Do parathyroid hormone and 1,25-dithydroxyvitamin D modulate bone formation in uremia?

Calcium Kinetic Studies in Patients on Capd: Improvement of Secondary Hyperparathyroidism without Concomitant Improvement of Calcium Turnover

Objective

An association between the development of low turnover osteopathy and the form of dialysis treatment, that is, continuous ambulatory peritoneal dialysis (CAPD), has been described. To examine the effect of a year-long CAPD treatment on calcium (Ca) turnover, 12 patients were studied prior to and one year after initiation of CAPD treatment with a dialysate calcium of 1.75 mmol/L.

Design

A prospective analysis.

Setting

Academic teaching hospital dialysis unit.

Patients

Twelve patients with an average age of 54.8 years (range: 23 76 years) at commencement of dialysis and after 13 months of CAPD treatment.

Measurements

Calcium kinetic studies were performed using two calcium isotopes: 45Ca as an oral tracer and 47Ca as an intravenous tracer. Measurements of plasma and whole body activities were performed over a four week period. From these measurements, kinetic parameters describing calcium turnover in different compartments were studied. These measurements were repeated after a mean time of 13.4 months. Patients were not treated with vitamin D, but received aluminum and calcium -containing phosphate binders, in order to keep inorganic phosphate below 2.0 mmol/L and calcium within the normal range.

Results

After one year on CAPD, serum levels of calcium increased from 2.2 mmol/L to 2.35 mmol/L. Inorganic phosphate also increased from 1.4 mmol/L to 1.9 mmol/L, despite increased use of oral phosphate binders. Serum levels of intact parathyroid hormone (i PTH) decreased from 51.2 pmol/L to 28.3 pmol/L. Alkaline phosphatase did not change, nor did serum levels of vitamin D. Despite improvement of serum iPTH levels and better control of serum calcium, the kinetic parameters describing calcium turnover in the different calcium pools did not improve. In addition, the calcium retention of bone remained below normal range and did not rise. Perhaps more importantly, the relationship between Ca efflux and Ca retention did not change. While Ca retention remained low, plasma Ca efflux was normal. This imbalance was seen at the beginning of CAPD and did not change under CAPD.

Conclusion

These data demonstrate that, after one year of CAPD treatment without vitamin D treatment, calcium turnover did not improve, despite a significant fall in serum iPTH levels. Studies on a larger number of patients are warranted to verify these results.

Various musculoskeletal manifestations of chronic renal insufficiency

Musculoskeletal manifestations in chronic renal insufficiency are caused by complex bone metabolism alterations, now described under the umbrella term of chronic kidney disease mineral- and bone-related disorder (CKD-MBD), as well as iatrogenic processes related to renal replacement treatment. Radiological imaging remains the mainstay of disease assessment. This review aims to illustrate the radiological features of CKD-MBD, such as secondary hyperparathyroidism, osteomalacia, adynamic bone disease, soft-tissue calcifications; as well as features associated with renal replacement therapy, such as aluminium toxicity, secondary amyloidosis, destructive spondyloarthropathy, haemodialysis-related erosive arthropathy, tendon rupture, osteonecrosis, and infection.

Evidence for abnormal calcium homeostasis in patients with adynamic bone disease

To investigate whether the derangements in calcium kinetics in patients with renal osteodystrophy are similar in the various histologic forms of this metabolic bone disease, 43 patients on chronic maintenance dialysis underwent calcium kinetic studies using the double isotope technique, iliac crest bone biopsies for mineralized bone histology and histomorphometry and determinations of serum indices of calcium and bone metabolism. Intestinal calcium absorption was not different among the three histologic groups. However, women exhibited lower calcium absorption in each histologic form (P < 0.01). Patients with predominant hyperparathyroid bone disease showed plasma calcium efflux, calcium accretion rate and calcium retention markedly above normal values. Patients with low turnover bone disease exhibited a normal or slightly decreased plasma calcium efflux and calcium accretion rate together with a disproportionately low calcium retention. Patients with mixed uremic osteodystrophy presented with a calcium kinetic profile intermediary to the two other forms. Good relationships existed between plasma calcium efflux, calcium accretion rate, calcium retention and histomorphometric parameters of bone turnover as well as serum levels of parathyroid hormone. However, no serum parameter could indicate with certainty the underlying bone disease. These findings demonstrate that adynamic bone disease does not merely represent an academic finding but is characterized by a very low bone capacity to buffer calcium and inability to handle an extra calcium load. This is particularly relevant for the daily care of end-stage renal failure patients presently receiving higher than ever amounts of vitamin D and calcium salts.

