BACKGROUND

Patients on peritoneal dialysis (PD) have protein loss through peritoneal membrane (PM) and experience changes in permeability of the membrane. Paricalcitol is a selective vitamin D receptor activator with an effect upon systemic inflammation and an inhibitory effect upon the renin-angiotensin-aldosterone system (RAAS).

METHODS

This study explores the possible effect of paricalcitol upon the PM in 23 patients on PD with high iPTH levels. Peritoneal kinetic studies were performed before and after paricalcitol, measuring also ultrafiltration/ day, peritoneal protein losses and proteinuria. Results were compared with a control group of 15 patients not receiving any form of vitamin D.

RESULTS

With a mean dose of 1.3 μg/day, peritoneal protein loss decreased from 0.91 ± 0.35 to 0.76 ± 0.26 g/l (15.4%) (p = 0.007) and from 7.55 to 6.46 g/d (p < 0.033), and ultrafiltration increased from 844 to 1,002 ml/d (15.8%) (p = 0.037) and from 284 to 323 ml/4 h. (NS), with minimal change in the creatinine dialysate/plasma ratio 0.67 ± 0.12 vs. 0.65 ± 0.11. Proteinuria decreased from 1.65 to 1.25 g/l (21.9%) (p = 0.01) and iPTH decreased from 668 ± 303 to 291 ± 148 pg/ml (p < 0.001). In the control group, no changes in peritoneal membrane permeability and proteinuria were found.

CONCLUSIONS

The results of the study indicate that paricalcitol is effective in treating hyperparathyroidism in patients on PD, and suggest an effect upon proteinuria and PM permeability (not previously reported), with diminished peritoneal protein loss and increased ultrafiltration. The antiinflammatory, antifibrotic and RAAS-modulating actions described for paricalcitol may be responsible for these findings, and could be important for preserving the peritoneum as a dialyzing membrane.

To assess the coexistence of pancreatic alterations and elevation of parathyroid hormone (PTH) as contributors to morbidity, a study correlating evidence of histological pancreatitis with elevated PTH has been undertaken. A retrospective autopsy study of pancreatic histology in 21 patients who died during maintenance hemodialysis (MD) (group I) compared their level of serum PTH with a group of patients who died without historical or clinical evidence of renal insufficiency (group II). Each patient in this group had creatinine clearance of less than 5 ml/min and had been treated with hemodialysis from 4 to 120 months preceding death. There was a difference in the incidence of histological and PTH levels between groups I and II. A total of 15 out of 21 (71.4%) of group I patients had severe pancreatic disease. By contrast, none of the group II control patients had marked pancreatic disease (p less than 0.01). Also a statistically different demarcation was present between groups I and II on the basis of PTH levels. Group I patients with pancreatic disease (n = 5) had a higher PTH level (567 +/- 76 pg/ml) than those (n = 6) without diseased pancreata (218 +/- 6.5 pg/ml). These data infer that a possible correlation between measured iPTH excess and histological alterations in pancreas may exist.

BACKGROUND

Controversies exist whether disturbances in mineral and bone disorder (MBD) normalise or persist after kidney transplantation. We assessed markers of MBD in patients with well-functioning kidney transplants to minimise confounding by reduced transplant function.

METHODS

In this cross-sectional study, 40 patients aged ≥18 years who received a first kidney transplant more than 10 years ago were included. A well-functioning transplant was defined as an estimated glomerular filtration rate (eGFR) ≥45 ml/min per 1.73 m(2).

RESULTS

Median time since transplantation was 18.3 years (inter quartile range (IQR) 12.2-26.2). Albumin-corrected serum calcium levels were above upper limit of normal in 15% of the transplanted patients, and serum phosphate levels below lower limit of normal in 31%. The median levels of intact parathyroid hormone (iPTH) and intact fibroblast growth factor 23 (iFGF23) were significantly higher than that in a group of healthy volunteers (11.3 pmol/l (IQR: 8.7-16.2) vs 4.4 pmol/l (IQR: 3.8-5.9), P<0.001 and 75.0 pg/ml (IQR: 53.3-108.0) vs 51.3 pg/ml (IQR: 36.3-67.6), P=0.004 respectively). There was a non-significant reduction in soluble Klotho (sKlotho) levels (605 pg/ml (IQR: 506-784) vs 692 pg/ml (IQR: 618-866)). When compared with a control group matched for eGFR, levels of iPTH were significantly higher (P<0.001), iFGF23 had a non-significant trend towards higher levels and sKlotho towards lower levels.

CONCLUSIONS

In long-term kidney transplant patients with well-functioning kidney transplants, we found inappropriately high levels of iPTH and iFGF23 consistent with a state of persistent hyperparathyroidism. We speculate that the primary defect, FGF23 resistance, has evolved in the parathyroid gland before transplantation, and persists due to long half-life of the parathyroid cells.

