%), at least in Western countries. On the other hand, recent studies indicate that this particular bone disease entity might still regularly occur in less developed countries. Osteomalacia originates from a direct effect on the mineralization process. With this type of renal bone disease, the effects of secondary hyperparathyroidism on bone are overridden by a number of metabolic abnormalities that finally result in a defective bone mineralization, as occurs, for instance, when the lag time between osteoid deposition and its mineralization is increased. The relationship between exogenous and endogenous vitamin D deficiency (mainly calcitriol) and the histologic finding of osteomalacia in uremic patients is well known. Recent data showed distinctly lowered 25-(OH) vitamin D3 levels in the presence of unaffected calcitriol concentrations in patients with osteomalacic lesions, as assessed radiologically by the presence of Looser's zones. Recently, we found that bone strontium levels were increased in patients with osteomalacia as compared to all other types of ROD. Strontium accumulation appeared to originate mainly from the use of strontium-contaminated dialysate, which resulted from the addition of strontium-containing acetate-based concentrates. Evidence for a causal role of the element in the development of a mineralization defect could be tested experimentally by adding strontium to drinking water in a chronic renal failure rat model.

Al and Si: their speciation, distribution, and toxicity.

OBJECTIVES: In dialysis patients both aluminum (AI) and silicon (Si) may accumulate. Whereas the toxic effects of AI within this population are clearly established, little is known on the role of Si in the development/protection of particular dialysis-related diseases. A clear insight in the protein binding and speciation of trace elements is important to better understand the mechanisms underlying their toxicity/essentiality. Research in this field however is complex and often prone to analytical difficulties and inaccuracies. DESIGN AND METHODS: In the first part of this review techniques used for speciation studies of AI and Si in biological fluids are discussed. Notwithstanding recent technical advances (a) extraneous metal contamination, (b) unrecognized aspecific binding of metals to proteins, and (c) unwanted interactions with separation equipment such as chromatography columns and ultrafiltration membranes remain important pitfalls and often lead to erroneous conclusions. The factors that determine the speciation of AI and Si and their ultimate tissue distribution and toxicity are dealt with in the second part. Here, experimental data obtained with various speciation techniques are linked to in vivo data on the tissue distribution, localization/toxicity of both elements. CONCLUSIONS: A model in which the AI tissue distribution/toxicity is mediated by either its citrate or transferrin bound form is proposed.

Hypozincemia in depression.

This study investigates serum levels of zinc in 48 unipolar depressed subjects (16 minor, 14 simple major and 18 melancholic subjects) and 32 normal volunteers, and the relationships between zincemia and plasma neopterin levels, postdexamethasone adrenocorticotropic hormone and cortisol values, and anorexia-weight loss. Serum zinc levels were significantly lower in major depressed subjects than in normal controls, whereas minor depressed subjects showed intermediate values. There were significant negative correlations between serum zinc, and severity of depression and plasma neopterin concentrations. No significant relationships between zincemia and either postdexamethasone hormone values or anorexia/weight loss were found. The findings suggest that hypozincemia in major depression may be related to activation of cell-mediated immunity in that illness.

Quantitative determination of transferrin in cerebrospinal fluid using an enzyme linked immunosorbent assay.

An enzyme linked immunosorbent assay (ELISA) based method for the determination of transferrin in cerebrospinal fluid (CSF) is described. This method allows transferrin determinations in ultra-small (

Aluminum accumulation in children on chronic dialysis: predictive value of serum aluminum levels and desferrioxamine infusion test.

In 7 children on chronic dialysis the correlation between serum aluminum, aluminum after desferrioxamine (DFO) challenge and bone aluminum was studied. In children the DFO challenge test is not superior to the serum aluminum level for the estimation of aluminum body burden. A significant correlation between serum aluminum and bone aluminum content was found. In all children, except one, aluminum bone content was markedly elevated.

Low serum aluminum values in dialysis patients with increased bone aluminum levels.