Plasma insulin-like growth factors and bone formation in uremic hyperparathyroidism

Bone formation in uremia is considered to be regulated in part by parathyroid hormone (PTH). However, while low levels of immunoreactive PTH are usually associated with low rates of bone formation in uremia, elevated PTH levels do not always correlate with increased bone formation. In an attempt to identify other factors that may regulate bone formation in uremic patients, we measured plasma immunoreactive insulin-like growth factors (IGF-I and IGF-II) in 15 patients who did not have aluminum-associated reductions in bone formation. Plasma levels of IGF-I but not PTH, were significantly higher in patients with high rates of bone formation when compared to patients with low or normal bone formation (P less than 0.02). While the bone formation rate at the tissue level correlated significantly with plasma PTH (r = 0.53, P less than 0.05) and IGF-I (r = 0.67, P less than 0.01), only for plasma IGF-I were there significant correlations with bone apposition (r = 0.57, P less than 0.05) and bone formation rate at the BMU level (r = 0.62, P less than 0.02), parameters which reflect mineralization activity at the cellular level. Among the static histologic parameters, osteoblastic osteoid correlated only with plasma PTH (r = 0.76, P less than 0.001), while osteoclast number correlated with both PTH (r = 0.56, P less than 0.05) and IGF-I (r = 0.67, P less than 0.01). There were no correlations between IGF-II levels and bone histology. From these data we suggest that IGF-I may promote bone formation in uremic patients with hyperparathyroidism.(ABSTRACT TRUNCATED AT 250 WORDS)

Deferoxamine test and bone disease in dialysis patients with mild aluminum accumulation

Aluminum bone disease is a frequent complication of dialysis patients. The deferoxamine (DFO) test has been advocated as a noninvasive procedure for the diagnosis of AI bone lesion. However most of these studies have been performed in symptomatic patients with significant AI bone disease. Whether this test may provide similar data at an earlier stage of AI toxicity is not known. The present study evaluates prospectively 28 patients with mild AI load. Patients studied ranged in age from 21 to 65 years; duration of dialysis was 5.6 +/- 3.2 years; deferoxamine, 40 mg/kg body weight, was infused at the end of dialysis. Serum AI was measured before DFO administration and before the next dialysis treatment. Bone biopsies were performed in all patients. Cortical bone AI was determined biochemically; trabecular and cortical bone AI were also determined histochemically. Mean basal serum AI (43.2 +/- 30.8 micrograms/L) and cortical bone AI (25.7 +/- 35.2 micrograms/g) were moderately increased. Basal serum AI correlated (r = 0.77) with the increment in serum AI after DFO infusion. After DFO, stainable trabecular and cortical bone AI correlated in a similar manner with both basal serum AI and increment in serum AI. Only biochemically determined cortical bone AI was not significantly related to basal serum AI. Nineteen of the 28 patients had evidence of osteitis fibrosa on bone biopsy. Stained AI surfaces but not trabecular AI were different in patients with low and patients with high bone formation rates. The bone findings, assessed as bone formation rates and resorption surfaces, did not correlate with biochemically or histochemically determined bone AI.(ABSTRACT TRUNCATED AT 250 WORDS)

Elective total parathyroidectomy without autotransplant in end-stage renal disease

Ten patients are reported following parathyroidectomy (PTX). In 9 all identifiable parathyroid tissue in the neck was deliberately removed, and in the tenth (operated 14 years ago) the remnant which had been left probably did not function. Their post-operative course resembled that of patients treated conventionally, and their subsequent course was likewise uneventful with disappearance of all symptoms associated with their osteodystrophy. All patients required oral calcium supplementation but none were given vitamin D compounds after the initial period of repletion following surgery. Mean serum values were (before PTX and current) for calcium 2.63 +/- 0.14 and 2.33 +/- 0.08 mmol/liter, P = NS, for phosphorus 1.96 +/- 0.13 and 1.38 +/- 0.09 mmol/liter, P less than 0.01, and for alkaline phosphatase 713 +/- 191 and 101 +/- 14 IU, P less than 0.05. Evidence for residual parathyroid tissue was present in each case; one patient remained mildly hyperparathyroid and several were mildly hypoparathyroid by the IRMA PTH assay. Bone histomorphometry in five subjects post-PTX showed either normal or low turnover. Radiologically, striking remineralization was seen with disappearance of all erosive changes. We suggest that residual areas of parathyroid tissue are stimulated and continue to secrete hormone even when all the discrete glands have been removed. It is recommended that when indicated, and in the absence of aluminum excess, total PTX without autotransplant should be the preferred form of therapy for long-term dialysis patients.

The influence of early parathyroidectomy on aluminum-induced rickets in growing uremic rats

Rats were subjected to a two-stage 5/6 nephrectomy and treated with aluminum for 2 and 4 weeks with a cumulative dose of 4.2 and 8.4 mg of aluminum, respectively. Other animals were parathyroidectomized and loaded with 8.4 mg of aluminum for 4 weeks. Histomorphometry and electron microscopy (tibiae), aluminum tissue (bone, kidney, liver) determination, serum (Ca, Mg, Zn, P, urea, creatinine, alkaline phosphatase, 1,25(OH)2D3, PTH) and urine (creatinine, A1) revealed that: (a) a dose of 8.4 mg aluminum was sufficient to induce rickets within 4 weeks of treatment and was associated with decreased serum calcitriol values and high aluminum accumulation within organs (electron-dense material was found in osteoblasts only); (b) previous parathyroidectomy prevented the occurrence of any aluminum-induced alteration of bone. It was associated with higher calcitriol and phosphorus values than in corresponding non-parathyroidectomized rats and significantly reduced aluminum accumulation within organs. The results was influenced neither by a drop in serum calcium values nor by different degrees of renal failure. We suggest that aluminum-induced rickets in growing uremic rats is prevented or delayed when previous parathyroidectomy has been performed.