Management of secondary hyperparathyroidism (SHPT) in chronic kidney disease patients on hemodialysis (HD) can be challenging. Conventional treatments can lead to hypercalcemia and hyperphosphatemia, both of which are associated with vascular and soft tissue calcification and increased risk of cardiovascular disease. We report the effect of treatment with the Type II calcimimetic cinacalcet on vascular calcification in a HD patient with SHPT. A 40-year-old male with a 24-year history of kidney failure secondary to mesangial proliferative glomerulonephritis, commenced HD in October 2004 following chronic graft dysfunction. The patient was admitted to hospital with renal insufficiency and metabolic abnormalities. An anatomopathological study showed calcium (Ca) deposits in the alveolar septa, bronchial wall and pulmonary arterioles. Parathyroid methoxy isobutyl isonitrile (MIBI) scintigraphy revealed multiglandular parathyroid disease and an ectopic gland behind the sternal notch. Serum intact parathyroid hormone (iPTH) was repeatedly found to be>> or = 2,500 pg/ml, and was accompanied by significant abnormalities in phosphorus (P) and Ca metabolism which were difficult to control. The patient was initially treated with sevelamer, low dose calcium carbonate, a low P and reduced protein diet and high doses of intravenous erythropoietin. In addition, he received HD with a high efficiency membrane for 4.5 hours, 4-times weekly. Treatment with cinacalcet was initiated at 30 mg/day and adjusted to achieve National Kidney Foundation Kidney Disease Outcomes Quality Initiative targets for iPTH, P, Ca and Ca-P product. One year following cinacalcet treatment, a chest x-ray showed a moderate reduction in Ca deposits, a bone X-ray showed a significant reduction in vascular calcifications, and parathyroid MIBI scintigraphy showed a disappearance of ectopic focus and minimal remains of glands. Significant reductions in calcemia were controlled by concomitant modifications to oral Ca supplementation, Ca concentration in the dialysis liquid, and administration of paricalcitriol. In the second year of treatment, iPTH was maintained within the target range, with moderate rises in P and stabilization of serum Ca. An echocardiogram showed an improvement in left ventricular hypertrophy. Chest and hand X-rays showed a progressive reduction in calcifications. Radiology showed an improvement in bone morphology, with reduced trabeculation and better cortical definition in the phalanx bones. In conclusion, the changes in iPTH, P and Ca associated with cinacalcet treatment were accompanied by reduced vascular and soft tissue calcification in this patient. There were no cardiovascular events and the patient experienced a marked improvement in quality of life.

OBJECTIVE

Hyperlipidemia is frequently encountered in uremic patients and may be worsened by continuous ambulatory peritoneal dialysis (CAPD) treatment. The lipid abnormalities in these patients may be multifactorial. Insulin resistance (or its compensatory hyperinsulinemia) is commonly observed in uremic patients, but its association with hyperlipidemia in these patients has not been studied.

METHODS

Lipid profiles of 35 nondiabetic nonobese patients undergoing CAPD for more than 1 year (mean 52.3 months) were studied. Current laboratory data and parameters related to peritoneal dialysis (PD) within the previous 3 months were recorded. After overnight fasting and interruption of PD, an oral 75-g glucose tolerance test (OGTT) was examined.

RESULTS

After CAPD treatment for more than 12 months, these patients had higher serum triglyceride (TG) (p = 0.001) and total cholesterol (p = 0.0058) levels than their values before commencing CAPD. Twelve of 14 patients with serum TG higher than 200 mg/dL (high-TG) were diagnosed de novo, in contrast with only 1 patient diagnosed of de novo hypercholesterolemia (total cholesterol>> 240 mg/dL). There was no difference in age, gender, body mass index (BMI), duration of PD treatment, serum albumin, hematocrit, intact serum parathyroid hormone (iPTH), peritoneal glucose load, solute transport, or weekly Kt/V urea between normal-TG and high-TG patients. After adjusting for age, gender, BMI, weekly Kt/V urea, and iPTH, the high-TG patients had higher levels of area under the curve for glucose (AUC(Glu)), area under the curve for insulin (AUC(Ins)), and AUC(Ins)/AUC(Glu) ratios (F = 10.63, 10.14, and 8.65; p = 0.0029, 0.0035, and 0.0065, respectively), indicating that the high-TG patients were more insulin resistant. There were 24 patients with normal glucose tolerance (NGT), and 11 patients with impaired glucose tolerance (IGT). The IGT group had higher serum TG (F = 10.43, p = 0.003) and total cholesterol (F = 8.05, p = 0.009) than the NGT group, after adjusting for BMI, duration of CAPD treatment, peritoneal glucose load, solute transport, serum albumin, and lipid levels before PD treatment. TheTG levels after CAPD treatment were positively correlated with AUC(Glu), AUC(Ins), and AUC(Ins)/AUC(Glu) ratio (r = 0.48, 0.53, and 0.49; p = 0.0037, 0.001, and 0.0028, respectively).

CONCLUSIONS

These results indicate that insulin resistance is an important factor in the development of hypertriglyceridemia in CAPD patients.

OBJECTIVE

Vascular calcification is a strong predictor of cardiovascular and all-cause mortality. Coronary artery calcification is more frequent, more extensive, and progresses more rapidly among subjects with chronic kidney disease (CKD) than in the general population. It is also considered to be a marker of coronary heart disease, the main cause of increased morbidity and mortality among patients either on maintenance hemodialysis or after transplantation. The aim of this study was to evaluate the effect of renal transplantation on the calcium scores of coronary arteries among hemodialysis patients.

METHODS

The study included 31 patients (17 males and 14 females) of age range 19 to 56 years (mean, 38.08 +/- 13.49 years) who had been hemodialyzed 3 times a week for 6 to 49 months (mean, 20 +/- 15.72 months) prior to renal transplantation. Homocysteine, intact parathyroid hormone (iPTH), calcium, phosphate, and indices of lipid metabolism such as total cholesterol, high-density lipoprotein (HDL), low-density lipoprotein (LDL), and triglycerides were measured before and at 6 months after transplantation. To evaluate coronary artery calcification, all patients underwent multidetector coronary computed tomography (MDCT) using the Agatston technique for calcium scoring (CS) and color Doppler ultrasound for IMT before and at 6 months after the procedure.

