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Increased bone microhardness in fluoride treated rats (1974)

Yamamoto, K. ; Wergedal, J. E. ; Baylink, D. J.

Springer

Calcified tissue international 15 (1974), S. 45-54

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ISSN: 1432-0827

Keywords: Bone ; Fluoride ; Microhardness ; Mineralization ; Strength

Source: Springer Online Journal Archives 1860-2000

Topics: Biology , Medicine , Physics

Notes: Abstract Microhardness was measured in sampling sites in the tibial diaphysis of control rats that received less than 1 ppm fluoride in the drinking water, and experimental rats that received 30, 90 and 120 ppm fluoride in the drinking water for 17 days. The latter dose was toxic, as evidenced by a decreased final body weight in this group. By means of tetracycline labelling, it was possible to measure bone hardness in four zones of increasing bone age: I) 3 days, II) 8 days, III) 13 days and IV) 22 days. Zones I through III represented bone formed during fluoride treatment, and Zone IV bone formed before fluoride treatment. In the control group, microhardness increased from Zone I to II, probably because mineral concentration was relatively low in Zone I, and remained constant thereafter. In the 90 and 120 ppm fluoride-treated groups, maximum microhardness was not achieved until Zone III. This delay was probably due to the fact that fluoride in large doses inhibits the rate of mineralization. In the 30 ppm fluoride-treated group, there was no delay in achievement of maximum microhardness; microhardness values in Zones I and III were greater than those in control animals, and microhardness in Zone III was higher than that in Zone IV. These results show that: 1) bone microhardness is increased in bone formed during fluoride treatment in rats given 30 ppm fluoride in the drinking water, 2) toxic doses of fluoride delay, but do not prevent achievement of normal maximum microhardness, and 3) changes in microhardness are seen only in bone formed during fluoride treatment.

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1007/BF02059042

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Mitogenic action of hydrochlorothiazide on human osteoblasts In vitro: Requirement for platelet-derived growth factor (1996)

Lau, K. -H. W. ; Song, X. D. ; Ochi, M. ; [et al.]

Springer

Calcified tissue international 59 (1996), S. 505-510

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ISSN: 1432-0827

Keywords: Hydrochlorothiazide ; Cell Proliferation ; Platelet-derived growth factor ; Mitogen ; Osteoblasts (human)

Source: Springer Online Journal Archives 1860-2000

Topics: Biology , Medicine , Physics

Notes: Abstract Long-term use of hydrochlorothizide (HCTZ), a common diuretic agent for hypertension, has been associated with increased bone density and reduced hip fracture rates in patients. In this study, we sought to examine whether HCTZ has an anabolic effect on the proliferation of human osteoblasts (derived from either vertebrate or rib bone samples) in vitro. Cell proliferation was determined by [3H]thymidine incorporation and cell number counting. In medium supplemented with 1% bovine calf serum, HCTZ significantly and reproducibly increased [3H]thymidine incorporation and cell number. The stimulatory effect was dose dependent in a biphasic manner, with the maximal stimulation (approximately 60% above control, P〈0.001) seen at 1 μM HCTZ. In fresh serum-free medium, HCTZ was ineffective as a bone cell mitogen, indicating that the bone cell mitogenic activity of HCTZ required a serum growth factor (GF). HCTZ at doses greater than 10 μM was inhibitory in the presence or the absence of serum, presumably because of the cytotoxic effects. The serum requirement for the bone cell mitogenic activity of HCTZ could be replaced with a conditioned medium (conditioned with normal human osteoblasts for 24 hours), or with a mitogenic dose (1 ng/ml) of PDGF. The GF requirement was specific for PDGF, because other bone cell-derived growth factors (i.e., TGFβ, IGF-I, IGF-II, and bFGF) were unable to replace serum for the bone cell mitogenic activity of HCTZ. In summary, this study shows that (1) HCTZ stimulated the proliferation of normal, untrasformed, human osteoblasts in vitro; (2) the bone cell mitogenic effect of HCTZ required the presence of a serum GF; (3) the serum requirement could be replaced with a bone cell GF in conditioned medium; (4) the GF requirement was specific for PDGF. In conclusion, we have demonstrated for the first time that HCTZ has a direct anabolic effect on human osteoblasts in vitro, and that the mitogenic activity is dependent on the presence of PDGF. Because increased bone cell proliferation is a key determinant of bone formation, these observations raise the interesting possibility that HCTZ could act directly on bone cells to stimulate bone formation in patients.

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1007/BF00369219

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