Aluminum and bone disorders: with specific reference to aluminum contamination of infant nutrients

Aluminum (Al) impairment of bone matrix formation and mineralization may be mediated by its direct effect on bone cells or indirectly by its effect on parathyroid hormone and calcium metabolism. Its toxic effects are proportional to tissue Al load. Al contamination of nutrients depends on the amount of Al present naturally in chemicals or from the manufacturing process. Intravenous calcium, phosphorus, and albumin solutions have high Al (greater than 500 micrograms/L), whereas crystalline amino acid, sterile water, and dextrose water have low Al (less than 50 micrograms/L) content. Enteral nutrients including human and whole cow milk have low Al, whereas highly processed infant formulas with multiple additives, such as soy formula, preterm infant formula, and formulas for specific disorders are heavily contaminated with Al. Healthy adults are in zero balance for Al. The gastrointestinal tract excludes greater than 95% of dietary Al, and kidney is the dominant organ for Al excretion. However, even with normal renal function, only 30-60% of an Al load from parenteral nutrition is excreted in the urine, resulting in tissue accumulation of Al. The risk for Al toxicity is greatest in infants with chronic renal insufficiency, recipients of long term parenteral nutrition, i.e., no gut barrier to Al loading, and preterm infants with low Al binding capacity. The rapid growth of the infant would theoretically potentiate Al toxicity in all infants, although the critical level of Al loading causing bone disorders is not known. To minimize tissue burden, Al content of infant nutrients should be similar to "background" levels, i.e., similar to whole milk (less than 50 micrograms/L).

Renal osteodystrophy: some new questions on an old disorder

The two major lesions of renal osteodystrophy are osteitis fibrosa cystica (OFC) and osteomalacia (OM). OFC is the characteristic bone lesion of uremic hyperparathyroidism. Although renal failure causes predictable parathyroid hyperplasia, the precise pathogenetic mechanism is still not defined. The "hyperphosphatemia-hypocalcemia-parathyroid hormone (PTH) hypersecretion" sequence of events is no longer an adequate model for the pathogenesis of uremic hyperparathyroidism. Other abnormalities associated with uremia include reduced 1,25-dihydroxyvitamin D (1,25D) synthesis, changes in intracellular phosphorus content or transcellular phosphate fluxes, or alteration in PTH metabolism, eg, change in set-point for PTH secretion. Each abnormality interacts with others and contributes to PTH hypersecretion, but none can completely account for the development and persistence of hyperparathyroidism in renal failure. The possibility that uremia may directly cause parathyroid hyperplasia remains open. It is also possible that factor(s) that initiate hyperparathyroidism may turn out to be quite different from that which sustains the hyperparathyroid state. Although both vitamin D-deficient and vitamin D-resistant OM may develop in patients with renal failure, the majority of uremic OM seen currently is "vitamin D-refractory." Although now there is persuasive evidence implicating aluminum (Al) accumulation as the major pathogenetic cause for the mineralization defect seen in this disorder, additional disturbances may play important contributory roles. Such factors would include extraskeletal effects of Al, differences in host-susceptibility to this element, the localization of Al within bone, uremia per se, and the participation of other metals and toxins. Finally, possible interactions between hyperparathyroidism and OM of uremia are speculated on.

Bone disease in pediatric patients undergoing dialysis with CAPD or CCPD

The histologic features of renal osteodystrophy and the prevalence of bone aluminum deposition in children receiving regular dialysis have not been described. Forty-four pediatric patients undergoing continuous ambulatory (CAPD) or cycling (CCPD) peritoneal dialysis had bone biopsies and deferoxamine (DFO) infusion tests; all were receiving oral calcitriol. Osteitis fibrosa (OF) was found in 39%, mild lesions (M) in 25%, normal histology (NH) in 16%, aplastic lesions (AP) in 11%, and osteomalacia (OM) in 9%. Bone surface aluminum (SA) was present by histochemical staining in 10 out of 20 given aluminum-containing phosphate-binding agents and in 0 of 24 treated with calcium carbonate; chi 2 = 15.5, P less than 0.0001. Serum biochemistries and DFO infusion tests failed to predict bone histology, but plasma aluminum levels were markedly elevated and bone aluminum content was highest in patients with OM. Bone formation rate (BFR) correlated with serum parathyroid hormone (PTH), r = 0.55, P less than 0.001; BFR was inversely related to bone aluminum content (r = -0.42, P less than 0.01), even in patients with OF (r = -0.66, P less than 0.05). All patients with SA greater than 30% had normal or reduced BFR when compared to those with SA less than 30%; chi 2 = 12.2, P less than 0.005. Based on SA greater than 30%, six patients were classified as aluminum-related bone disease: three OM, one AP, and two NH. Two-thirds of pediatric patients undergoing CAPD/CCPD have persistent hyperparathyroidism despite treatment with calcitriol, but aluminum can adversely affect BFR when SA exceeds 30% regardless of histologic lesion or serum PTH level.