RESULTS

The prevalence of coronary artery calcifications among dialysis patients was 96% with a total CS ranging from 0 to 198. It affected more than 2 vessels in >50% of subjects with higher calcium scores in the left anterior descending artery (LAD). Mean total CS decreased significantly from pre- (39.82 +/- 63.05) to postoperation (24.34 +/- 39.55; P < .001). CS decreased from pre- to postprocedure in the left main artery (7.4 +/- 13.03 to 4.3 +/- 8.54; P < .01) and in LAD (15.76 +/- 23.53 to 10.23 +/- 15.81; P < .01 and in the circumflex (7.8 +/- 14.98 to 5.1 +/- 9.57; P < .001) and in the right coronary artery (9.2 +/- 17.18 to 4.7 +/- 8.18; P < .01). The CS before the procedure correlated significantly with age (r = .39; P < .005), P (r = .33; P < .05), Ca x P product (r = .39; P < .05), iPTH (r = .43; P < .001), and IMT (r = .56; P < .0001). There was a linear, meaningful correlation between CS and iPTH and Ca x P product reduction after renal transplantation.

CONCLUSIONS

Renal transplantation significantly reduced coronary artery calcification among dialysis patients. It linearly correlated with a decrease in iPTH and Ca x P product at an early period after renal transplantation.

BACKGROUND

Metabolic acidosis contributes to renal osteodystrophy and together with hyperphosphatemia, hypocalcemia and altered vitamin D metabolism may result in increased levels of intact parathyroid hormone (iPTH) and metastatic calcifications. However, the impact of the correction of metabolic acidosis on iPTH levels and calcium-phosphate metabolism is still controversial.

METHODS

The effects of the correction of metabolic acidosis on serum concentrations of iPTH, calcium (Ca), phosphate (PO(4)) and alkaline phosphatase were prospectively studied. Twelve uremic patients on maintenance hemodialysis (HD) for 49 months (median; range 6-243 months) with serum bicarbonate levels < or =20 mmol/l were studied before and after 3 months of oral sodium bicarbonate supplementation. Predialysis serum bicarbonate, arterial pH, ionized calcium, plasma sodium, plasma potassium, serum creatinine, hemoglobin, K(t)/V, postdialysis body weight, predialysis systolic and diastolic blood pressure were also evaluated before and after correction.

RESULTS

Serum bicarbonate levels and arterial pH increased respectively from 19.3 +/- 0.6 to 24.4 +/- 1.2 mmol/l (p < 0.0001) and 7.34 +/- 0.03 to 7.40 +/- 0.02 (p < 0.001). iPTH levels decreased significantly from 399 +/- 475 to 305 +/- 353 pg/ml (p = 0.026). No changes in total serum Ca, plasma PO(4), serum akaline phosphatase, K(t)/V, serum creatinine, hemoglobin, body weight, predialysis systolic and diastolic blood pressures were observed. iCa decreased significantly.

CONCLUSIONS

Our study demonstrates that the correction of metabolic acidosis in chronic HD patients reduces iPTH concentrations in HD patients with secondary hyperparathyroidism possibly by a direct effect on iPTH secretion.

OBJECTIVE

Patients on long-term dialysis may develop secondary hyperparathyroidism (SHPT), which causes varying degrees of bone mass loss. This condition is treated with parathyroidectomy (PTX). We investigated whether serial serum bone turnover markers could predict changes in bone mineral density (BMD) after PTX.

METHODS

Renal patients on maintenance haemodialysis who received PTX for refractory SHPT (n = 26, male/female: 13/13; mean age: 48·6 ± 10·7 year) and control subjects without SHPT (n = 25) were prospectively followed for 1 year at two tertiary hospitals in Taiwan.

METHODS

Serum intact parathyroid hormone (iPTH), bone-specific alkaline phosphatase (BAP) and type 5b tartrate-resistant acid phosphatase (TRAP) were measured serially. Additionally, femoral neck (FN) and lumbar spine (LS) BMD were measured before and 1 year after PTX.

RESULTS

After PTX, iPTH levels decreased markedly and persistently. BMDs increased in both the FN and LS, but particularly in the LS. Serum BAP progressively increased to a peak at 2 weeks after PTX. Serum TRAP levels progressively decreased over 6 months after PTX. In univariate correlation analyses, baseline iPTH correlated positively with T-score changes in FN (r = 0·45, P = 0·021) and LS (r = 0·48, P = 0·013). In multivariate regression models, changes in FN T-scores were negatively predicted by baseline BAP levels (r = -0·615, P = 0·005) and baseline FN T-scores (r = -0·563, P = 0·012), and they were positively predicted by baseline TRAP(r = 0·6, P = 0·007). Changes in LS T-scores were positively predicted by baseline TRAP values (r = 0·528, P = 0·01) and negatively predicted by the percentage change in BAP after 2 weeks (r = -0·501, P = 0·015).

CONCLUSIONS

Parathyroidectomy provided marked, sustained improvements in BMD for up to 1 year. Furthermore, markers of bone turnover predicted 1-year changes in FN and LS BMDs after PTX.

