The role of magnesium on the structure of biological apatites

Bigi, Adriana; Foresti, Elisabetta; Gregorini, R.; Ripamonti, A.; Roveri, Norberto; Shah, JS

doi:10.1007/bf00296775

Cited by 228 publications

(157 citation statements)

References 23 publications

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“…However, this work is consistent with other studies in which no such transformation was observable [55,15]. This difference has been ascribed to greater Ca/P ratios and lower amounts of HPO 4 À and Mg [56]. It has been assumed that the formation of different mineral phases could be a function of individual age [15,57].…”

Section: Overall High Temperature Modification Process and Indicatorssupporting

confidence: 92%

Research potential and limitations of trace analyses of cremated remains

Harbeck

Schleuder

Schneider

et al. 2011

Forensic Science International

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Section: Overall High Temperature Modification Process and Indicatorssupporting

confidence: 92%

Research potential and limitations of trace analyses of cremated remains

Harbeck

Schleuder

Schneider

et al. 2011

Forensic Science International

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“…Furthermore, magnesium promotes the thermal conversion of HA into 13-TCP, where it can partially replace calcium (Bigi et al, 1988;Bigi et al, 1992;Bigi et al, 1993). The modifications of the values of the HA lattice constants induced by ionic substitution are generally in agreement with the difference in ionic radii between calcium and substituent ions (Heijligers, Driessens & Verbeck, 1979;Bigi, Gazzano, Ripamonti, Foresti & Roveri 1986;Bigi et al, 1989;Bigi et al, 1991).…”

Section: Introductionmentioning

confidence: 56%

Rietveld structure refinements of calcium hydroxylapatite containing magnesium

Bigi¹,

Falini²,

Foresti³

et al. 1996

Acta Crystallogr Sect B

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101

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The crystal structures of four hydroxylapatite (HA) samples prepared from solutions in the presence of 10, 15, 25 and 30 Mg-atom-% have been investigated by X-ray powder pattern fitting. The total magnesium content of the solid samples, as determined by chemical analysis, was 4.9, 14.1, 20.4 and 30.6 Mg-atom-%, respectively. Rietveld analysis was performed using the computer program PREFIN implemented with routines which allow the refinements of the average crystallite sizes. Different refinement procedures were carried out in order to evaluate the effect of the amorphous and background profiles on the occupancy factor data. For comparison, magnesium-free hydroxylapatite was refined with the same strategies. The results of the different approaches indicate that the degree of magnesium substitution for calcium in the HA structure can be at most ,-~ 10 atom-%. Magnesium substitutes calcium preferentially at the 6(h) site. The broadening of the diffraction peaks increases on increasing the total magnesium content in the solid phase, which is always significantly higher than the amount incorporated into the HA structure. The excess is probably located in the amorphous phase and/or on the crystallite surface.

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“…In addition, previous reports have shown that bone quality deteriorates under a low Mg condition [14,15], and that subjects at low serum Mg levels are at risk for bone fractures [12]. It has been reported that dietary Mg supplementation affected bone metabolism and dynamic strength of bone in ovariectomized rats [16].…”

Section: Discussionmentioning

confidence: 98%

“…In addition, Mg deficiency could inhibit the synthesis of 1,25-dihydroxy vitamin D (1,25(OH) 2 D) [9][10][11] as well as its action on bone [11]. Accumulating data have shown that a long-term Mg deficiency and resulting hypomagnesemia could cause osteoporosis and bone fractures through these dysfunctions of PTH and vitamin D action [12,[13][14][15][16][17][18][19]. However, other studies have shown no relationship between Mg deficiency and osteoporosis [20][21][22], and it still seems to be controversial whether or not Mg deficiency could cause osteoporosis.…”

mentioning

confidence: 99%

A Case of Magnesium Deficiency Associated with Insufficient Parathyroid Hormone Action and Severe Osteoporosis

et al. 2007

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Abstract. The relationship between osteoporosis and magnesium (Mg) deficiency is still controversial. Here we report a case of an 82-year-old woman with a giant adenomatous goiter and severe osteoporosis with multiple vertebral fractures, whose clinical course indicated that her osteoporosis was probably due to Mg deficiency. She visited our hospital for treatments of tetany. Laboratory data showed the existence of hypomagnesemia, hypocalcemia, hypokalemia, vitamin D deficiency, and slightly elevated intact PTH. Intravenous administration of Mg not only improved these electrolyte abnormalities but also increased serum levels of intact PTH, bone formation markers, 1,25-dihydroxyvitamin D, as well as bone resorption markers in the urine, and lowered urinary phosphate reabsorption. Hypomagnesemia on admission seemed to arise from long-lasting poor food intake and malnutrition, because it improved after the disappearance of dysphagia with a goiter resection. After the operation, BMD values at the lumbar spine and femoral neck obviously increased during 6 months of Mg supplementation without any specific therapies for osteoporosis. Mg deficiency in this case seemed to cause impaired secretion of PTH from the parathyroid and the refractoriness of bone and kidney to the hormone, which led to the suppression of both bone remodeling and renal vitamin D production. These processes were probably linked to her severe osteoporosis, which was reversed by Mg supplementation. SERUM calcium levels are normally regulated within a relatively narrow range by the parathyroid gland through a negative feedback mechanism: Increased secretion of parathyroid hormone (PTH) by a fall in blood calcium levels enhances the mobilization of calcium, mainly by bone resorption, and then calcium levels are rapidly restored. Chronic magnesium (Mg) deficiency would result in hypocalcemia [1, 2], because of the impairment of PTH secretion [3][4][5][6][7] and/ or resistance of target organ to PTH action [4,6,8].Previous studies have demonstrated that serum PTH concentration was suppressed in patients with hypomagnesemia [4,5], and Mg substitution therapy enhanced PTH secretion and reversed PTH target-organ resistance, and thus serum calcium concentration returned to normal within several days [4,7]. In addition, Mg deficiency could inhibit the synthesis of 1,25-dihydroxy vitamin D (1,25(OH) 2 D) [9][10][11] as well as its action on bone [11]. Accumulating data have shown that a long-term Mg deficiency and resulting hypomagnesemia could cause osteoporosis and bone fractures through these dysfunctions of PTH and vitamin D action [12,[13][14][15][16][17][18][19]. However, other studies have shown no relationship between Mg deficiency and osteoporosis [20][21][22], and it still seems to be controversial whether or not Mg deficiency could cause osteoporosis. Here we report a patient with a giant adenomatous goiter and severe osteoporosis exhibiting hypomagnesemic hypocalcemia, whose osteoporosis was reversed by Mg supplementation with chronological improv...

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The role of magnesium on the structure of biological apatites

Cited by 228 publications

References 23 publications

Research potential and limitations of trace analyses of cremated remains

Research potential and limitations of trace analyses of cremated remains

Rietveld structure refinements of calcium hydroxylapatite containing magnesium

A Case of Magnesium Deficiency Associated with Insufficient Parathyroid Hormone Action and Severe Osteoporosis

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