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Spinal fractures during fluoride therapy for osteoporosis: Relationship to spinal bone density (1992)

Farley, S. M. ; Wergedal, J. E. ; Farley, J. R. ; [et al.]

Springer

Osteoporosis international 2 (1992), S. 213-218

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ISSN: 1433-2965

Keywords: Bone density ; Fluoride ; Osteoporosis ; Spinal fractures

Source: Springer Online Journal Archives 1860-2000

Topics: Medicine

Notes: Abstract Recent studies report that fluoride therapy for osteoporosis increases spinal bone density without improving vertebral fracture rate, challenging the notion that restoration of bone mass improves bone fragility. To further evaluate this issue, the relationship between spinal bone density and vertebral fracture rate was examined in a large number of fluoride-treated, osteoporotic patients. A retrospective assessment was made of clinical data collected from our observations of 389 osteoporotics treated with fluoride 30±8 mg/day (mean±SD) (equivalent to 66±17 mg NaF/day) and calcium 1500 mg/day for 28±18 months. Fracture rate and bone density were assessed in the same region of the spine (i.e., T12 through L4) using quantitative computed tomography (QCT). Spinal bone density increased with time on fluoride, but the relationship was hyperbolic (r=0.99,p〈0.0001; asymptote=167 mg/cc on double-reciprocal plot), suggesting a plateau in the response. The spinal fracture rate decreased as a function of time on therapy (r=−0.83,p〈0.01), and was inversely related to spinal bone density during fluoride therapy (r=0.70,p〈0.001 on arithmetic plot;r=−0.79,p〈0.001 on semi-log plot). The subgroup of patients who responded to treatment with a significant increase in spinal bone density had a 48% reduction in spinal fracture rate compared with non-responders (p〈0.001). The subgroup of patients who sustained a fracture during fluoride therapy not only had a slower rate of increase in spinal bone density in response to fluoride therapy, but were also significantly older, had more fractures prior to fluoride therapy, and had a lower pretreatment spinal bone density; consequently, spinal bone density after treatment with fluoride was also lower in this subgroup of patients compared with those who did not sustain a fracture (p〈0.001). These findings are consistent with both the general hypothesis that bone density is an important determinant of fracture risk in osteoporosis, and the specific hypothesis that an increase in spinal bone density in response to fluoride treatment is associated with a decrease in the risk for vertebral fractures.

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1007/BF01624143

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The increase in spinal bone density that occurs in response to fluoride therapy for osteoporosis is not maintained after the therapy is discontinued (1996)

Talbot, J. R. ; Fischer, M. M. ; Farley, S. M. ; [et al.]

Springer

Osteoporosis international 6 (1996), S. 442-447

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ISSN: 1433-2965

Keywords: Anti-resorptive therapy ; Bone repletion ; Fluoride therapy ; Osteoporosis ; Spinal bone density

Source: Springer Online Journal Archives 1860-2000

Topics: Medicine

Notes: Abstract In 44 osteoporotic subjects who had been treated with fluoride for 37±16 months, the fluoride was discontinued because they had shown fluoride-dependent increases in trabecular spinal bone densities from low initial levels (below the fracture threshold) to values that were equivalent to normal peak bone densities in the spines of young adults. During the subsequent period, after discontinuation of the fluoride therapy (i.e. 19±9 months), spinal bone density decreased in 73% of the subjects (i.e. 32 of 44,p〈0.03), at a rate that was comparable to the rate of the previous gain that had occurred during the treatment with fluoride (i.e. −3.23±2.39 mg/cm3 per month, compared with +3.91±1.96 mg/cm3 per month in this subgroup of patients,p〈0.001). Although 9 of the 44 subjects showed continuing increases in spinal bone density after discontinuation of the fluoride therapy, spinal bone density decreased in the entire group of 44 at an average rate of −1.02±4.72 mg/cm3 per month (p〈0.001, compared with the rate of the previous gain during the treatment with fluoride; i.e. +3.83±1.82 mg/cm3 per month). Surprisingly, our data showed that the rate of decrease in spinal bone density during the post-fluoride period was not affected by concurrent (undesigned) treatment with calcium, calcium plus estrogen, or calcium plus calcitriol. The cessation of fluoride therapy was also associated with a decrease in serum alkaline phosphatase activity (i.e. a decrease from the elevated levels that were observed during the period of fluoride therapy, back to the original, pre-treatment levels;p〈0.001), and that the rate of spinal bone loss after cessation of fluoride could be correlated with the prior rate of increase in serum alkaline phosphatase activity that had occurred during the treatment with fluoride (n=44,r=0.312,p=0.039). Together, the observations from this retrospective analysis of data obtained from our clinical subjects suggest that fluoride-treated osteoporotic subjects who have exhibited increases in trabecular spinal bone density are at risk for bone loss after discontinuation of the fluoride therapy.

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1007/BF01629576

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Calcium Bioavailability and Parathyroid Hormone Acute Changes after Oral Intake of Dairy and Nondairy Products in Healthy Volunteers (1999)

Talbot, J. R. ; Guardo, P. ; Seccia, S. ; [et al.]

Springer

Osteoporosis international 10 (1999), S. 137-142

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ISSN: 1433-2965

Keywords: Key words:Bioavailability – Calcium – Citrate – Dairy – PTH

Source: Springer Online Journal Archives 1860-2000

Topics: Medicine

Notes: Abstract: This study was designed to compare calcium bioavailability and serum parathyroid hormone acute changes after oral intake of 500 mg of elemental calcium from liquid milk, yogurt, calcium-citrate-enriched powdered milk or a calcium carbonate pill; or after intake of soybean imitation-milk. After a 12-h fast, blood samples were drawn both at baseline and 1, 2, 3 and 4 h after an oral intake of the above-mentioned products, which were ingested together with a light neutral breakfast. The administration order of the study products was randomly assigned to each of 19 healthy young volunteers (11 females, 8 males). The baseline serum concentrations of ionized calcium, phosphorus and intact parathyroid hormone (iPTH) were normal. Calcium-citrate-enriched powdered milk induced a significant increase in serum ionized calcium (p〈0.001) and a significant and continuous decrease in serum iPTH concentration (p〈0.001). Yogurt and the calcium carbonate pill induced a similar but less significant effect, increasing serum ionized calcium (p〈0.05) and decreasing serum iPTH (p〈0.01). Liquid milk only induced a significant change in serum ionized calcium and iPTH concentration during the first 2 h; this effect was lost during the following 2 h. In conclusion, our study suggests the possibility that the addition of calcium citrate to powered milk may improve calcium bioavailability and enhance the inhibitory effect on serum iPTH in the assayed conditions.

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1007/s001980050208

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