Renal osteodystrophy

Over the past decade important advances in our understanding of the pathophysiology and treatment of renal osteodystrophy have been made. In particular, the role of calcitriol deficiency in the genesis of hyperparathyroidism in early renal failure is now better understood. So too are the effects of aluminium on bone, and whereas the more florid aluminium related disease is now unusual the more subtle effects of aluminium are now being appreciated. There is still a major problem in the long-term treatment of hyperparathyroid bone disease. The reasons why parathyroid gland proliferation continues to occur on dialysis therapy require a better understanding of cellular events regulating hormone production and parathyroid cell replication. The case for early intervention with vitamin D is now strong but whether such an approach materially influences the long-term outcome is not yet established. Changes in the approach to treatment and in the modalities used for renal replacement therapy will continue to modify the nature of the bone disease.

Bone histomorphometry of renal osteodystrophy in diabetic patients

Bone biopsies and plasma parathyroid hormone (PTH) from 27 diabetic dialysis patients were compared to biopsies and PTH levels from matched patients without diabetes to determine if PTH has a role in preserving bone mass in diabetic renal osteodystrophy. Significantly lower values were present in the diabetic group for mineralized bone area (p less than 0.003), osteoblastic osteoid (p less than 0.01), resorptive surface (p less than 0.001), fibrosis (p less than 0.005), bone apposition rate (p less than 0.01), bone formation rate (BMU level) (p less than 0.04), and plasma PTH (p less than 0.05). Bone-surface aluminum was higher in the diabetic group (44 +/- 5% vs. 20 +/- 5%, p less than 0.005). Linear regression analysis revealed significant positive correlations of mineralized bone area with time on dialysis, bone formation rate, bone resorption, and PTH only in the group without diabetes. While both groups had significant positive correlations of PTH with osteoblastic osteoid and bone resorption, only in the nondiabetic group was there a positive correlation of PTH with bone apposition and bone formation rate (BMU level), observations suggesting that the lower bone formation in the diabetic patients may have arisen in part from a failure of PTH to promote bone mineralization. We conclude that relatively low PTH levels and high bone aluminum in diabetic patients with chronic renal failure may be responsible in part for low bone mass when compared to uremic patients without diabetes.

Aluminum-associated bone disease in chronic renal failure: high prevalence in a long-term dialysis population

Twenty-seven asymptomatic patients treated with hemodialysis longer than 8 years (mean 12.9 +/- 3.1 years) underwent bone biopsy to determine the prevalence of aluminum-associated bone disease. None had excess aluminum exposure from the dialysate. Ten patients (37%) had aluminum-associated bone disease as defined by a bone formation rate (BFR) below normal in the presence of stainable bone aluminum that covered more than 25% of the trabecular surface. The predominant type of bone histology in this group was the aplastic lesion characterized by low bone turnover, a decreased number of osteoblasts, and lack of excess unmineralized osteoid. Osteoblastic osteoid was highly correlated with stainable surface bone aluminum (r = -.82, p less than .001). Among the dynamic bone parameters, the double-tetracycline labeled surface was a more sensitive indicator of impaired bone function than was the bone apposition rate (BAR), since half of the patients with aluminum-associated bone disease had a normal BAR. In all of the biopsies the extent of double-labeled surfaces was inversely proportional to the amount of stainable aluminum on the bone surface (r = -.71, p less than .001), whereas stainable bone aluminum did not correlate with BAR. In seven of the patients with aluminum-associated bone disease, amino-terminal PTH levels were in the normal range while only one patient had a normal plasma mid-region PTH. PTH correlated directly with osteoblastic osteoid, BFR, and double-labeled surfaces. These results indicate that long-term oral aluminum intake in hemodialysis patients results in a high prevalence of aluminum-associated bone disease.(ABSTRACT TRUNCATED AT 250 WORDS)

Continuous ambulatory peritoneal dialysis and bone

We studied the effects of continuous ambulatory peritoneal dialysis (CAPD) on the histological manifestations of uremic bone disease. Twelve patients underwent bone biopsy immediately prior to and after one year of such treatment. Those with larger quantities of non-mineralized bone matrix (osteoid) experienced a reduction in relative osteoid volume, mean osteoid seam width, and total osteoid surface. Moreover, the use of time-spaced kinetic markers of mineralization (tetracycline) enabled us to demonstrate that CAPD usually decreased the amount of non-mineralized bone matrix by shortening mineralization lag time (that is, the interval from organic matrix deposition to its mineralization). The changes in the histomorphology appeared to occur independently of bone aluminum. These data indicate that CAPD generally enhances the mineralizing capacity of individual osteoblasts and suggests that such therapy is beneficial to the uremic skeleton.

Review: Renal osteodystrophy--pathogenesis and treatment

Histologic bone changes of osteitis fibrosa and osteomalacia are commonly present in patients with end-stage renal disease. Although many patients are not symptomatic from these bone changes, some patients are severely disabled. Altered metabolism of vitamin D, calcium, phosphorus, and parathyroid hormone occurs in renal failure and contributes to the development of uremic bone disease. This article reviews the current theories of pathogenesis and treatment of renal osteodystrophy. In addition, the clinical presentation, pathogenesis, and treatment of the various aluminum-associated osteomalacic syndromes in uremia are discussed.

