Impact of urinary calcium excretion on kidney, bone, and cardiovascular systems in patients with bone biopsy proven osteoporosis: a longitudinal long-term follow-up study.

The impact of urine calcium on kidney, bone, and cardiovascular systems in osteoporosis is not well-known. In this 7-year-follow-up study, high urine calcium did not affect kidney function but increased risk of kidney stones, while low urine calcium increased cardiovascular diseases. Maintaining normal urine calcium is beneficial for bone health. PURPOSE: Hypercalciuria is common in patients with osteoporosis. However, the long-term effect of urinary calcium excretion (UCaE) on patients' health is not well-examined. The current study aims to assess the impact of UCaE on kidney, bone, and cardiovascular outcomes in patients with bone biopsy proven osteoporosis. METHODS: Longitudinal study of all patients with osteoporosis who underwent bone biopsy and 24-h urine collection between 2008 and 2015 in the University of Kentucky. DXA scans, serum markers, kidney function, and cardiovascular events were recorded until last clinic visit in 2021. Exclusion criteria were secondary osteoporosis or conditions that might substantially impact UCaE. The significant results in univariate analysis were confirmed in multi-variable regression models involving clinically important covariates that might impact patients' outcomes. RESULTS: Study included 230 patients with mean follow-up of 7.2 ± 2.9 years. The mean age was 61 years, and the mean eGFR at baseline was 85 ± 19 ml/min/1.73 m2. Low bone turnover (LBT) was present in 57% and high bone turnover (HBT) in 43% of patients. Hypercalciuria was found in one-third of patients with no difference between LTB and HTB. UCaE correlated positively with eGFR but did not affect the rate of eGFR decline over time. Higher UCaE predicted kidney stones development. We observed U-shaped effect of UCaE on bone health. Hypercalciuria predicted loss of BMD at all sites, but also hypocalciuria was associated with higher loss in total hip BMD. Upper limb fractures were the most observed fractures, and their incidence was higher in patients with hyper- or hypo-calciuria. Lower UCaE independently predicted development of major adverse cardiac events (MACE) and cardiovascular disease (CVD). CONCLUSION: UCaE correlated with eGFR but it did not affect the change of eGFR over time. Patients with normal UCaE had lower incidence of upper limb fractures and less reduction in BMD. Low UCaE predicted MACE and CVD.

Two-year cortical and trabecular bone loss in CKD-5D: biochemical and clinical predictors.

This prospective two-year study of patients on chronic dialysis measured changes in bone mineral density (BMD). Patients with higher baseline BMD and shorter dialysis vintage lost more bone. Treatment with anti-hypertensives acting on the central nervous system was protective against bone loss. Baseline serum levels of sclerostin and bone-specific alkaline phosphatase predicted bone loss. INTRODUCTION: This prospective 2-year study of chronic kidney disease on dialysis (CKD-5D) patients assessed trabecular and cortical bone loss at the hip and spine and examined potential demographic, clinical, and serum biochemical predictors of bone loss. METHODS: Eighty-nine CKD-5D patients had baseline, year 1, and year 2 bone mineral density (BMD) measurements using dual X-ray absorptiometry (DXA) and quantitative computed tomography (QCT); concurrent blood samples were drawn and clinical variables recorded. No study treatments occurred. RESULTS: The 2-year total hip BMD change was - 5.9% by QCT and - 3.1% by DXA (p < 0.001). Spinal BMD was unchanged. QCT total hip cortical mass and volume decreased (- 7.3 and - 10.0%); trabecular volume increased by 5.9% (ps < 0.001). BMD changes did not vary with age, BMI, race, diabetes, smoking, or exercise. Patients with higher baseline BMD and shorter dialysis vintage lost more bone (p < 0.05). Vitamin D analogs and phosphate binders were not protective against bone loss; cinacalcet was protective by univariate but not by multivariable analysis. CNS-affecting antihypertensives were protective against loss of BMD, cortical mass, cortical volume (ps < 0.05) and trabecular mass (p = 0.007). These effects remained after adjustment. BSAP correlated with changes in BMD, cortical mass, and volume (p < 0.01) as did sclerostin (inversely). CONCLUSIONS: There was severe cortical bone loss at the hip best recognized by QCT. Patients with shorter dialysis vintage and less pre-existing bone loss lost more bone, while treatment with CNS-acting antihypertensives was protective. BSAP and sclerostin were useful markers of bone loss.