Many hemodialysis patients undergo subtotal parathyroidectomy (sPTx) because of the complications of severe secondary hyperparathyroidism. In some patients, however, renal osteodystrophy fails to regress. In uremia, the high levels of circulating immunoreactive parathyroid hormone (iPTH) which accompany osteitis fibrosa are associated with accelerated bone formation. After sPTx, the fall in iPTH may decrease mineralization and increase osteoid formation. Bone histomorphometry, densitometry, and serum biochemical determinations were done in 20 patients on regular maintenance hemodialysis and after sPTx in 3 additional patients. Densitometry at the radial diaphysis was inversely related to osteoid volume so that low bone mineral content indicated excess osteoid. Elevated serum alkaline phosphatase activity was associated with osteitis fibrosa. Tetracycline double labels identified 5 patients with an increased rate of mineralization. Levels of iPTH and serum phosphorus were positively correlated to the mineralization rate. The fall in iPTH after sPTx was accompanied by a reduction in osteitis fibrosa and decreased mineralization. The nonosteoblastic osteoid became more abundant. After sPTx some hemodialysis patients may convert the osteitis fibrosa to a poorly treatable low turnover osteomalacia.

BACKGROUND

The recently developed non-invasive high-intensity focussed ultrasound (HIFU) technique for the destruction of parathyroid adenomas could also be of interest for the treatment of secondary hyperparathyroidism (SHP) in patients with chronic kidney disease (CKD). We conducted a pilot study using this method.

METHODS

Five chronic haemodialysis patients with severe SHP underwent one to three HIFU treatments, respectively. They had at least one or two enlarged parathyroid glands, which were accessible to this technique.

RESULTS

In Patients 1-I and 5-V, serum intact parathyroid hormone (iPTH) could be successfully reduced in the long run. In Patient 3-N, serum iPTH decreased dramatically down to the normal range but increased again subsequently. In Patients 2-E and 4-D, transient reductions in serum iPTH were also obtained but HIFU failed to correct SHP during follow-up. Serum total calcium and phosphorus decreased in four among the five patients, either transiently or permanently. Serum total alkaline phosphatases were reduced in four of five patients. Side effects included local oedema, transient impairment of vocal cord mobility and bitonal voice.

CONCLUSIONS

HIFU treatment may be of help in controlling SHP in selected patients with CKD. Further experience is clearly needed.

Previous reports have suggested that secondary hyperparathyroidism is extremely uncommon in hepatic osteomalacia. This, together with other findings, has led to suggestions that in chronic liver disease there may be selective resistance of bone to vitamin D or a specific bone mineralization defect unrelated to Vitamin D. To examine these possibilities, twenty-five patients with chronic liver disease have been studied by bone biopsy, serum calcium and inorganic phosphate, plasma 25-hydroxyvitamin D, plasma immunoreactive parathormone (iPTH), fasting urine cAMP, fasting renal tubular maximal reabsorptive capacity for phosphate (TmP/GFR) and fine grain hand x-rays. Nine of the patients had osteomalacia on bone biopsy, eight of these had subnormal levels of plasma 25-hydroxyvitamin D and the other had a borderline result. Based on the consensus of all the tests, five of these had evidence of secondary hyperparathyroidism. Plasma iPTH was higher in patients with osteomalacia than in patients without osteomalacia (P less than 0.01) or controls (P less than 0.01). Urine cAMP was higher in patients with osteomalacia than in patients without osteomalacia (P less than 0.001) or controls (P less than 0.01). TmP/GFR was significantly lower in patients with osteomalacia than in controls (P less than 0.05) but not significantly different from patients without osteomalacia. The findings of this study indicate that hyperparathyroidism occurs in a substantial proportion of patients with the osteomalacia of chronic liver disease. Moreover, osteomalacia in chronic liver disease is clearly related to reduced levels of plasma 25-hydroxyvitamin D. We conclude that hepatic osteomalacia is a vitamin D deficiency state and there is no need to suggest an unusual aetiology.

The long-term clinical effects of the use of a low calcium concentration in the dialysate are largely unknown. For this reason, the influence of low-calcium dialysate on parathyroid hormone (PTH) secretion in hemodialysis patients and its long-term effect on the severity of secondary hyperparathyroidism were studied. In 35 hemodialysis patients, the dialysate calcium concentration was lowered from 1.75 to 1.25 mmol/L. Twelve months later, serum iPTH levels increased significantly from 18.6 to 33.2 pmol/L and so did alkaline phosphatase levels, from 210 to 330 IU/L, without significant changes in serum calcium or phosphorus levels. Hemodialysis with low-calcium dialysate (1.25 mmol/L) induced a net calcium loss in 10 patients, without modifications in ionized serum calcium levels. In addition, mean serum iPTH increased 20% over baseline levels, reaching the maximal level at 30 min after the start of hemodialysis with low-calcium dialysate. In contrast, mean serum iPTH levels drop dramatically at 30 min of hemodialysis with high-calcium dialysate (1.75 mmol/L). It was concluded that low-calcium dialysate worsens secondary hyperparathyroidism in hemodialysis patients, probably by inducing a negative calcium balance and causing repetitive stimulation of PTH secretion in each dialysis. The maintenance of normal serum calcium levels could be due to PTH-induced calcium mobilization from bone.

