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DOI: 10.1055/s-0036-1592371
Radiology of Osteoporosis: Old and New Findings
Publikationsverlauf
Publikationsdatum:
14. Oktober 2016 (online)
Abstract
Osteoporosis, a systemic metabolic disease of bone, is characterized by low bone mass and altered trabecular pattern, leading to increased risk of fractures. It increases in prevalence with age, especially in postmenopausal women, and can have other secondary causes. Radiologic evaluation of osteoporosis has historically used conventional radiography, which demonstrates cortical thinning, increased radiolucency, and altered trabecular patterns, and also aids in assessing vertebral fractures. Many indexes have been devised, such as the Saville index for the degree of radiolucency, and the Genant grading system for vertebral fractures. Other grading systems have been produced to assess the change in trabecular patterns in the proximal femur and the calcaneus. Differentiating osteoporosis from other bone disorders, such as malignancy, endocrinologic or metabolic diseases, and other causes is also important. Bone scintigraphy, although useful in excluding other metabolic bone diseases and determining the age of vertebral fractures, is less useful for diagnosis of osteoporosis. More recently, the measurement of Hounsfield units on multidetector computed tomography has emerged as a possible modality for opportunistic screening of osteoporosis when being performed for other indications.
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References
- 1 Wright NC, Looker AC, Saag KG , et al. The recent prevalence of osteoporosis and low bone mass in the United States based on bone mineral density at the femoral neck or lumbar spine. J Bone Miner Res 2014; 29 (11) 2520-2526
- 2 Assessment of fracture risk and its application to screening for postmenopausal osteoporosis. Report of a WHO Study Group. World Health Organ Tech Rep Ser 1994; 843: 1-129
- 3 Guglielmi G, Muscarella S, Bazzocchi A. Integrated imaging approach to osteoporosis: state-of-the-art review and update. Radiographics 2011; 31 (5) 1343-1364
- 4 Abrahamsen B, van Staa T, Ariely R, Olson M, Cooper C. Excess mortality following hip fracture: a systematic epidemiological review. Osteoporos Int 2009; 20 (10) 1633-1650
- 5 Morrison A, Fan T, Sen SS, Weisenfluh L. Epidemiology of falls and osteoporotic fractures: a systematic review. Clinicoecon Outcomes Res 2013; 5: 9-18
- 6 Cosman F, de Beur SJ, LeBoff MS , et al; National Osteoporosis Foundation. Clinician's guide to prevention and treatment of osteoporosis. Osteoporos Int 2014; 25 (10) 2359-2381
- 7 Gehlbach S, Saag KG, Adachi JD , et al. Previous fractures at multiple sites increase the risk for subsequent fractures: the Global Longitudinal Study of Osteoporosis in Women. J Bone Miner Res 2012; 27 (3) 645-653
- 8 Burch J, Rice S, Yang H , et al. Systematic review of the use of bone turnover markers for monitoring the response to osteoporosis treatment: the secondary prevention of fractures, and primary prevention of fractures in high-risk groups. Health Technol Assess 2014; 18 (11) 1-180
- 9 Schousboe JT, Ensrud KE, Nyman JA, Kane RL, Melton III LJ. Potential cost-effective use of spine radiographs to detect vertebral deformity and select osteopenic post-menopausal women for amino-bisphosphonate therapy. Osteoporos Int 2005; 16 (12) 1883-1893
- 10 Olschewski E, Murray P, Buckley R, Fennell C, Powell JN. Assessment of osteoporosis using standard radiographs of the wrist. J Trauma 2001; 51 (5) 912-916
- 11 Delmas PD, van de Langerijt L, Watts NB , et al; IMPACT Study Group. Underdiagnosis of vertebral fractures is a worldwide problem: the IMPACT study. J Bone Miner Res 2005; 20 (4) 557-563
- 12 Jergas M. Radiographic findings in osteopenia and osteoporosis. In: Grampp S, , ed. Radiology of Osteoporosis. Berlin, Germany: Springer; 2008: 77-97
- 13 Anil G, Guglielmi G, Peh WCG. Radiology of osteoporosis. Radiol Clin North Am 2010; 48 (3) 497-518
- 14 Sugimoto H, Nagasaka S, Hyodoh K, Sakai O, Kamiyama T, Furuse M. Longitudinal changes of metacarpal cortical striation in Graves' disease. Invest Radiol 1997; 32 (11) 679-683