Femoral bone mineral density reflects histologically determined cortical bone volume in hemodialysis patients.

UNLABELLED: We evaluated the associations between dual energy X-ray absorptiometry (DXA) and histologically determined cancellous and cortical bone volume by controlling for vascular calcifications and demographic variables in hemodialysis (HD) patients. Femoral bone mineral density (f-BMD) was associated with cortical porosity. INTRODUCTION: Assessment of bone mass in chronic kidney disease patients is of clinical importance because of the association between low bone volume, fractures, and vascular calcifications. DXA is used for noninvasive assessment of bone mass whereby vertebral results reflect mainly cancellous bone and femoral results reflect mainly cortical bone. Bone histology allows direct measurements of cancellous and cortical bone volume. The present study evaluates the association between DXA and histologically determined cancellous and cortical bone volumes in HD patients. METHODS: In 38 HD patients, DXA was performed for assessment of bone mass, anterior iliac crest bone biopsies for bone volume, and multislice computed tomography for vascular calcifications. RESULTS: While lumbar bone mineral density (l-BMD) by DXA was not associated with histologically measured cancellous bone volume, coronary Agatson score showed a borderline statistically significant association (P = 0.055). When controlled for age and dialysis duration, f-BMD by DXA was associated with cortical porosity determined by histology (P = 0.005). CONCLUSIONS: The usefulness of l-BMD for predicting bone volume is limited most probably because of interference by soft tissue calcifications. In contrast, f-BMD shows significant association with cortical porosity.

The five most commonly used intact parathyroid hormone assays are useful for screening but not for diagnosing bone turnover abnormalities in CKD-5 patients.

BACKGROUND/AIMS: Assessment of bone turnover for management of renal osteodystrophy is part of routine care in chronic kidney disease Stage 5 (CKD-5) patients. Measurement of intact parathyroid hormone (iPTH) is the most commonly used surrogate marker for bone turnover in these patients. The current study was conducted to evaluate the predictive value of the five most commonly used iPTH assays for bone turnover. METHODS: In a cross-sectional study, 84 CKD-5 patients underwent bone biopsy and blood drawings for determination of iPTH and total serum alkaline phosphatase (AP). RESULTS: Histologically, patients presented with a broad range of bone turnover abnormalities as determined by activation frequency and bone formation rate/bone surface. Results of the five iPTH assays in each patient correlated but were significantly different. There were also significant differences between iPTH measurements at the same bone turnover level. Using Kidney Disease Outcome Quality Initiative recommended iPTH ranges, all assays showed comparably poor diagnostic performance. At 80% specificity, cut-off values of the 5 iPTH assays for low bone turnover varied from 165 to 550 pg/ml and for high bone turnover from 404 to 1,003 pg/ml. Sensitivities at these cutoffs remained below acceptable standards. Addition of AP measurements to iPTH did not improve diagnostic accuracy. CONCLUSIONS: Precise assessment of bone turnover will require utilization of established and novel bone markers reflecting effects of bone turnover rather than measuring only iPTH or other effectors.

Absence of adynamic bone disease in African-Americans with CKD stage 5 after 3 years of vitamin D therapy guided by iPTH and the PTH-(1-84)/N-terminally truncated PTH fragments ratio.