Clinical and experimental studies indicate a possible link between high serum levels of fibroblast growth factor 23 (FGF23), phosphate, and parathyroid hormone (PTH), deficiency of active vitamin D (1,25D) and klotho with the development of pathological cardiac remodeling, i.e., left ventricular hypertrophy and myocardial fibrosis, but a causal link has not been established so far. Here, we investigated the cardiac phenotype in klotho hypomorphic (kl/kl) mice and Hyp mice, two mouse models of elevated FGF23 levels and klotho deficiency, but differing in parameters of mineral metabolism, by using histology, quantitative real-time PCR, immunoblot analysis, and serum and urine biochemistry. Additionally, the specific impact of calcium, phosphate, PTH, and 1,25D on hypertrophic growth of isolated neonatal rat cardiac myocytes was investigated in vitro. Kl/kl mice displayed high serum Fgf23 levels, increased relative heart weight, enhanced cross-sectional area of individual cardiac myocytes, activated cardiac Fgf23/Fgf receptor (Fgfr) 4/calcineurin/nuclear factor of activated T cell (NFAT) signaling, and induction of pro-hypertrophic NFAT target genes including Rcan1, bMHC, brain natriuretic peptide (BNP), and atrial natriuretic peptide (ANP) as compared to corresponding wild-type (WT) mice. Investigation of fibrosis-related molecules characteristic for pathological cardiac remodeling processes demonstrated ERK1/2 activation and enhanced expression of Tgf-β1, collagen I, and Mmp2 in kl/kl mice than in WT mice. In contrast, despite significantly elevation of serum and cardiac Fgf23, and reduced renal klotho expression, Hyp mice showed no signs of pathological cardiac remodeling. Kl/kl mice showed enhanced serum calcium and phosphate levels, while Hyp mice showed unchanged serum calcium levels, lower serum phosphate, and elevated serum iPTH concentrations compared to corresponding WT mice. In cultured cardiac myocytes, treatment with both calcium or phosphate significantly upregulated endogenous Fgf23 mRNA expression and stimulated hypertrophic cell growth and expression of pro-hypertrophic genes. The treatment with PTH induced hypertrophic cell growth only, and stimulation with 1,25D had no significant effects. In conclusion, our data indicate that Hyp mice, in contrast to kl/kl mice appear to be protected from pathological cardiac remodeling during conditions of high FGF23 levels and klotho deficiency, which may be due, at least in part, to differences in mineral metabolism alterations, i.e., hypophosphatemia and lack of hypercalcemia.

A 1-year prospective, open, randomized, controlled trial was conducted as a pilot study to examine the effect of intermittent administration of 200 IU intranasal salmon calcitonin and 1alpha(OH) vitamin D3 [1alpha(OH)D3] on bone mineral density (BMD) of the lumbar spine and hip as well as on the markers of bone metabolism in women with postmenopausal osteoporosis. A total of 102 randomly recruited women received either 200 IU intranasal salmon calcitonin (Miacalcic nasal 200, Novartis, Basel, Switzerland) daily, 1 month on-1 month off, 0.25 mug 1alpha(OH)D3, and 500 mg elemental calcium continuously (n=57 women) or only 0.25 mug 1alpha(OH)D3 and 500 mg calcium (n=45 women) for a period of 1 year. BMD of the lumbar spine and hip plus biochemical markers reflecting calcium (Ca) metabolism and bone turnover [serum Ca, serum phosphorus, intact parathormone (iPTH), total and bone-specific alkaline phosphatase, osteocalcin levels, 24-h urinary Ca, morning fasting urinary Ca/creatinine, and Pyrilinks-D/creatinine ratio] were measured at the beginning of the study before treatment and after 6 and 12 months of treatment. Baseline characteristics of participants, including age, body mass index, lumbar and hip BMD, and biochemical markers were similar between the two groups. A total of 91 patients completed the study (50 in the salmon calcitonin nasal spray group and 41 in the other group). Lumbar BMD increased significantly in the salmon calcitonin group from baseline (3.0%, p=0.005) and in comparison to the non-calcitonin-treated group (p=0.009). The salmon calcitonin group also had a significant increase in femoral neck BMD compared with baseline values (3.1%, p=0.0005) and in comparison to the non-calcitonin-treated group (p=0.0005) in Ward's triangle BMD (2.9% from baseline values, p=0.009) and in comparison to the non-calcitonin-treated group (p=0.005) in trochanteric BMD (3.4% from baseline values, p=0.007) and in comparison to the non-calcitonin-treated group (P=0.01). Urinary Ca/creatinine and Pyrilinks-D/creatinine levels were significantly decreased from baseline in the salmon calcitonin-treated group (-6.1 and -6.3%, respectively, p=0.001). Bone-specific alkaline phosphatase levels were also significantly decreased from baseline in the salmon calcitonin-treated group (-3.6%, p=0.003). In the same group, a significant decrease in iPTH serum levels compared to baseline values (-2.5%, p=0.005) and in comparison to the non-calcitonin-treated group (p=0.005) was noted. In conclusion, in this pilot study, 1-year intermittent treatment with 200 IU intranasal salmon calcitonin and low doses of 1alpha(OH)D3 produced a significant effect on bone turnover and BMD in postmenopausal women with osteoporosis.