The relationship between the vitamin D system and cancer

The classic function of 1,25-dihydroxyvitamin D3, the hormonally active form of vitamin D, is the maintenance of normal levels of calcium and phosphorus in the blood. 1,25-Dihydroxyvitamin D3 binds to a specific receptor protein and exerts its biologic action by a mechanism analogous to that proposed for other steroid hormones, that is, the receptor-ligand complex acts on the chromatin to induce transcription of specific genes. Intracellular receptors that bind 1,25-dihydroxyvitamin D3 with high affinity have been found in a large number of tumor cell lines examined as melanoma, osteosarcoma, and human breast and colonic carcinoma cells. The 1,25-dihydroxyvitamin D3 receptor in these cells has characteristics similar to the receptor in bone and intestine, the known target tissues of the hormone. In fact, 1,25-dihydroxyvitamin D3 inhibits the proliferation of melanoma, osteosarcoma, and breast carcinoma cells. More recently, 1,25-dihydroxyvitamin D3 has been shown to suppress the growth and induce monocytic differentiation of murine and human myeloid leukemia cells in vitro. These results point to a previously unsuspected involvement of vitamin D in cell proliferation and differentiation and suggest that analogs of the vitamin D hormone may be of interest as possible therapeutic agents in the treatment of malignancy.

Renal osteodystrophy--pathogenesis and treatment

Histologic bone changes of osteitis fibrosa and osteomalacia are commonly present in patients with end-stage renal disease. Although many patients are not symptomatic from these bone changes, some patients are severely disabled. Altered metabolism of vitamin D, calcium, phosphorus, and parathyroid hormone occurs in renal failure and contributes to the development of uremic bone disease. This article reviews the current theories of pathogenesis and treatment of renal osteodystrophy. In addition, the clinical presentation, pathogenesis, and treatment of the various aluminum-associated osteomalacic syndromes in uremia are discussed.

Bone disease and aluminum: pathogenic considerations

Reductions in the formation of new bone matrix are a consistent finding in both clinical and experimental studies of aluminum-associated bone disease. This adverse effect of aluminum on collagen synthesis may be mediated through reductions in either the number or the cellular activity of osteoblasts. However, diminished matrix synthesis can be dissociated from histologic evidence of defective mineralization during aluminum loading. Thus, the toxicity of aluminum on bone is probably comprised of two components, one affecting collagen synthesis and the other affecting matrix mineralization. Adynamic bone may represent the histologic consequence of primary reductions in the formation of osteoid in the absence of defective matrix calcification. In contrast, concurrent disturbances in both matrix synthesis and calcification may account for the lesion of aluminum-associated osteomalacia. Although consistent with current clinical and experimental observations, confirmation of this hypothesis will require more careful longitudinal studies of bone growth and bone histology during aluminum loading.

Increased bone aluminum deposition after subtotal parathyroidectomy in dialyzed patients

Ten dialyzed patients underwent a systematic bone biopsy before and 19 +/- 9 months after subtotal parathyroidectomy (PTX). At the end of the follow-up period all the patients, except two, who complained of proximal myalgia, were asymptomatic. Compared to the bone biopsy specimen obtained prior surgery, decreased bone formation without mineralization impairment was observed after PTX. Despite an average decrease in aluminum gels intake after PTX, an increase in stained aluminum was observed (0.69 +/- 0.79 versus 1.20 +/- 0.95 mm/mm2, P less than 0.050). Aluminum accumulation depended on the pre-PTX bone aluminum load: pre- and post-PTX bone aluminum loads were correlated (r = 0.78, P less than 0.01). Bone aluminum accumulation was not related to the amount of aluminum gel intake after PTX; however, only two patients free of both bone aluminum deposit prior to PTX and aluminum gel intake after PTX had no stainable aluminum on the second bone biopsy after PTX. The only patient who had no decrease in bone formation after PTX had no increase in bone aluminum. Assuming that the patients had no aluminum deposit prior to dialysis, we measured the rate of bone aluminum accumulation. It rose from 0.11 +/- 0.09 mm/mm2/year prior to PTX to 0.40 +/- 0.25 mm/mm2/year after PTX (P less than 0.05) in the six patients who were maintained on phosphate binders and who had a decrease in bone formation after PTX. These six patients had unchanged aluminum gel intake.(ABSTRACT TRUNCATED AT 250 WORDS)

Effect of parathyroidectomy on bone aluminum accumulation in chronic renal failure

In some patients with chronic renal failure, bone mineralization becomes defective after parathyroidectomy for secondary hyperparathyroidism. Because aluminum deposition in bone is associated with impaired bone formation and osteomalacia, we retrospectively studied bone-biopsy specimens from patients on hemodialysis who were not exposed to dialysate contaminated with aluminum, to determine whether aluminum accumulation on bone surfaces was enhanced by parathyroidectomy. Serial biopsy specimens taken before and after parathyroidectomy revealed an increase in the rate of aluminum deposition on the surface of mineralized bone after parathyroidectomy in each of the six patients studied. The accelerated rate of aluminum accumulation could not be explained by changes in the oral aluminum intake. The mean rate of bone formation (+/- S.E.M.) before parathyroidectomy was higher in the six patients than in six control patients who did not undergo parathyroid surgery (586 +/- 147 vs. 237 +/- 85 micron2 per square millimeter per day; P less than 0.05). After parathyroidectomy, the rate of bone formation fell to levels below normal (148 +/- 32 vs. 311 +/- 29 micron2 per square millimeter per day; P less than 0.05) but was not significantly different from the rate in the control group (319 +/- 126 micron2 per square millimeter per day). We conclude that parathyroidectomy in patients with chronic renal failure is associated with enhanced aluminum deposition on the bone surface, possibly as a result of low bone formation. Patients with secondary hyperparathyroidism who may be candidates for parathyroidectomy should be evaluated for aluminum excess before surgery, so that treatment with aluminum chelation may be considered.