BACKGROUND: Secondary hyperparathyroidism is a frequent complication of chronic kidney disease (CKD). The goal of treatment is to achieve circulating levels of parathyroid hormone (PTH) associated without oversuppression of bone turnover. This is commonly achieved by treatment with vitamin D analogs. Doses of vitamin D compounds are usually monitored by measurement of circulating levels of PTH. STUDY DESIGN: To prospectively assess the effects on bone histology of two different protocols for dosing vitamin D. SETTING AND PARTICIPANTS: African-American patients from the same geographic area, managed by the same team of physicians in three dialysis clinics were studied. Patients were treated with vitamin D for 3 years and underwent bone biopsies for assessment of bone turnover. Dosing of vitamin D during the 3 years prior to the biopsy was done following two different guidelines. One group was treated following K/DOQI guidelines adapted to the bio-intact PTH assay (Protocol A), the other group was managed (Protocol B) following K/DOQI guidelines for intact PTH and/or the ratio of PTH-(1-84)/N-terminally truncated fragments (PTH ratio). PREDICTOR: Levels of circulating PTH and/or PTH ratio. OUTCOME: Prevalence of low bone turnover. MEASUREMENTS: Qualitative and quantitative assessment of bone histology after tetracycline labeling. RESULTS: 7 out of 22 patients managed following Protocol A were found to have low bone turnover (32%) by bone histology. None of the 21 patients managed by Protocol B for guidance of vitamin D therapy, had low bone turnover. LIMITATIONS: Lack of bone biopsy at the beginning of study. CONCLUSIONS: This report indicates that the additional information provided by the PTH ratio represents a distinct advantage in avoiding low bone turnover over the use of a single PTH assay to guide vitamin D dosing in African-American patients with CKD Stage 5 on dialysis.

Improvements in renal osteodystrophy in patients treated with lanthanum carbonate for two years.

AIMS: To investigate the evolution of renal osteodystrophy in patients on maintenance dialysis, treated with lanthanum carbonate (LC) vs. standard phosphate-binder therapy (Stx). MATERIALS AND METHODS: This was a 2-year, randomized, prospective, open-label study during which patients on dialysis received LC titrated to a maximum of 3,000 mg/day or their previous phosphate binder treatment with the aim to achieve target phosphorus levels of < or = 5.9 mg/dl. Paired bone biopsy samples for histomorphometric analysis were available at baseline and 1 year (LC 32, Stx 33), and at baseline and 2 years (LC 32, Stx 24). RESULTS: With similar phosphorus control, Stx was associated with numerically higher serum calcium levels at most visits. Results of osteocalcin and bone-specific alkaline phosphatase in LC patients were higher throughout the study and correlated with parameters of bone formation; however, the differences were not significant. Histological changes in bone turnover and volume were analyzed with respect to normal ranges. There was an improvement in bone turnover in the LC group, which was significant in the 1-year group, and an improvement in bone volume which was significant in the 2-year group. No significant changes in bone turnover or bone volume were observed in the Stx groups. In the 2-year LC group, 1 patient had osteomalacia at baseline and end of therapy, and a mineralization defect developed in 2 other patients. Several possible factors for a mineralization defect were present in these patients, but no single cause could be clearly identified. Histomorphometric parameters of bone, including formation and mineralization, did not correlate with bone lanthanum. No mineralization defect was observed in the Stx groups. CONCLUSION: These findings show that similar phosphorus control with Stx and LC results in higher bone turnover after 1 year and higher bone volume after 2 years with LC.

An assessment of cinacalcet HCl effects on bone histology in dialysis patients with secondary hyperparathyroidism.

AIMS: Cinacalcet lowers plasma parathyroid hormone (PTH) levels in patients with secondary hyperparathyroidism (sHPT), but the bone histologic response has not been described. This prospective, double-blind, placebo-controlled trial assessed the effects of cinacalcet on bone histology and serum markers of bone metabolism in dialysis patients with sHPT. METHODS: Patients with intact PTH (iPTH) > or = 300 pg/ml were randomly assigned 2:1 to receive cinacalcet or placebo with concurrent vitamin D and/or phosphate binder therapy. Cinacalcet (30 - 180 mg/day) was used to achieve iPTH levels < or = 200 pg/ml. Bone biopsies were performed before and after one year of treatment. RESULTS: Baseline and end-of-study data were available from 32 patients (19 cinacalcet, 13 placebo). Baseline bone turnover was elevated in 27, reduced in 3 and normal in 2 patients. Serum bone-specific alkaline phosphatase (BSAP) and N-telopeptide (NTx) were elevated. Cinacalcet treatment decreased PTH and diminished activation frequency, bone formation rate/bone surface, and fibrosis surface/bone surface. Adynamic bone was observed in three patients receiving cinacalcet; in two of these, PTH levels were persistently low (< 100 pg/ml). The histomorphometric parameter changes in bone corresponded to PTH, BSAP and NTx reductions. Bone mineralization parameters remained normal. CONCLUSIONS: Treatment with cinacalcet lowered PTH and reduced bone turnover and tissue fibrosis among most dialysis patients with biochemical evidence of sHPT.