BACKGROUND: Using an HPLC/ETAAS hybrid speciation technique we previously demonstrated iron to have a multifold effect on the binding of aluminum to transferrin by limiting the number of available binding sites and decreasing the affinity of transferrin for aluminum. Theoretically, at a 60% iron-transferrin saturation the aluminum-transferrin fraction in serum should not exceed 30 microg/l. In the present study previous experimental data were confronted with recent clinical observations in patients with either normal iron status or iron overload. PATIENTS AND RESULTS: Serum aluminum levels and iron overload: In 38 dialysis patients with a normal iron status and of whom 63% received Al(OH)3 for phosphate binding 26 (68%) had a serum aluminum level >30 microg/l. On the other hand out of 28 transfusional iron overloaded patients; 68% of them taking Al(OH)3, only 1 subject (4%) had a serum aluminum value in excess of 30 microg/l. Taking patients of both groups receiving Al(OH)3 together a significant (p = 0.001) negative correlation (r = -0.5017) was found between the iron-transferrin saturation and the serum aluminum levels. Iron status and parenteral aluminum loading: Also could a significant (p = 0.001) negative correlation (r = -0.6383) between these parameters be found in an independent group of 44 patients which were acutely intoxicated by the use of aluminum-contaminated dialysis fluids. Since in this population aluminum loading occurred parenterally and not via the gastrointestinal tract, a direct effect of iron on the transferrin binding of aluminum rather than on the element's gastrointestinal absorption must have been responsible for the inverse relationship. Bone aluminum and iron overload: Out of 22 patients with a normal iron status (mean + SD serum ferritin: 216 +/- 245 microg/l; iron-transferrin saturation 20.4 +/- 9.6%), all of them having aluminum overload (bone aluminum level >15 microg/g and/or positive Aluminon staining) none of them presented with a serum aluminum <30 microg/l (mean +/- SD: 82.2 +/- 51.6 microg/l). On the other hand out of 13 iron overloaded patients (serum ferritin >800 microg/l; iron-transferrin saturation 61.4 +/- 17.6%) 10 (77%) presented the proposed criteria of aluminum overload in the presence of a serum aluminum level <30 microg/l. CONCLUSIONS: Our data indicate that in dialysis patients with iron overload (iron-transferrin saturation >60%; serum ferritin >800 microg/l) serum aluminum levels are low (<30 microg/l) despite exposure to aluminum by the intake of Al(OH)3 or the use of aluminum-contaminated dialysis fluids. Low serum aluminum nevertheless may be associated with aluminum overload and even aluminum-related bone disease. An effect of iron on the serum aluminum speciation may at least in part explain our observations. Our findings allow a more accurate interpretation of baseline serum aluminum values.

Absence of tubular proteinuria following environmental exposure to chromium.

Certain chromium compounds are known to be nephrotoxic, but renal damage from long-term environmental or occupational exposure to chromium has not been documented. To detect possible preclinical renal damage, we tested the urine of 55 lifelong residents of an area contaminated with chromium landfill. The levels of four proteins were determined in urine samples: (1) human intestinal alkaline phosphatase, (2) tissue nonspecific alkaline phosphatase, (3) N-acetyl-beta-D-glucosaminidase, and (4) microalbumin. No elevated levels of proteins were found, and there were no significant correlations between urine protein and urine chromium concentrations. We concluded that long-term environmental exposure to chromium dust did not lead to tubular proteinuria.

Co-exposure to lead increases the renal response to low levels of cadmium in metallurgy workers.

PURPOSE: Research on the effect of co-exposure to Cd and Pb on the kidney is scarce. The objective of the present study was to assess the effect of co-exposure to these metals on biomarkers of early renal effect. METHODS: Cd in blood (Cd-B), Cd in urine (Cd-U), Pb in blood (Pb-B) and urinary renal biomarkers, i.e., microalbumin (µ-Alb), beta-2-microglobulin (ß2-MG), retinol binding protein (RBP), N-acetyl-ß-d-glucosaminidase (NAG), intestinal alkaline phosphatase (IAP) were measured in 122 metallurgic refinery workers examined in a cross-sectional survey. RESULTS AND CONCLUSIONS: The median Cd-B, Cd-U, Pb-B were: 0.8 µg/l (IQR = 0.5, 1.2), 0.5 µg/g creatinine (IQR = 0.3, 0.8) and 158.5 µg/l (IQR = 111.0, 219.3), respectively. The impact of Cd-B on the urinary excretion of NAG and IAP was only evident among workers with Pb-B concentrations ≥ 75th percentile. The association between Cd-U and the renal markers NAG and RBP was also evidenced when Pb-B ≥ 75th percentile. No statistically significant interaction terms were observed for the associations between Cd-B or Cd-U and the other renal markers under study (i.e., µ-Alb and ß2-MG). Our findings indicate that Pb increases the impact of Cd exposure on early renal biomarkers.