Effects of parathyroidectomy on bone formation and mineralization in hemodialyzed patients

Undecalcified sections of doubly tetracycline-labeled transiliac bone biopsy specimens obtained from ten hemodialyzed patients before and 10 to 16 months after parathyroidectomy (PTX) were analyzed. Before parathyroidectomy (total PTX with autotransplant in six patients and subtotal PTX in four patients), all the patients demonstrated histological evidence of hyperparathyroidism with increased resorption parameters. A high bone formation rate (BFR) was noted in all patients but one who had both an increase in the osteoid seam thickness and a low calcification rate characteristic of osteomalacia. A significant correlation was found between immunoreactive parathyroid hormone (iPTH) levels and BFR at the tissue and at the basic multicellular unit (BMU) levels. Parathyroidectomy was associated with a dramatic drop in resorption surfaces and osteoclast number as well as in bone formation rate at the tissue, BMU, and cell-levels. After PTX, the bone formation rate at the tissue level was low or in the lower range of normal values in six patients. The thickness index of osteoid seams was significantly reduced and no evidence of osteomalacia was present even in the six patients showing bone aluminum deposits after PTX. One of the three patients, who had an iPTH level within the normal range after PTX, showed an osteoid excess associated with a low bone formation rate. These date demonstrate that increased PTH secretion is an important factor of bone formation in dialyzed patients and that excessive reduction of the PTH secretion leads to an inactive bone.

Effect of 24,25(OH)2D3 on PTH levels and bone histology in dogs with chronic uremia

Controversy exists as to whether 24,25(OH)2D3 has a direct inhibitory effect on parathyroid hormone (PTH) secretion. Therefore, the present investigation examined the effect of long-term administration of 24,25(OH)2D3 on immunoassayable PTH levels (iPTH) and bone histology in dogs with chronic renal failure. Chronic renal failure was produced in 16 dogs, half of which served as controls whereas the other half received 2.5 micrograms/day of 24,25(OH)2D3, orally. Serum iPTH, serum total, ionized calcium, serum phosphorus, and creatinine were followed at weekly or biweekly intervals in both groups. Also, creatinine clearances, serum levels of 25(OH)D3, 24,25(OH)2D3, and 1,25(OD)2D3 and the intestinal absorption of calcium were measured. After 1 year of chronic renal failure the dogs were sacrificed and rib biopsy specimens were obtained for histological examination and measurement of mineral content. Serum iPTH increased equally in the two dog groups with no effect at any time of 24,25(OH)2D3 treatment, despite a significant increase in the serum levels of 24,25(OH)2D3 and a concomitant decrease of the 1,25(OH)2D3 levels. There was no difference in the levels of serum calcium or in the calcium content of bone. Furthermore, after 8 months of uremia three control dogs were switched to the group treated with 24,25(OH)2D3 and followed for another 7 months. No suppressive effect of administering 24,25(OH)2D3 on the iPTH levels could be demonstrated in these three dogs.(ABSTRACT TRUNCATED AT 250 WORDS)

Bone ultrastructure and x-ray microanalysis of aluminum-intoxicated hemodialyzed patients

In hemodialyzed patients aluminum (Al) intoxication may induce osteomalacic lesions which are mainly observed when plasma immunoreactive parathyroid hormone (iPTH) concentrations are low, and osteitis fibrosa absent. In this study, the bone tissue of eight hemodialyzed patients with elevated plasma and bone Al concentrations was examined by histomorphometry, electron microscopy, and x-ray microanalysis. Five patients (group 1) had osteomalacia and minimal osteitis fibrosa, three patients (group 2) had severe osteitis fibrosa. In group 1, Al was concentrated at the mineralizing front, in hexagonal structures measuring 200 to 1,000 A which also contained phosphorus, but not calcium. Hydroxyapatite needles had a normal aspect. Osteoblasts appeared inactive. In group 2, Al was also present at the mineralizing layer of osteoid, but, in these cases, in small clusters next to abnormal calcium deposits. Osteoblasts appeared very active. Their mitochondria contained calcium and phosphorus granules, or amorphous material, measuring 1,500 to 2,000 A, emitting x-rays characteristic for Al and phosphorus. These results suggest that secondary hyperparathyroidism, by stimulating the cellular activity, may increase the uptake and release of Al by the osteoblasts. The presence of Al within the mitochondria of these cells may be one of the factors inducing the mineralization defect.