Influence of the parathyroid glands on bone metabolism.

Bone is a classic target tissue for parathyroid hormone (PTH), whose calciotropic effect is mediated largely via catabolic actions on this tissue. Paradoxically, PTH also exerts anabolic actions, with intermittent injections of PTH or its amino-terminal fragments causing an increase in bone formation and bone mass, actions that form the basis for the use of PTH in the treatment of osteoporosis. Besides vitamin D, PTH is the only other known bone anabolic agent. High-affinity PTH receptors (PTH-1R) have been detected on osteoblasts and osteoclasts (albeit in lower numbers). Bone turnover, which includes activation of osteoclasts and osteoblasts, appears to be best reflected not by absolute concentrations of PTH (which can vary based on the assay and antibody used) but by a balance of circulating full-length PTH-(1-84) and amino-terminally truncated C-PTH fragments. When PTH-(1-84) is predominant, bone turnover is promoted. Among PTH fragments, PTH-(7-84) appears to be the most potent antagonist of PTH-(1-84). The mechanisms involved in these effects are unclear although mediation via unique C-terminal receptors has been suggested. We propose that, within the range of total PTH (100-1000 pg mL(-1)), the ratio of PTH-(1-84)/C-PTH fragment is a valuable tool for diagnosis of bone turnover. Data indicate that at PTH levels < 100-150 pg mL(-1) and > 1000 pg mL(-1), the ratio looses its predictive power. Assay type, patient characteristics (race, underlying renal disease) and treatment attributes (vitamin D, corticosteroids, phosphate binders) have an impact on the PTH ratio, and care should be used in interpreting assay results and making subsequent treatment decisions.

Renal osteodystrophy: what's in a name? Presentation of a clinically useful new model to interpret bone histologic findings.

Renal osteodystrophy begins early in the course of chronic kidney disease and occurs almost without exception in all patients with Stage 5 disease (CKD-5). Bone biopsies and evaluation of mineralized bone sections after double tetracycline-labeling are currently considered the gold standard for diagnosis and classification of renal osteodystrophy. Nevertheless, bone biopsies are rarely employed. This is, at least in part, related to the paucity of nephrologists trained in performance of the procedure and the fact that reports of the histologic results are not easily translatable to clinical practice. Results are usually given qualitatively, using non-uniform classifications or by histomorphometric evaluations which are esoteric to most nephrologists. We suggest here that histomorphometric evaluation can be reserved for research and special situations. Also, the customarily used qualitative classification should be replaced by a clinically useful nomenclature, provided the interpretation is done by an individual with sufficient experience in bone pathology. We present a new interactive nomenclature for renal osteodystrophy that addresses abnormalities of turnover, abnormalities of bone balance, and abnormalities of mineralization. The new nomenclature, thus, includes disorders of high- and low-turnover with consideration of the interrelation with positive or negative bone balance with or without mineralization defect. In this schema, changes in bone status are described as deviations from a norm, and treatment is geared toward normalizing values rather than creating any absolute change in one direction or another. It is hoped that such a classification will be easily usable, clinically more relevant, and more amenable to individualized treatment guidance.

Parathyroid hormone assays--evolution and revolutions in the care of dialysis patients.

Renal osteodystrophy may present with low, normal, or high bone turnover. An ideal parathyroid hormone (PTH) assay should discriminate between the bioactive whole PTH-(1-84) molecule and PTH fragments, including the PTH-(7-84) fragment. Most dialysis patients have "intact" PTH (iPTH) levels between 65 and 450 pg/ml, which are poorly predictive of bone turnover state, making the iPTH test of limited value for bone turnover prediction. iPTH levels higher than 500 pg/ml can be observed in some dialysis patients with low bone turnover, while iPTH levels as low as 100 pg/ml have been found in patients with bone turnover above normal, indicating the standard second generation iPTH assay is not a reliable sole indicator of bone turnover. The whole PTH immunoradiometric assay, a third generation assay, uses a detection antibody that recognizes antigenic determinants at the extreme amino-terminal (1-4) end of the PTH molecule, making the assay specific for biologically active whole PTH-(1-84). Comparing results using the whole PTH and iPTH assays, the PTH-(7-84) level is indirectly determined and the PTH-(1-84)/PTH-(7-84) ratio can be calculated. It was shown that PTH-(7-84) inhibits the calcemic effect of PTH-(1-84) and its stimulatory effect on bone turnover. In the interpretation of results using the PTH-(1-84)/PTH-(7-84) ratio, it must be taken into consideration that second generation "intact" PTH assays have different cross-reactivity with PTH-(7-84). Therefore, when comparing or analyzing PTH-(1-84)/PTH-(7-84) ratios, the employed PTH assays must be identical. The whole PTH assay and the PTH-(1-84)/PTH-(7-84) ratio allow more meaningful interpretation of PTH trends, and offer a non-invasive means to more accurately diagnose bone disease in this population.

