【 摘 要 】

Background

Hyperthyroidism is accompanied by osteoporosis with higher incidence of fracture rates. The present work aimed to study bone status in hyperthyroidism and to elucidate the impact of severity, duration, and etiology of hyperthyroidism on biochemical markers of bone turnover and bone mineral density (BMD).

Methods

Fifty-two male patients with hyperthyroidism, 31 with Graves' disease (GD) and 21 with toxic multinodular goiter (TNG), with an age ranging from 23 to 65 years were included, together with 25 healthy euthyroid men with matched age as a control group. In addition to full clinical examination, patients and controls were subjected to measurement of BMD using dual-energy X-ray absorptiometery scanning of the lower half of the left radius. Also, some biochemical markers of bone turnover were done for all patients and controls.

Results

Biochemical markers of bone turnover: included serum bone specific alkaline phosphatase, osteocalcin, carboxy terminal telopeptide of type l collagen also, urinary deoxypyridinoline cross-links (DXP), urinary DXP/urinary creatinine ratio and urinary calcium/urinary creatinine ratio were significantly higher in patients with GD and TNG compared to controls (P < 0.01). However, there was non-significant difference in these parameters between GD and TNG patients (P > 0.05). BMD was significantly lower in GD and TNG compared to controls, but the Z-score of BMD at the lower half of the left radius in patients with GD (-1.7 ± 0.5 SD) was not significantly different from those with TNG (-1.6 ± 0.6 SD) (>0.05). There was significant positive correlation between free T3 and free T4 with biochemical markers of bone turnover, but negative correlation between TSH and those biochemical markers of bone turnover. The duration of the thyrotoxic state positively correlated with the assessed bone turnover markers, but it is negatively correlated with the Z-score of BMD in the studied hyperthyroid patients (r = -0.68, P < 0.0001).

Conclusion

Men with hyperthyroidism have significant bone loss with higher biochemical markers of bone turnover. The severity and the duration of the thyrotoxic state are directly related to the derangement of biochemical markers of bone turnover and bone loss.

【 授权许可】

   
2011 El Hadidy et al; licensee BioMed Central Ltd.

【 预 览 】

附件列表

Files	Size	Format	View
20150116012507490.pdf	278KB	PDF	download
Figure 3.	27KB	Image	download
Figure 2.	23KB	Image	download
Figure 1.	24KB	Image	download