Metabolic bone disease associated with total parenteral nutrition

Patients receiving long-term treatment with total parenteral nutrition often develop bony abnormalities characterized by patchy osteomalacia and low bone turnover. The patients present evidence of physiologic hypoparathyroidism, although low levels of iPTH cannot entirely explain the osteomalacia. Abnormally low serum levels of 1,25(OH)2-vitamin D have been demonstrated, but the significance of these reduced levels in the pathogenesis of the bone lesions is not defined. Aluminum has been detected in large quantities in the plasma, urine, and bone of some patients treated with TPN, and there is mounting evidence that aluminum may be associated with skeletal pathology, particularly osteomalacia. There is, however, no clear documentation that aluminum accumulation produces the skeletal lesions observed, although it could be a contributing factor. There has been the unusual empiric observation that the removal of vitamin D2 from the infusate is associated with a decrease in the quantity of unmineralized osteoid in TPN patients. A possible role of vitamin D2 in producing osteomalacia is not easy to understand since normal serum levels of 25(OH)-D2, the circulating form of vitamin D2, have been reported. The long-term consequences of intravenous nutritional support for many aspects of metabolism remain unknown. Administration into the systemic circulation of predetermined quantities of calcium and phosphorus via a route that bypasses their passage across the intestinal mucosa, the portal system and the liver may have adverse consequences. It is possible that bypassing homeostatic mechanisms may affect bone formation and metabolism or lead to alterations in vitamin D sterols. Alternatively, a deficiency of an essential trace metal or the accumulation of a toxic trace substance could be responsible for the bony abnormalities. Much remains to be clarified concerning calcium homeostasis and bone disease during total parenteral nutrition. Among various possible factors, it seems likely that the significance of the low levels of 1,25(OH)2-vitamin D and of the accumulation of aluminum in this condition will soon be clarified.

Parathyroid gland responsiveness to acute hypocalcemia in dialysis osteomalacia

The majority of chronic hemodialysis patients have elevated serum iPTH levels and bone disease characterized by osteitis fibrosa. However, a small group of patients develop osteomalacic bone disease associated with normal or slightly elevated iPTH values and a tendency to hypercalcemia which occurs either spontaneously or after treatment with small doses of vitamin D sterols. To examine the causes of the relatively low iPTH levels, we evaluated the change in serum iPTH levels that occurred in response to acute hypocalcemia, produced by dialysis using a low calcium dialysate, in 11 patients with osteomalacia and 8 control hemodialysis patients. Dialysis against a dialysate free of calcium for 60 to 90 min led to a fall in serum calcium to 7.5 +/- 0.2 and 7.2 +/- 0.2 mg/dl in the osteomalacic and control patients, respectively. Serum iPTH rose in controls from 1380 +/- 287 to 1960 +/- 287 pg/ml (P less than 0.01), whereas in patients with osteomalacia it rose from 360 +/- 58 to 507 +/- 104 pg/ml (P less than 0.05), a value only slightly above normal for this PTH assay. These data suggest that the relatively low basal levels of serum iPTH do not arise as a consequence of physiologic suppression of parathyroid gland function. This reduction in parathyroid function could contribute to the pathogenesis of low turnover osteomalacia.

Hypercalcaemic osteomalacia due to aluminium toxicity

In 16 patients with chronic renal failure and osteomalacia resistant to vitamin-D therapy, aluminium was demonstrated in bone biopsy specimens at the interface between thickened osteoid and calcified bone by means of both X-ray microanalysis and a specific histochemical stain. 14 patients also had hypercalcemia. It is suggested that this is due to the blocking by aluminium of additional calcium uptake into bone coupled with the availability of additional calcium from dialysis fluid and vitamin-D therapy. This study provides more aetiological evidence linking aluminium and the development of osteomalacia in chronic renal failure. Further, if hypercalcaemia develops in such patients it is important that aluminium toxicity be excluded as the cause to prevent unnecessary parathyroidectomy.

The prevalence of bone aluminum deposition in renal osteodystrophy and its relation to the response to calcitriol therapy

A histochemical stain for bone aluminum allowed us to determine the prevalence and staining characteristics of aluminum in renal osteodystrophy. The staining method correlated well with the results of atomic-absorption studies in 96 samples (r = 0.81; P less than 0.001). We examined 315 bone-biopsy samples. No aluminum was seen in controls or patients with nonrenal bone disease. In renal osteodystrophy, the mean level of stainable aluminum was significantly higher in osteomalacic lesions (1.12 +/- 0.09 mm per square millimeter of tissue area) than in mild, mixed, of fibrotic lesions (0.43 +/- 0.06, 0.34 +/- 0.11, and 0.10 +/- 0.03 mm per square millimeter, respectively; P less than 0.001). Seventy per cent of osteomalacic samples had heavy aluminum staining. The bone-apposition rate, measured by double tetracycline labels, was low in 89 per cent of the samples with high levels of aluminum. The mean level of stainable bone aluminum in patients who had a clinical response to calcitriol was significantly lower than in those who did not respond (0.13 +/- 0.4 vs. 1.06 +/- 0.9 mm per square millimeter; P less than 0.01). We conclude that aluminum deposition is associated with impaired bone formation or mineralization and with a poor response to calcitriol therapy.