Racial differences in parathyroid hormone levels in patients with secondary hyperparathyroidism.

AIM: African-Americans (AA) with normal renal function have higher parathyroid hormone (PTH) levels than Caucasians (C). This difference was also noted in cross-sectional studies of patients on dialysis. In this study, we evaluated patients with end-stage renal disease who have just began dialysis and who were not receiving any vitamin D therapy. METHODS: A total of 363 patients were recruited (C: 260; AA: 103). All patients had serum calcium, phosphorus, alkaline phosphatase and intact PTH (iPTH) levels measured within 3 months of initiating dialysis. RESULTS: Serum PTH levels were significantly higher in AA vs. C (383 +/- 33 vs. 246 +/- 19, p < 0.001). This difference was present despite similar calcium, phosphorus and alkaline phosphatase levels between the 2 groups and regardless of gender or diabetes status. However, PTH levels in patients younger than 47 years of age were similar in both groups. CONCLUSION: PTH levels in ESRD patients over 47 years of age are higher in AA compared to C. The difference is, in part, due to an age-dependent reduction in PTH seen only in C. Further studies are needed to understand the mechanisms of these racial differences and to verify whether they mirror similar alterations at the level of the end-organ tissue.

Improved assessment of bone turnover by the PTH-(1-84)/large C-PTH fragments ratio in ESRD patients.

BACKGROUND: The "intact" parathyroid hormone (PTH) assay recognizes PTH-(1-84) as well as amino terminally truncated PTH fragments, that is, large carboxyterminal PTH fragments (C-PTH fragments). The present study investigated whether the use of the plasma PTH-(1-84)/C-PTH fragment ratio enhances the noninvasive assessment of bone turnover in patients on dialysis. METHODS: Bone biopsies and blood samples for determinations of routine indices of bone turnover and PTH peptides were obtained in 51 adult patients on dialysis not treated with drugs affecting bone such as vitamin D or corticosteroids. Blood levels of large C-PTH fragments were calculated by subtracting PTH-(1-84) from "intact" PTH. Patients were classified according to their levels of bone turnover based on histomorphometrically obtained results of activation frequency. Prediction of bone turnover by the various blood indices was done by using proper statistical methods. In addition, hypercalcemia was induced by calcium gluconate infusion in a subset of patients, and levels of PTH-(1-84), "intact" PTH, and PTH-(1-84)/C-PTH fragment ratio were determined. RESULTS: The PTH-(1-84)/C-PTH fragment ratio was the best predictor of bone turnover. A ratio> 1 predicted high or normal bone turnover (sensitivity 100%), whereas a ratio <1 indicated a high probability (sensitivity 87.5%) of low bone turnover. Calcium infusion resulted in decrease in PTH-(1-84)/C-PTH fragment ratio. CONCLUSIONS: The PTH-(1-84)/C-PTH fragment ratio predicts bone turnover with acceptable precision for biological measurements. Moreover, a change in serum calcium levels is one of the regulators of the relative amount of circulating PTH-(1-84) and its large C-PTH fragments.

Parathyroid hormone/parathyroid hormone-related peptide type 1 receptor in human bone.