The aim of the study was to elucidate whether cyclosporine- and tacrolimus-based immunosuppression impairs tubular reabsorption of phosphate after kidney transplantation. Sixty cadaveric allograft recipients were included in the study. Forty patients receiving triple immunosupression with cyclosporine, azathioprine, and prednisone were studied for 1, 6, 12 months (groups A1 and A2, 20 patients) and for 24, 30, and 36 months (groups B1 and B2, 20 patients) after transplantation. Twenty patients who received tacrolimus with steroid withdrawal after 3 months were included in the study (group C). Recipients from groups A2 and B2 were treated additionally with vitamin D and calcium carbonate. Serum iPTH, 25-OHD, 1.25(OH)(2)D concentrations were determined, and TRP (mmol/L) and TmP/GFR (mmol/L) were calculated using Walton-Bijvoet nomogram. Higher values of total calcium serum concentration in group A were detected. Lower inorganic phosphate serum concentrations were detected in groups A and C, in contrast to group B where they remained within normal values. TmP/GFR values were significantly higher in group C in the first and third examination in comparison with patients of group A. Moreover, TRP index values were significantly higher than analogous values of groups A and B. Tacrolimus-treated patients exhibit significantly faster recovery from tubular phosphate reabsorption impairment compared to cyclosporine-treated recipients. No correlation between iPTH, 25-OHD, 1,25(OH)(2)D concentration, and tubular dysfunction parameters was observed. Amelioration of phosphate handling, in spite of hyperparathyroidism intensity, can follow early steroid avoidance.

BACKGROUND

Abnormalities of calcium and phosphorus metabolism in end-stage renal disease patients can persist after transplantation. We investigated their natural courses after transplantation, their risk factors for posttransplantation hypercalcemia and hypophosphatemia, and their impacts on allograft outcomes.

METHODS

We retrospectively analyzed a total of 490 adult patients who underwent kidney transplantations between 2000 and 2009.

RESULTS

The serum calcium continued to increase, and reaching a plateau at around 3 months after transplantation. Thereafter it decreased, reaching a stable level by 2 years. Forty-four patients (9.0%) displayed hypercalcemia within 1 year; it persisted longer than that in 23 subjects (4.7%). Both longer dialysis duration (odds ratio [OR] 1.423; 95% confidence interval [CI], 1.192-1.699) and high intact serum parathyroid hormone (iPTH) level before transplantation (OR 1.002; 95% CI, 1.000-1.003) increased the risk for posttransplantation hypercalcemia. After a significant decrease during the first week, the serum phosphorus level increased, becoming stable between 1 and 6 months after transplantation. Hypophsphatemia occurred in 379 patients (77.3%) with 336 patients displaying hypophosphatemia without hypercalcemia. However, neither hypercalcemia nor hypophosphatemia influenced graft outcomes. Eight patients underwent pretransplantation parathyroidectomy, whereas 4 patients underwent posttransplantation parathyroidectomy. Neither group of patients experienced posttransplantation hypercalcemia.

CONCLUSIONS

Both hypercalcemia and hypophosphatemia are common after renal transplantation, especially among patients with a long history of dialysis before transplantation. Strict control of hyperparathyroidism including parathyroidectomy before transplantation may be the appropriate approach to these abnormalities.

OBJECTIVE

To evaluate free and bioavailable 25-hydroxyvitamin D (25[OH]D) levels in primary hyperparathyroidism (PHPT) patients.

METHODS

Fifty PHPT patients and 50 healthy age-, gender-, and body mass index (BMI)-matched control subjects were enrolled. Levels of 25(OH)D were determined by a radioimmunoassay and vitamin D-binding protein (DBP) were determined by an enzyme-linked immunosorbent assay. Free and bioavailable 25(OH)D were calculated utilizing equations that use average binding coefficients for DBP and albumin.

RESULTS

There was no significant difference in age and BMI between PHPT patients and controls (P>.05). Levels of 25(OH)D, DBP, and DBP-bound 25(OH)D were lower in PHPT patients compared to controls (P<.01). There was no significant difference in free and bioavailable 25(OH)D levels between PHPT patients and controls (P>.05). Levels of intact parathyroid hormone were inversely correlated with free (r = -0.217; P<.05) and bioavailable 25(OH)D levels (r = -0.296; P<.01).

CONCLUSIONS

Serum total 25(OH)D levels were lower, while free and bioavailable 25(OH)D remained similar in patients with PHPT compared to controls. We suggest that low 25(OH)D levels might not reflect true vitamin D nutrition status in PHPT patients.

BACKGROUND

25(OH)D = 25-hydroxyvitamin D BMI = body mass index DBP = vitamin D-binding protein iPTH = intact parathyroid hormone PHPT = primary hyperparathyroidism.

<AbstractText>Normocalcemic primary hyperparathyroidism (NPHPT) is characterized by elevated parathyroid hormone (PTH) levels with persistently normal calcium levels. The diagnosis of NPHPT assumes the absence of secondary causes of elevated PTH levels. The objective of the current study is to examine levels of free 25(OH)D in NPHPT subjects and healthy controls.</AbstractText><AbstractText>10 NPHPT subjects and 20 controls who were age, sex, race and body mass index (BMI) matched were examined. The diagnosis of NPHPT was made if subjects had: 1) a serum calcium level 8.6-10.4 mg/dl, total 25(OH)D 30-40 ng/ml and intact PTH (<em>iPTH</em>) ≥66 pg/mL; 2) normal renal and liver function. Serum total 25(OH)D levels were measured by radioimmunoassay, and free 25(OH)D levels were determined using an enzyme-linked immunoassay.</AbstractText><AbstractText>Mean age of NPHPT subjects was 59.5±5.4 years and mean BMI was 28.4±2.3, which was not significantly different from the mean age and BMI of the control subjects. Mean total 25(OH)D levels was 31.9±1.7 ng/ml in NPHPT subjects and did not differ from that of the controls (32.7±3.3 ng/ml, P = 0.52). However, mean free 25(OH)D was 5.0±0.9 pg/ml in NPHPT subjects, which was 20% lower compared to the mean of the controls (6.2±1.3 pg/ml, P = 0.03). Serum <em>iPTH</em> levels were inversely correlated with levels of measured free 25(OH)D (r = -0.42, P < 0.05), but did not correlate with levels of total 25(OH)D (r= -0.14 P>0.10).</AbstractText><AbstractText>Measured free 25(OH)D levels are lower in NPHPT subjects than in healthy control subjects. We suggest that some NPHPT subjects may actually have secondary hyperparathyroidism based on their free 25(OH)D levels.</AbstractText>