Qualitative bone defect in uremic osteosclerosis

Osteosclerosis, an increased volume of trabecular bone, is a common but often misinterpreted feature of uremic osteodystrophy. Despite the apparent radiographic density of osteosclerotic bone, pain and fracture may be associated. If accumulated osteoid and woven bone exceed the volume of lamellar bone removed in chronic renal insufficiency, bone density may be reduced despite increased trabecular volume. Concomitant histomorphometric and photon absorption determinations of transileal bone biopsies were done to investigate the relationship between quantity and quality of bone in uremic and non-uremic osteopenic patients. In osteopenic patients with uremia, bone core density had no significant relationship to trabecular bone volume or mineralized bone volume whereas in non-uremic osteopenic patients, these parameters were directly related (r = 0.867 and r = 0.921, respectively, p less than 0.001). The bone core density in the uremic patients was negatively correlated with the total osteoid volume (r = -0.764, p less than 0.05) and positively related to the serum phosphorus concentration (r = 0.739, p less than 0.05). Serum levels of immunoreactive parathyroid hormone (iPTH) and alkaline phosphatase activity were higher in the patients with radiographic osteosclerosis than in the other uremic patients. The lack of correlation between bone volume and density indicates a qualitative defect in uremic bone. It appears that in uremia, elevated iPTH and serum phosphorus levels may augment bone formation, albeit poorly mineralized with woven architecture. While radiographic density paradoxically increases, the amount of normally mineralized bone may be reduced.

Focal mineralization defect during disodium etidronate treatment of calcinosis

The use of disodium etidronate (EHDP) for the treatment of calcinosis is complicated by the threat of drug-induced inhibition of skeletal mineralization. Adults with Paget's disease of bone treated for 6 months with 10-20 mg/kg/day of EHDP have been reported to show both a marked delay in mineralization and a diffuse excess of unmineralized bone matrix. Drug-induced bone disease is, however, a function of growth as well as of the dose and duration of therapy. Therefore, children treated with EHDP may respond differently to the drug-induced mineralization defect. A 10-year-old girl with dermatomyositis developed incapacitating ectopic calcification. After 9 months of therapy with 12 mg/kg/Day of EHDP, a small decrease in the calcinosis was accompanied by a dramatic increase in joint mobility. Bone mineral content of the radial diaphysis showed a failure to gain mineral density as expected with prepubertal growth (8 cm/year). Bone biopsy revealed a patchy excess of osteoid. Although the percentage of osteoid surface labeled by tetracycline was reduced, normal mineralization was evident in the double-labeled areas. In children, the mineralization defect occurring with EHDP treatment may be focal.

Calcium-oxalate-crystal-induced bone disease

A 13-year-old boy with primary hyperoxaluria and a successful renal allograft developed symptomatic bone disease, hypercalcemia, and hypercalciuria. Transiliac bone biopsy revealed calcium oxalate crystals in the marrow within mononuclear phagocytes and multinucleated giant cells. Deep resorption bays were seen adjacent to these crystal-cell aggregates. Serum 1,25-(OH)2-vitamin D (calcitriol) and iPTH concentrations were low or normal. We suggest that hypercalcemia results from macrophage-mediated bone resorption initiated by Ca oxalate crystal deposition.

Decreased mineralization in hemodialysis patients after subtotal parathyroidectomy

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.

The postabsorptive urinary hydroxyproline (spot-HYPRO) in patients with multiple myeloma

The simple postabsorptive urine hydroxyproline (Spot-HYPRO) with dialyzable and non-dialyzable (ND) fractions was measured in 28 patients with multiple myeloma. Myeloma patients with bone disease had higher total Spot-HYPRO and dialyzable fractions (P less than 0.001) than myeloma patients without bone disease or controls. The ND fraction of the Spot-HYPRO was elevated in myeloma patients with renal disease as compared with myeloma patients without renal disease and controls (P less than 0.01). Follow-up studies of ten myeloma patients demonstrated a close correlation between Spot-HYPRO and the dialyzable fraction and the evolution of bone disease. The Spot-HYPRO and its dialyzable fraction constitute a simple, inexpensive, and accurate test for the diagnosis and follow-up of the skeletal disease in patients with multiple myeloma.

Bone histomorphometry in hemodialysed patients

We performed bone histomorphometry in thirty hemodialysed patients. Ten patients had a double iliac bone biopsy to estimate bone histomorphometry reproductibility. There was no difference between the mean results for each of the 10 patients at each site. However, there was an intra-individual variation which was small for the parameters of formation and particularly osteoid thickness and mineralizing rate and greater for resorption parameters. Mineralization rate appeared the most reliable and discriminant parameter. These 30 patients were separated in two groups according to their mineralizing rate (MR); patients with an MR greater than 0.3 mu/day were in group I and had severe hyperparathyroidism without major impairment of bone mineralization and high formation rate. They also had high serum alkaline phosphatases and high serum parathyroid levels measured with a COOH terminal antibody (iPTH). Patients with a low MR less than 0.3 mu/day (group II) had a severe mineralization defect with low formation rate, normal alkaline phosphatase and significantly lower levels of iPTH than in group I. This last type of histological bone lesion could not be due to aluminum intoxication since the level of serum aluminum was the same in the two groups. The mineralizing defect appeared to be inversely correlated with the percent of osteoid surfaces covered by osteoblast and with the iPTH level. These data suggest that during the course of renal osteodystrophy PTH stimulates not only bone resorption but also bone mineralization by increasing osteoblastic number.