The parathyroid hormone/parathyroid hormone-related peptide (PTH/PTHrP) receptor (denoted as PTH-1R) is a key signaling factor through which calcium-regulating hormones PTH and PTHrP exert their effects on bone. There are contradictory reports regarding the capability of osteoclasts to express PTH-1R. To address this issue in humans, bone biopsy specimen samples from 9 normal controls and 16 patients with moderate to severe secondary renal hyperparathyroid bone disease (2 degrees HPT) with elevated PTH levels were studied to determine whether osteoclasts in the bone microenvironment express PTH-1R messenger RNA (mRNA) and protein. We report that osteoclasts express the PTH-1R mRNA but the protein is detected only in patients with 2 degrees HPT. The PTH-1R mRNA and protein also were found in osteoblasts, osteocytes, and bone marrow cells. Receptor expression was higher in osteoclasts and osteoblasts of patients with 2 degrees HPT than normal controls (98.0 +/- 1.1% vs. 65.7 +/- 14.3% and 65.8 +/- 3.4% vs. 39.1 +/- 6.2%; p < 0.01, respectively). Approximately half of osteoclasts found in bone of patients with 2 degrees HPT have the PTH-1R protein. In patients with 2 degrees HPT, a positive relationship exists between erosion depth, a parameter of osteoclastic activity, and the percentage of osteoclasts with PTH-1R protein (r = 0.58; p < 0.05). In normal controls, an inverse relationship exists between the percentage of osteoblasts with receptor mRNA, mRNA signals/cell, and serum PTH levels (r = -0.82 and p < 0.05 and r = -0.78 and p < 0.01, respectively). The results provide the novel evidence of PTH-1R in human osteoclasts and suggest a functional role for the receptors in 2 degrees HPT.

Zinc nutritional status modifies renal osteodystrophy in uremic rats.

BACKGROUND: Previous studies from our laboratories suggested that zinc depletion reduces the circulating level of 1,25-dihydroxycholecalciferol (1,25(OH)2D, calcitriol) in calcium- and phosphorus-depleted rats with normal renal function, and rats with uremia. Since calcitriol synthesis is in part dependent on renal function, we studied levels of circulating vitamin D metabolites, PTH response, mineral balance and bone histomorphometry in animals with different zinc nutritional and renal functional status. METHODS: Fifty-eight male Sprague-Dawley rats were pair-fed zinc-replete (+) or -deplete (-) diets for two weeks. Thereafter, half of each paired group underwent nephrectomy (N), while half had sham (S) operations. Animals were observed for eight weeks after surgery. External mineral balances of zinc, calcium, phosphate and magnesium were determined before surgery, and 1, 2 and 7 weeks after surgery. Plasma creatinine, zinc, calcium, phosphorus, magnesium, 25-hydroxycholecalciferol, calcitriol and PTH were determined at sacrifice. Static and dynamic bone histomorphometry was determined by standard techniques. RESULTS: After an 8-week observation period, zinc-depleted animals had lower plasma zinc levels, and nephrectomized animals had lower creatinine clearances than respective controls at sacrifice. Plasma calcium and phosphorus concentrations were similar in all four groups at sacrifice. Plasma magnesium concentrations were similar in groups with renal insufficiency, regardless of zinc nutritional status. Plasma 25-hydroxycholecalciferol and calcitriol levels were similar in all groups. There was no difference between mean PTH concentration in sham-operated animals, regardless of zinc nutritional status. Although nephrectomized groups' PTH levels were increased compared to S controls, PTH levels were increased in +Zn/N animals compared to the -Zn/N group. Zinc-deplete groups had consistent negative net zinc balance, however, there was no consistent effect of nephrectomy on external calcium, phosphorus, or magnesium balance, when nephrectomized groups of different zinc nutritional status were compared. Nephrectomized animals had histomorphometric changes indicative of higher bone turnover and abnormal mineralization. Zinc deficiency was associated with less evidence of increased parathyroid hormone activity on bone in nephrectomized rats. CONCLUSIONS: Zinc depletion limits the increase in plasma PTH concentration and the expression of secondary hyperparathyroid bone disease during the development of renal insufficiency in the renal ablation model of uremia in rats. The mechanism underlying this effect is unknown, but may involve a direct effect of zinc on the synthesis, release, metabolic clearance, and/or action of PTH on the cellular level, on the interrelationship of calcitriol and PTH, or a direct effect of zinc on bone mineral metabolism. These data highlight the potential relevance of zinc nutritional status to mineral metabolism in patients with chronic renal insufficiency and end-stage renal disease.