The present study was aimed to evaluate the calcium bioavailability of pearl powder for humans. Both the nanonized pearl powder (NPP) and the micronized pearl powder (MPP) prepared by a dry grinder were tested. A group of healthy adults free from hyperthyroidism, hypercalcemia, and hypocalcemia were recruited as the subjects for oral administration with the pearl powder. The bioavailability was evaluated by the serum total calcium increment, the serum intact parathyroid hormone (iPTH) reduction, and the urine calcium/creatinine ratio increment in 6 h after administration. The results show better absorption and retention of calcium from NPP, as reflected with the shorter time elapsed before the maximum concentration of calcium appeared in the serum, higher iPTH reduction, more calcium absorption, and higher maximum calcium concentration (C(max)) in serum after ingestion, than that from MPP. We conclude that pearl powder is a beneficial source of calcium for adults and that nanonization improves its calcium bioavailability.

OBJECTIVE

We evaluated the association between inflammation and oxidative stress with carotid intima media thickness (cIMT) and elasticity increment module (E(inc)) in pediatric patients with chronic kidney disease (CKD).

METHODS

This analytical, cross-sectional study assessed 134 children aged 6-17 years with CKD. Anthropometric measurements and biochemistry of intact parathyroid hormone (iPTH), high-sensitivity C-reactive protein (CRP), interleukin (IL)-6, IL-1β, reduced glutathione (GSH), malondialdehyde, nitric oxide, and homocysteine were recorded. Bilateral carotid ultrasound (US) was taken. Patients were compared with controls for cIMT and E(inc) using ≥ 75 percentile (PC).

RESULTS

Mean cIMT was 0.528 ± 0.089 mm; E(inc) was 0.174 ± 0.121 kPa × 10(3); cIMT negatively correlated with phosphorus (r -0.19, p =0.028) and the calcium × phosphorus (Ca × P) product (r -0.26, p =0.002), and positively with iPTH (r 0.19,p =0.024). After adjusting for potential confounders, hemodialysis (HD) (β=0.111, p =<0.001), automated peritoneal dialysis (APD) (β=0.064, p =0.026), and Ca x P product(β=-0.002, p =0.015) predicted cIMT (R(2)=0.296). In patients on dialysis, HD (β=0.068, p =0.010), low-density lipoprotein cholesterol (LDL-C) (β=0.001, p =0.048), and GSH(β=-0.0001, p=0.041) independently predicted cIMT (R(2)=0.204); HD, hypoalbuminemia, and high iPTH increased the risk of increased cIMT. In dialysis, E(inc) was inversely associated with GSH, and in predialysis, Ca × P correlated with/predicted E(inc) (β=0.001, p =0.009).

CONCLUSIONS

cIMT and E(inc) strongly associate with several biochemical parameters and GSH but not with other oxidative stress or inflammation markers.

Persistent hyperparathyroidism is the most frequent cause of hypercalcemia after renal transplantation, namely, hypercalcemia is observed in about 10% of patients at 1 year. This prospective study evaluated the effect of cinacalcet, a second-generation calcimimetic, on serum calcium and parathyroid hormone (PTH) blood levels among recipients with hypercalcemia due to persistent hyperparathyroidism. Thirteen renal transplanted patients (10 women and 3 men) were included based upon: a total serum calcium >10.5 mg/dL; intact PTH (iPTH) blood levels >65 pg/mL; graft function >6 months, and stable maintenance immunosuppressive therapy. After inclusion, patients initially received 30 mg of cinacalcet once daily. The mean time of initiation was 64 +/- 7 months after transplantation. The follow-up was 6 months. The median dose of cinacalcet was 30 mg/d (5 patients received 60 mg/d). During the study period, renal function remained stable. Serum calcium levels decreased significantly from 11.7 +/- 0.39 to 10.35 +/- 0.8 mg/dL (P < .001). Serum phosphate levels increased from 2.82 +/- 0.34 mg/dL to 3.2 +/- 0.41 mg/dL (P < .05). The mean iPTH levels significantly decreased from 308 +/- 120 to 210 +/- 80 pg/mL (P < .05). There were no significant change in 25-hydroxyvitamin D3 blood levels (from 17.7 +/- 9 to 17.4 +/- 6 ng/mL), but the 1,25-dihydroxyvitamin D3 blood levels decreased from 53.8 +/- 18.2 to 32.6 +/- 9.2 pg/mL (P < .01). There were no significant changes in blood levels of alkaline phosphatase, magnesium, bicarbonate, calciuria, phosphaturia, and immunosuppressive drugs. Cinacalcet was well tolerated in all patients except one who had gastrointestinal discomfort. In summary, cinacalcet corrected hypercalcemia and improved phosphatemia in patients with persistent hyperparathyroidism after transplantation with no negative effects on renal function.