【 图 表 】

【 参考文献 】

• [1]Allain TJ, McGregor AM: Thyroid hormones and bone. J Endocrinol 1993, 139:9-18.
• [2]Akalin A, Colak O, Alatas O, Efe B: Bone remodeling markers and serum cytokines in patients with hyperthyroidism. Clin Endocrinol 2002, 57(1):125-129.
• [3]Udayakumar N, Chandrasekaran M, Rasheed MH, Suresh RV, Sivaprakash S: Evaluation of bone mineral density in thyrotoxicosis. Singapore Med J 2006, 47(11):947-950.
• [4]Van de ven AC, Erdtsieck RJ: Changes of bone mineral density, quantitative ultrasound parameters and markers of bone turnover during treatment of hyperthyroidism. The Netherlands J Medicine 2008, 66(10):428-432.
• [5]Vestergaard P, Mosekilde L: Hyperthyroidism, bone mineral, and fracture risk-a meta-analysis. Thyroid 2003, 13(6):585-593.
• [6]Campos-Pastor MM, Munoz-Torres M, Escobar-Jimenez F, et al.: Bone mass in females with different thyroid disorders: influence of menopausal status. Bone and Mineral 1993, 21:1-8.
• [7]Jodar E, Munoz-Torres M, Escobar-Jimenez F, et al.: Bone loss in hyperthyroid patients and in former hyperthyroid patients controlled on medical therapy: influence of etiology and menopause. J Clin Endocrinol 1997, 47:279-285.
• [8]Greenspan SL, Greenspan FS: The effect of thyroid hormone on skeletal integrity. Ann Intern Med 1999, 130(9):750-758.
• [9]Barsal G, Taneli F, Atay A, Hekimsoy Z, Erciyas F: Serum osteocalcin levels in hyperthyroidism before and after antithyroid therapy. Tohoku J Exp Med 2004, 203(3):183-188.
• [10]Kraenzlin ME, Seibel M: Measurement of biochemical markers of bone resorption. In Dynamics in bone and cartilage metabolism. Edited by Seibel M, Robins S, Bilezikian J. Academic Press; 2006:541-564.
• [11]Al-Shoumer KAS, Vasanthy BA, Al-Zaid MM: Effects of treatment of hyperthyroidism on glucose homeostasis, insulin secretion and markers of bone turnover. Endocr Pract 2006, 12(2):121-130.
• [12]Naylor KE, Eastell R: Measurement of biochemical markers of bone formation. In Dynamics of bone and cartilage metabolism. Edited by Seibel M, Robins S, Bilezikian J. Academic Press; 2006:529-540.
• [13]Kraenzlin ME, Kraenzlin CA, Meier C, Giunta C, Steinmann B: Automated HPLC assay for urinary collagen cross-links: effect of age, menopause, and metabolic bone diseases. Clin Chem 2008, 54:1546-1553.
• [14]Kisakol G, Kaya A, Gonen S, Tunc R: Bone and calcium metabolism in subclinical autoimmune hyperthyroidism and hypothyroidism. Endocr J 2003, 50(6):657-661.
• [15]Endres DB, Rude RK: Mineral and bone metabolism. In Tietz fundamentals of clinical chemistry. 4th edition. Edited by Burtis CA, Ashwood ER. Philadelphia: WB Saunders; 1996:685-703.
• [16]Tietz NW, Shuey DF: Reference intervals for alkaline phosphatase. Activity determined by the IFCC and AACC reference methods. Clin Chem 1986, 32:1593-1594.
• [17]Garnero P, Delmas PD: Assessment of the serum levels of bone alkaline phosphatase with a new immunoradiometric assay in patients with metabolic bone disease. J Clin Endocrinol Metab 1993, 77:1046-1053.
• [18]Ladenson PW: Optimal laboratory testing for diagnosis and monitoring of thyroid nodules, goiter and thyroid cancer. Clin Chem 1996, 42:1183-1187.
• [19]Power MJ, Fottrell PF: Osteocalcin: diagnostic methods and clinical applications. Crit Rev Clin Lab Sci 1991, 28(4):287-335.
• [20]Saetung S, Chailurkit LO, Ongphiphadhanakul B: Acute changes in biochemical markers of bone resorption and formation after Thai traditional massage. J Med Assoc Thai 2010, 93(7):771-775.
• [21]Reid IR, Davidson JS, Wattie D, Wu F, Lucas J, Gamble GD, Rutland MD, Cundy T: Comparative responses of bone turnover markers to bisphosphonate therapy in paget's disease of bone. J Intern Bone and Miner Soci 2004, 35(1):224-230.
• [22]Wexler JA, Sharretts J: Thyroid and bone. Endocrinol Metab Clin North Am 2007, 36(3):673-705.
• [23]Galliford TM, Murphy E, Williams AJ, Bassett JH, Williams GR: Effects of thyroid status on bone metabolism: a primary role for thyroid stimulating hormone or thyroid hormone? Minerva Endocrinol 2005, 30(4):237-246.
• [24]Gogakos AI, Bassett JHD, Williams GR: Thyroid and bone. Arch Biochem Biophys 2010, 503(1):129-136.
• [25]Rosario PW: Bone and heart abnormalities of subclinical hyperthyroidism in women below the age of 65 years. Arq Bras Endocrinol Metab 2008, 52(9):1448-1451.
• [26]Williams GR: Actions of thyroid hormones in bone. Endokrynol Pol 2009, 60(5):380-388.
• [27]Bassett JHD, Williams GR: The molecular actions of thyroid hormones in bone. Trends Endocrinol Metab 2003, 14(8):356-364.
• [28]Abe E, Marians RC, Yu W, et al.: TSH is a negative regulator of skeletal remodeling. Cell 2003, 115(2):151-162.
• [29]Heijckmann AC, Huijberts MSP, Geusens P, Vries J, Menheere P, Wolffenbuttel B: Hip bone mineral density, bone turnover and risk of fracture in patients on long-term suppressive L-thyroxine therapy for differentiated thyroid carcinoma. European J Endocrinol 2005, 153(1):23-29.
• [30]Lee MS, Kim SY, Lee MC, et al.: Negative correlation between the changes in bone mineral density and serum osteocalcin in patients with hyperthyroidism. J Clin Endocrinol Metab 1990, 70:766-770.
• [31]Nekrasova MR, Suplotova LA, Davydova LI: Features of osteopenic syndrome in diffuse toxic goiter. Ter Arkh 2005, 77(10):29-33.
• [32]Diamond T, Vine J, Smart R, et al.: Thyrotoxic bone disease in women. A potentially reversible disorder. Ann Inter Med 1994, 120(1):8-11.
• [33]Marcocci C, Golia F, Bruno-Bossio G, et al.: Carefully monitored levothyroxin suppressive therapy is not associated with bone loss in premenopausal women. J Clin Endocrinol Metab 1994, 78:818-823.
• [34]Belaya ZE, Melnichenko GA, Rozhinskaya LY, Fadeev VV, et al.: Subclinical hyperthyroidism of variable etiology and its influence on bone in postmenopausal women. Hormones 2007, 6(1):62-70.