Hyperphosphatemia: pharmacologic intervention yesterday, today and tomorrow.

Control of serum phosphorus continues to be of utmost importance in renal replacement therapy, due to the high prevalence of hyperphosphatemia in the dialysis population. Hyperphosphatemia has traditionally been associated with secondary hyperparathyroidism, soft tissue calcification, and renal osteodystrophy. Recent evidence implicates poor phosphorus control as an important factor in the development of cardiovascular calcification, cardiac disease, and death in patients with chronic renal failure. Dietary restriction of phosphorus, while an important factor in the control of serum phosphorus, has practical problems that limit its success in most patients. Aluminum was used in the past to inhibit phosphorus absorption, but its accumulation has serious, toxic effects on bone. Calcium-based binders have largely replaced aluminum; however, these binders are limited by the excessive amounts of calcium absorbed, which can frequently lead to positive calcium balance, suppression of bone turnover, and hypercalcemia. Calcium overloading is also associated with soft tissue and cardiovascular calcification. More recent strategies for managing hyperphosphatemia and renal bone disease include the use of nonabsorbed phosphate binders that are aluminum- and calcium-free and the development of vitamin D analogs that control parathyroid hormone activity with less calcemic effects. Future goals include defining optimal target levels of phosphorus, calcium, and parathyroid hormone and developing clinical approaches that will promote parathyroid glands, bone, and cardiac health.

Short-term administration of the bisphosphonate ibandronate increases bone volume and prevents hyperparathyroid bone changes in mild experimental renal failure.

BACKGROUND: Bisphosphonates (BP) are potent antiresorptive agents that have been used successfully in several bone diseases associated with hyperresorption. Hyperresorption, hypercalcemia, and osteoporosis are frequent findings in patients with renal failure or after renal transplantation. The present study was carried out to determine the effects of a new BP, ibandronate, on bone in a state of normal vs. moderately impaired renal function. MATERIAL AND METHODS: Forty 90-day-old female rats were either 2/3 nephrectomized (Nx, n = 20) or sham-operated (Sham, n = 20). Half of the Nx and Sham rats received either ibandronate (1.25 microg/rat s.c.) or vehicle once weekly for three weeks. Before euthanasia, blood drawings were performed and 24-hr urine was collected. Femurs were analyzed by bone histomorphometry. RESULTS: Serum creatinine, parathyroid hormone, and osteocalcin levels were equally higher in Nx rats given ibandronate or vehicle than in Sham rats. There was no difference in serum calcium, phosphorus, alkaline phosphatase, and urinary creatinine among the groups. Ibandronate-treated rats had lower urinary calcium and deoxypyridinoline crosslink levels than their Sham counterparts. Ibandronate-treated rats had higher bone volume than vehicle-treated animals. Ibandronate prevented the increase in erosion depth and bone turnover in Nx rats. CONCLUSIONS: BPs such as ibandronate represent potentially useful tools in the treatment of certain facets of renal bone disease. Indications for BP therapy may include treatment of osteoporosis, hypercalcemia, and/or extraosseous calcifications. Optimal dose and frequency of BP administration need to be determined in these patients.

Molecular bone morphometry.

Quantitative histomorphometric assessment of bone biopsies represents a powerful and informative method for the study of metabolic bone diseases. It is the gold standard against which the noninvasive "diagnostic" markers of bone metabolism as well as newly available therapeutic modalities are tested. With the rapid progress in technology of molecular biology, identification of systemic and local biomolecules known to regulate bone metabolism can now be achieved. The study of localization, levels of expression, and synthesis of these factors in bone and its microenvironment is possible through applications of in situ hybridization histochemistry (ISHH) and immunohistochemistry (IHC). Application of ISHH allows study of specific mRNA expression. IHC determines the presence and distribution of target protein in cells. These two methodologies provide the link between the cellular processes of mRNA transcription and translation to the working protein. Combining the established bone histomorphometric techniques with ISHH and IHC elevates the study of bone to new heights, i.e., cellular and molecular mechanistic issues can now be studied.

Targeted overexpression of insulin-like growth factor I to osteoblasts of transgenic mice: increased trabecular bone volume without increased osteoblast proliferation.