Possibilities and limits of X-ray microtomography for in vivo and ex vivo detection of vascular calcifications.

In the present paper, vascular calcifications due to chronic renal failure in rats are studied by X-ray microtomography (micro-CT). Although micro-CT is traditionally used as an imaging technique, a quantitative analysis of data obtained by in vivo and ex vivo micro-CT is described and discussed. By comparison with traditional destructive methods, such as histomorphometry and atomic absorption, the detection limits for calcium were determined in living rats and in extracted aortas. micro-CT proved to be an effective non-invasive imaging technique allowing non-destructive quantification of ectopic calcifications.

Balanced calcitriol treatment to make children grow.

Short stature is an important clinical problem in children with chronic kidney disease. Calcitriol is used as standard therapy to control secondary hyperparathyroidism, but its effect on linear growth remains controversial. Sanchez and He report multiple effects of calcitriol on chondrocyte proliferation and maturation that might help to clarify this controversy.

Endochondral bone formation is involved in media calcification in rats and in men.

Arterial media calcification is often considered a cell-regulated process resembling intramembranous bone formation, implying a conversion of vascular tissue into a bone-like structure without a cartilage intermediate. In this study, we examined the association of chondrocyte-specific marker expression with media calcification in arterial samples derived from rats with chronic renal failure (CRF) and from human transplant donors. CRF was induced in rats with a diet supplemented with adenine. Vascular calcification was evaluated histomorphometrically on Von Kossa-stained sections and the expression of the chondrocyte markers sox9 and collagen II with the osteogenic marker core-binding factor alpha1 (cbfa1) was determined immunohistochemically. Media calcification was detected in more than half of the rats with CRF. In over half of the rats with severe media calcification, a typical cartilage matrix was found by morphology. All of the animals with severe calcification showed the presence of chondrocyte-like cells expressing the markers sox9, collagen II, and cbfa1. Human aorta specimens showing mild to moderate media calcification also showed sox9, collagen II, and cbfa1 expression. The presence of chondrocytes in association with calcification of the media in aortas of rats with CRF mimics endochondral bone formation. The relevance of this association is further demonstrated by the chondrogenic conversion of medial smooth muscle cells in the human aorta.

Uremia-related vascular calcification: more than apatite deposition.

In the present study, we characterized and compared the mineral phase deposited in the aortic wall of two different frequently used chronic renal failure rat models of vascular calcification. Vascular calcification was induced in rats by either a 4-week adenine treatment followed by a 10-week high-phosphate diet or 5/6 nephrectomy followed by 6 weeks of 0.25 microg/kg/day calcitriol treatment and a high-phosphate diet. Multi-element mapping for calcium and phosphate together with mineral identification was performed on several regions of aortic sections by means of synchrotron X-ray-mu-fluorescence and diffraction. Bulk calcium and magnesium content of the aorta was assessed using flame atomic absorption spectrometry. Based on the diffraction data the Von Kossa-positive precipitate in the aortic regions (N=38) could be classified into three groups: (1) amorphous precipitate (absence of any diffraction peak pattern, N=12); (2) apatite (N=16); (3) a combination of apatite and magnesium-containing whitlockite (N=10). The occurrence of these precipitates differed significantly between the two models. Furthermore, the combination of apatite and whitlockite was exclusively found in the calcitriol-treated animals. These data indicate that in adenine/phosphate-induced uremia-related vascular calcification, apatite is the main component of the mineral phase. The presence of magnesium-containing whitlockite found in addition to apatite in the vitamin D-treated rats, has to be seen in view of the well-known vitamin D-stimulated gastrointestinal absorption of magnesium.