- 15 Chew FS. Metabolic and systemic conditions. In: Chew FS, , ed. Skeletal Radiology: The Bare Bones. Philadelphia, PA: Lippincott Williams & Wilkins; 2012: 275-290
- 16 Saville PD. A quantitative approach to simple radiographic diagnosis of osteoporosis: its application to the osteoporosis of rheumatoid arthritis. Arthritis Rheum 1967; 10 (5) 416-422
- 17 Garton MJ, Robertson EM, Gilbert FJ, Gomersall L, Reid DM. Can radiologists detect osteopenia on plain radiographs?. Clin Radiol 1994; 49 (2) 118-122
- 18 Takata S, Yasui N. Disuse osteoporosis. J Med Invest 2001; 48 (3–4) 147-156
- 19 Genant HK, Wu CY, van Kuijk C, Nevitt MC. Vertebral fracture assessment using a semiquantitative technique. J Bone Miner Res 1993; 8 (9) 1137-1148
- 20 Glüer CC, Cummings SR, Pressman A , et al; The Study of Osteoporotic Fractures Research Group. Prediction of hip fractures from pelvic radiographs: the study of osteoporotic fractures. J Bone Miner Res 1994; 9 (5) 671-677
- 21 Singh M, Riggs BL, Beabout JW, Jowsey J. Femoral trabecular-pattern index for evaluation of spinal osteoporosis. Ann Intern Med 1972; 77 (1) 63-67
- 22 Nielsen SP. The metacarpal index revisited: a brief overview. J Clin Densitom 2001; 4 (3) 199-207
- 23 Jhamaria NL, Lal KB, Udawat M, Banerji P, Kabra SG. The trabecular pattern of the calcaneum as an index of osteoporosis. J Bone Joint Surg Br 1983; 65 (2) 195-198
- 24 Mahnken AH, Wildberger JE, Gehbauer G , et al. Multidetector CT of the spine in multiple myeloma: comparison with MR imaging and radiography. AJR Am J Roentgenol 2002; 178 (6) 1429-1436
- 25 McDonald DK, Parman L, Speights Jr VO. Best cases from the AFIP: primary hyperparathyroidism due to parathyroid adenoma. Radiographics 2005; 25 (3) 829-834
- 26 Lonergan GJ, Cline DB, Abbondanzo SL. Sickle cell anemia. Radiographics 2001; 21 (4) 971-994
- 27 Marlow TJ, Brunson CY, Jackson S, Schabel SI. “Tower vertebra”: a new observation in sickle cell disease. Skeletal Radiol 1998; 27 (4) 195-198
- 28 Fogelman I, Carr D. A comparison of bone scanning and radiology in the evaluation of patients with metabolic bone disease. Clin Radiol 1980; 31 (3) 321-326
- 29 Moore AE, Blake GM, Taylor KA , et al. Changes observed in radionuclide bone scans during and after teriparatide treatment for osteoporosis. Eur J Nucl Med Mol Imaging 2012; 39 (2) 326-336
- 30 Schreiber JJ, Anderson PA, Rosas HG, Buchholz AL, Au AG. Hounsfield units for assessing bone mineral density and strength: a tool for osteoporosis management. J Bone Joint Surg Am 2011; 93 (11) 1057-1063
- 31 Lee S, Chung CK, Oh SH, Park SB. Correlation between bone mineral density measured by dual-energy X-ray absorptiometry and Hounsfield units measured by diagnostic CT in lumbar spine. J Korean Neurosurg Soc 2013; 54 (5) 384-389
- 32 Pompe E, Willemink MJ, Dijkhuis GR, Verhaar HJ, Mohamed Hoesein FA, de Jong PA. Intravenous contrast injection significantly affects bone mineral density measured on CT. Eur Radiol 2015; 25 (2) 283-289
- 33 Pickhardt PJ, Lee LJ, del Rio AM , et al. Simultaneous screening for osteoporosis at CT colonography: bone mineral density assessment using MDCT attenuation techniques compared with the DXA reference standard. J Bone Miner Res 2011; 26 (9) 2194-2203
- 34 Pickhardt PJ, Pooler BD, Lauder T, del Rio AM, Bruce RJ, Binkley N. Opportunistic screening for osteoporosis using abdominal computed tomography scans obtained for other indications. Ann Intern Med 2013; 158 (8) 588-595
- 35 Emohare O, Cagan A, Morgan R , et al. The use of computed tomography attenuation to evaluate osteoporosis following acute fractures of the thoracic and lumbar vertebra. Geriatr Orthop Surg Rehabil 2014; 5 (2) 50-55
- 36 Buckens CF, Dijkhuis G, de Keizer B, Verhaar HJ, de Jong PA. Opportunistic screening for osteoporosis on routine computed tomography? An external validation study. Eur Radiol 2015; 25 (7) 2074-2079
- 37 Kim YS, Lee S, Sung YK, Lee BG. Assessment of osteoporosis using pelvic diagnostic computed tomography. J Bone Miner Metab 2016; 34 (4) 457-463