Insulin-like growth factor I (IGF-I) is an important growth factor for bone, yet the mechanisms that mediate its anabolic activity in the skeleton are poorly understood. To examine the effects of locally produced IGF-I in bone in vivo, we targeted expression IGF-I to osteoblasts of transgenic mice using a human osteocalcin promoter. The IGF-I transgene was expressed in bone osteoblasts in OC-IGF-I transgenic mice at high levels in the absence of any change in serum IGF-I levels, or of total body growth. Bone formation rate at the distal femur in 3-week-old OC-IGF-I transgenic mice was approximately twice that of controls. By 6 weeks, bone mineral density as measured by dual energy x-ray, and quantitative computed tomography was significantly greater in OC-IGF-I transgenic mice compared with controls. Histomorphometric measurements revealed a marked (30%) increase femoral cancellous bone volume in the OC-IGF-I transgenic mice, but no change in the total number of osteoblasts or osteoclasts. Transgenic mice also demonstrated an increase in the osteocyte lacunea occupancy, suggesting that IGF-I may extend the osteocyte life span. We conclude that IGF-I produced locally in bone osteoblasts exerts its anabolic effect primarily by increasing the activity of resident osteoblasts.

Understanding and managing hyperphosphatemia in patients with chronic renal disease.

Controlling serum phosphorus levels continues to be a challenge in patients with chronic renal disease. Hyperphosphatemia is implicated in the development and worsening of secondary hyperparathyroidism and renal osteodystrophy (ROD) through its effects on serum calcium and calcitriol levels, parathyroid hormone (PTH) overproduction, and parathyroid cell hyperplasia. In the past serum phosphorus control with aluminum-containing phosphate binders was associated with insidious but serious development of aluminum toxicity. More recent approaches using non aluminum-containing calcium salts as phosphate binders are limited because of the excessive calcium load resulting from concomitant enhanced intestinal calcium absorption. Moreover serum phosphorus does not only result from dietary phosphate intake but also from enhanced bone breakdown due to secondary hyperparathyroidism. Strategies for managing ROD including early control of serum phosphorus and PTH, prevention of parathyroid hyperplasia; establishment of optimal PTH levels for bone health, and the availability of new therapeutic tools for controlling phosphorus may help prevent complications and improve patient outcomes.

Intermittent and continuous administration of the bisphosphonate ibandronate in ovariohysterectomized beagle dogs: effects on bone morphometry and mineral properties.

Bisphosphonates have emerged as a valuable treatment for postmenopausal osteoporosis. Bisphosphonate treatment is usually accompanied by a 3-6% gain in bone mineral density (BMD) during the first year of treatment and by a decrease in bone turnover. Despite low bone turnover, BMD continues to increase slowly beyond the first year of treatment. There is evidence that bisphosphonates not only increase bone volume but also enhance secondary mineralization. The present study was conducted to address this issue and to compare the effects of continuous and intermittent bisphosphonate therapy on static and dynamic parameters of bone structure, formation, and resorption and on mineral properties of bone. Sixty dogs were ovariohysterectomized (OHX) and 10 animals were sham-operated (Sham). Four months after surgery, OHX dogs were divided in six groups (n = 10 each). They received for 1 year ibandronate daily (5 out of 7 days) at a dose of 0, 0.8, 1.2, 4.1, and 14 microg/kg/day or intermittently (65 microg/kg/day, 2 weeks on, 11 weeks off). Sham dogs received vehicle daily. At month 4, there was a significant decrease in bone volume in OHX animals (p < 0.05). Doses of ibandronate >/= 4.1 microg/kg/day stopped or completely reversed bone loss. Bone turnover (activation frequency) was significantly depressed in OHX dogs given ibandronate at the dose of 14 microg/kg/day. This was accompanied by significantly higher crystal size, a higher mineral-to-matrix ratio, and a more uniformly mineralized bone matrix than in control dogs. This finding lends support to the hypothesis that an increase in secondary mineralization plays a role in gain in BMD associated with bisphosphonate treatment. Moreover, intermittent and continuous therapies had a similar effect on bone volume. However, intermittent therapy was more sparing on bone turnover and bone mineral properties. Intermittent therapy could therefore represent an attractive alternative approach to continuous therapy.