Effects of a short course of oral phosphate treatment on serum parathyroid hormone (1–84) and biochemical markers of bone turnover: A dose-response study (original) (raw)

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References

1. Meunier PJ, Bianchi GGS, Edouard CM, Bernard JC, Courpron P, Vignon GE (1972) Bony manifestations of thyrotoxicosis. Orthop Clin North Am 3:745–774
   Google Scholar
2. Frost HM (1979) Treatment of osteoporosis by manipulation of coherent bone cell populations. Clin Orthop Rel Res 143:227–244
   Google Scholar
3. Eriksen EF (1986) Normal and pathological remodeling of human trabecular bone: three-dimensional reconstruction of the remodeling sequence in normals and in metabolic bone disease. Endocrinol Rev 7:379–408
   Google Scholar
4. Hasling C, Eriksen EF, Charles P, Mosekilde L (1987) Exogenous triiodothyronine activates bone remodeling. Bone 8:65–69
   Google Scholar
5. Brixen K, Nielsen HK, Mosekilde L, Flyvbjerg A (1990) A short course of recombinant human growth hormone treatment stimulates osteoblasts and activates bone remodeling in normal human volunteers. J Bone Miner Res 5:609–619
   Google Scholar
6. Hodsman AB, Fraher LJ (1990) Biochemical responses to sequential human parathyroid hormone (1–38) and calcitonin in osteoporotic patients. Bone Miner 9:137–152
   Google Scholar
7. Silverberg JS, Shane E, Clemens TL, Dempster DW, Segre GV, Lindsay R, Bilezikian JP (1986) The effect of oral phosphate administration on major indices of skeletal metabolism in normal subjects. J Bone Miner Res 1:383–388
   Google Scholar
8. Alexandre C, Chappard D, Caulin F, Bertrand A, Palle S, Riffat G (1988) Effects of a one-year administration of phosphate and intermittent calcitonin on bone-forming and bone-resorbing cells in involutional osteoporosis: a histomorphometric study. Calcif Tissue Int 42:345–350
   Google Scholar
9. Mallette LE, LeBlanc AD, Pool JL, Mechanick JI (1989) Cyclic therapy of osteoporosis with neutral phosphate and brief, high-dose pulses of etidronate. J Bone Miner Res 4:143–150
   Google Scholar
10. Rasmussen H, Bordier P, Auquier PML, Eisinger JB, Kuntz D, Caulin F, Argemi B, Gueris J, Julien A (1980) Effect of combined therapy with phosphate and calcitonin on bone volume in osteoporosis. Met Bone Dis Rel Res 2:107–111
    Google Scholar
11. Brixen K, Nielsen HK, Eriksen EF, Charles P, Mosekilde L (1989) Efficacy of wheat germ lectin-precipitated alkaline phosphatase in serum as an estimator of bone mineralization rate: comparison to serum total alkaline phosphatase and serum bone Gla-protein. Calcif Tissue Int 44:93–98
    Google Scholar
12. Price PA, Nishimoto SK (1980) Radioimmunoassay for the vitamin K-dependent protein of bone and its discovery in plasma. Proc Natl Acad Sci 77:2234–2238
    Google Scholar
13. Price PA, Otsuka AS, Poser JW, Kristaponis J, Raman N (1976) Characterization of a γ-carboxyglutamic acid-containing protein from bone. Proc Natl Acad Sci USA 73:1447–1451
    Google Scholar
14. Keiding R, Hörder M, Gerhardt W, Pitkänen E, Tenhunen R, Strömme JH, Theodorsen L, Waldenström J, Tryding N, Westlund L (1974) Recommended methods for the determination of four enzymes in the blood. Scand J Clin Lab Invest 33:291–306
    Google Scholar
15. Rosalki SB, Foo AY (1984) Two new methods for separating and quantifying bone and liver alkaline phosphatase isoenzymes in plasma. Clin Chem 30:1182–1186
    Google Scholar
16. Behr W, Barnert J (1986) Quantification of bone alkaline phosphatase in serum by precipitation with wheat-germ lectin: a simplified method and its clinical plausibility. Clin Chem 32:1960–1966
    Google Scholar
17. Mosekilde L, Charles P, Lindegreen P (1989) Determinants for serum 1,25-dihydroxycholecalciferol in primary hyperparathyroidism. Bone Miner 5:279–290
    Google Scholar
18. Lund B, Sørensen OH (1979) Measurements of 25-hydroxyvitamin D in serum and its relation to sunshine, age and vitamin D in the Danish population. Scand J Clin Lab Invest 39:23–30
    Google Scholar
19. Goverde BC, Veenkamp FJN (1972) Routine assay of total urinary hydroxyproline based on resin-catalysed hydrolysis. Clin Chimica Acta 41:29–40
    Google Scholar
20. Yamaoka K, Tanaka H, Kurose H, Shima M, Ozono K, Nakajima S, Seino Y (1989) Effect of single oral phosphate loading on vitamin D metabolites in normal subjects and in X-linked hypophosphatemic rickets. Bone Miner 7:159–169
    Google Scholar
21. Calvo MS, Kumar R, Heath H (1988) Elevated secretion and action of serum parathyroid hormone in young adults consuming high phosphorus, low calcium diets assembled from common foods. J Clin Endocrinol Metab 66:823–829
    Google Scholar
22. Calvo MS, Kumar R, Heath H (1990) Persistently elevated parathyroid hormone secretion and action in young women after 4 weeks of ingesting high phosphorus, low calcium diets. J Clin Endocrinol Metab 70:1334–1340
    Google Scholar
23. Tsai K, Ebeling PR, Riggs BL (1989) Bone responsiveness to parathyroid hormone in normal and osteoporotic women. J Clin Endocrinol Metab 1989;69:1024–1027
    Google Scholar
24. Beresford JN, Gallagher JA, Poser JW, Russell RGG (1984) Production of osteocalcin by human bone cells in vitro. Effects of 1,25(OH)2D3, parathyroid hormone and glucocorticoids. Metab Bone Dis Res Res 5:229–234
    Google Scholar
25. Portale AA, Halloran BP, Murphy MM, Morris RC (1986) Oral intake of phosphorus can determine the serum concentration of 1,25 dihydroxy vitamin D by determining its production rate in human. J Clin Invest 77:7–12
    Google Scholar
26. Lian JB, Coutts M, Canalis E (1985) Studies on hormonal regulation of osteocalcin synthesis in cultured fetal rat calvaria. J Biol Chem 260:8706–8710
    Google Scholar
27. Riggs BL, Tsai KS, Mann KG (1984) Evidence that serum bone Gla-protein is a measure of bone formation but not of bone resorption. Calcif Tissue Int 36:497
    Google Scholar
28. Cole DEC, Gundberg CM (1985) Changes in serum osteocalcin associated with parathyroid hormone infusion in X-linked hypophosphatemic rickets. Clin Chim Acta 151:1–7
    Google Scholar
29. Charles P, Eriksen EF, Mosekilde L, Melsen F, Jensen FT (1987) Bone turnover and balance evaluated by a combined calcium balance and calcium kinetic study and dynamic histomorphometry. Metabolism 36:1118–1124
    Google Scholar
30. Raisz LG, Niemann I (1969) Effects of phosphate, calcium and magnesium on bone resorption and hormonal responses in tissue culture. Endocrinology 85:446–452
    Google Scholar
31. MacDonald BR, Gallagher JA, Russell RGG (1986) Parathyroid hormone stimulates the proliferation of cells derived from human bone. Endocrinology 118:2445–2449
    Google Scholar

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