Serum levels of 1,25-dihydroxyvitamin D3 (1,25(OH)2D3), 25-hydroxyvitamin D3 (25(OH)D3), C-terminal immunoreactive PTH (iPTH), calcium and phosphate, and endogenous creatinine clearance (Clcr) were measured in 34 patients with primary hyperparathyroidism. Clcr ranged from 13 to 161 ml/min (mean 72). S-iPTH was elevated in 82% of the patients and correlated positively to serum calcium (r = 0.74, P less than 0.001) and inversely to Clcr (r = -0.50, P less than 0.02). S-25(OH)D3 was reduced in 28% of the patients and depended on regular multivitamin supplementation (P less than 0.005). S-1,25(OH)2D3 was increased in 26% of the patients and decreased in 9%. It was positively correlated to S-25(OH)D3 (r = 0.39, P less than 0.05) and Clcr (r = 0.42, P less than 0.02) and inversely to serum levels of calcium (r = -0.39, P less than 0.05), phosphate (r = -0.42, P less than 0.02) and iPTH (r = -0.40, P less than 0.05). Multiple regression analysis revealed a positive correlation to 25(OH)D3 when Clcr was taken into account and to Clcr when S-25(OH)D3 was taken into account. When both variables were considered no significant partial correlations were found between S-1,25(OH)2D3 and serum calcium, phosphate and PTH, respectively. It is concluded that serum levels of 25(OH)D3 and renal function are the main determinants for S-1,25(OH)2D3 in primary hyperparathyroidism.

To restore damaged parathyroid function, parathyroid tissue engineering is the best option. Previously, we reported that differentiated tonsil-derived mesenchymal stem cells (dTMSC) restore in vivo parathyroid function, but only if they are embedded in a scaffold. Because of the limited biocompatibility of Matrigel, however, here we developed a more clinically applicable, scaffold-free parathyroid regeneration system. Scaffold-free dTMSC spheroids were engineered in concave microwell plates made of polydimethylsiloxane in control culture medium for the first 7days and differentiation medium (containing activin A and sonic hedgehog) for next 7days. The size of dTMSC spheroids showed a gradual and significant decrease up to day 5, whereafter it decreased much less. Cells in dTMSC spheroids were highly viable (>80%). They expressed high levels of intact parathyroid hormone (iPTH), the parathyroid secretory protein 1, and cell adhesion molecule, N-cadherin. Furthermore, dTMSC spheroids-implanted parathyroidectomized (PTX) rats revealed higher survival rates (50%) over a 3-month period with physiological levels of both serum iPTH (57.7-128.2pg/mL) and ionized calcium (0.70-1.15mmol/L), compared with PTX rats treated with either vehicle or undifferentiated TMSC spheroids. This is the first report of a scaffold-free, human stem cell-based parathyroid tissue engineering and represents a more clinically feasible strategy for hypoparathyroidism treatment than those requiring scaffolds.

UNASSIGNED

Herein, we have for the first time developed a scaffold-free parathyroid tissue spheroids using differentiated tonsil-derived mesenchymal stem cells (dTMSC) to restore in vivo parathyroid cell functions. This new strategy is effective, even for long periods (3months), and is thus likely to be more feasible in clinic for hypoparathyroidism treatment. Development of TMSC spheroids may also provide a convenient and efficient scaffold-free platform for researchers investigating conditions involving abnormal calcium homeostasis, such as osteoporosis.

BACKGROUND

Anemia is a common complication among hemodialysis (HD) patients. Although intravenous iron and erythropoiesis-stimulating agents revolutionized anemia treatment, about 10% of HD patients show suboptimal response to these agents. Systemic inflammation and increased serum hepcidin level may contribute to this hyporesponsiveness. Considering the anti-inflammatory properties of omega-3 fatty acids, this study aimed to evaluate potential role of these fatty acids in improving anemia and inflammation of chronic HD patients.

METHODS

In this randomized, placebo-controlled trial, 54 adult patients with HD duration of at least 3 months were randomized to ingest 1800 mg of either omega-3 fatty acids or matching placebo per day for 4 months. Anemia parameters including blood hemoglobin, serum iron, transferrin saturation (TSAT), erythropoietin resistance index, and required dose of intravenous iron and erythropoietin, and serum concentrations of inflammatory/anti-inflammatory markers including interleukin (IL)-6, tumor necrosis factor (TNF)-α, IL-10, C-reactive protein (CRP), hepcidin, ferritin, intact parathyroid hormone (iPTH), and ratios of IL-10 to IL-6 and IL-10 to TNF-α were measured at baseline and after 4 months of the intervention.

RESULTS

45 subjects (25 in the omega-3 and 20 in the placebo group) completed the study. No significant changes were observed in blood hemoglobin, serum iron, TSAT, and required dose of intravenous iron in either within or between group comparisons. Additionally, erythropoietin resistance index as well as required dose of intravenous erythropoietin showed no significant change in the omega-3 group compared to the placebo group. Although a relative alleviation in inflammatory state appeared in the omega-3 group, the mean differences of inflammatory and anti-inflammatory markers between the two groups did not reach statistically significant level except for IL-10-to-IL-6 ratio and serum ferritin level which showed significant changes in favor of omega-3 treatment (P <0.001 and P = 0.003, respectively).

CONCLUSIONS

Omega-3 fatty acids relatively improved systemic inflammation of chronic HD patients without any prominent benefits on anemia. However, future well-designed studies on larger number of patients may determine utility of omega-3 fatty acids in HD patients with respect to inflammation and anemia.