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01-12-2003 | Original Article

Definition of a population-specific DXA reference standard in Italian women: the Densitometric Italian Normative Study (DINS)

Authors: M. Pedrazzoni, G. Girasole, F. Bertoldo, G. Bianchi, C. Cepollaro, A. Del Puente, S. Giannini, S. Gonnelli, D. Maggio, C. Marcocci, S. Minisola, E. Palummeri, M. Rossini, L. Sartori, L. Sinigaglia

Published in: Osteoporosis International | Issue 12/2003

Abstract

Osteoporosis is currently defined on the basis of the T-score by dual-energy X-ray absorptiometry (DXA). Despite its limitations, this definition is applied worldwide. However, the normal values provided by manufacturers may not be fully representative of specific local populations. So far, there are no normative data in the Italian population using Hologic densitometers. The Densitometric Italian Normative Study (DINS) is an ongoing multi-center study that aims to establish reference values for bone densitometry with dual-energy X-ray absorptiometry (DXA) in the male and female Italian population. In this paper we report the results of the lumbar vertebrae (L2–L4) and proximal femur in 1,622 women aged 20–79 years. Bone mineral density (BMD) was determined using dual-energy X-ray absorptiometry (DXA) on Hologic bone densitometers (Hologic, Waltham, Mass.). Most of the subjects were examined with a QDR 4500. The BMD of the lumbar vertebrae was virtually constant between 20 and 49 years (test for trend: P=0.66); the BMD values between 20–45 in premenopausal women (mean 1.036; SD 0.109 g/cm²) were thus defined as the peak bone mass values, significantly lower compared to the Hologic reference curve (mean 1.079, SD 0.11 g/cm²). The mean BMD values of the femoral neck were virtually identical to those of the NHANES study in the first 3 decades; after the age of 50 the BMD values were slightly greater than those of the NHANES subject. The subject classification according to the WHO criteria was similar using the DINS and NHANES reference values for the femur; for the spine, the Hologic reference values classified a larger proportion of women as osteoporotic (21 vs. 16%) or osteopenic (42 vs. 38%) compared to DINS.

Kanis JA, Gluer CC (2000) An update on the diagnosis and assessment of osteoporosis with densitometry. Committee of Scientific Advisors, International Osteoporosis Foundation. Osteoporos Int 11:192–202CrossRefPubMed

Kanis JA, Delmas P, Burckhardt P, Cooper C, Torgerson D (1997) Guidelines for diagnosis and management of osteoporosis. The European Foundation for Osteoporosis and Bone Disease. Osteoporos Int 7:390–406PubMed

(1998) Osteoporosis: review of the evidence for prevention, diagnosis and treatment and cost-effectiveness analysis. Osteoporos Int 8 [Suppl 4]:S7–80

Kanis JA, Melton LJ, III, Christiansen C, Johnston CC, Khaltaev N (1994) Perspective: the diagnosis of osteoporosis. J Bone Miner Res 9:1137–1141PubMed

Hui SL, Slemenda CW, Johnston CC Jr (1988) Age and bone mass as predictors of fracture in a prospective study. J Clin Invest 81:1804–1809PubMed

Kanis JA, Black D, Cooper C, Dargent P, Dawson-Hughes B, De Laet C, Delmas P, Eisman J, Johnell O, Jonsson B, Melton L, Oden A, Papapoulos S, Pols H, Rizzoli R, Silman A, Tenenhouse A (2002) A new approach to the development of assessment guidelines for osteoporosis. Osteoporos Int 13:527–536CrossRef

Kanis JA, Johnell O, Oden A, Jonsson B, De Laet C, Dawson A (2000) Risk of hip fracture according to the World Health Organization criteria for osteopenia and osteoporosis. Bone 27:585–590CrossRef

Krall EA, Dawson Hughes B (1993) Heritable and life-style determinants of bone mineral density. J Bone Miner Res 8:1–9PubMed

Bonjour JP, Theintz G, Law F, Slosman D, Rizzoli R (1994) Peak bone mass. Osteoporos Int 4 [Suppl 1]:7–13

10.

Petley GW, Cotton AM, Murrills AJ, Taylor PA, Cooper C, Cawley MID, Wilkin TJ (1996) Reference ranges of bone mineral density for women in southern England: the impact of local data on the diagnosis of osteoporosis. Br J Radiol 69:655–660PubMed

11.

Pocock NA, Eisman JA, Mazess RB, Sambrook PN, Yeates MG, Freund J (1988) Bone mineral density in Australia compared with the United States. J Bone Miner Res 3:601–604

12.

Diaz Curiel M, Carrasco de la Pena JL, Honorato Perez J, Perez Cano R, Rapado A, Ruiz Martinez I (1997) Study of bone mineral density in lumbar spine and femoral neck in a Spanish population. Multicentre Research Project on Osteoporosis. Osteoporos Int 7:59–64PubMed

13.

Tenenhouse A, Joseph L, Kreiger N, Poliquin S, Murray TM, Blondeau L, Berger C, Hanley DA, Prior JC (2000) Estimation of the prevalence of low bone density in Canadian women and men using a population-specific DXA reference standard: the Canadian Multicentre Osteoporosis Study (CaMos). Osteoporos Int 11:897–904PubMed

14.

Looker AC, Wahner HW, Dunn WL, Calvo MS, Harris TB, Heyse SP, Johnston CC, Jr, Lindsay RL (1995) Proximal femur bone mineral levels of US adults. Osteoporos Int 5:389–409PubMed

15.

Looker AC, Wahner HW, Dunn WL, Calvo MS, Harris TB, Heyse SP, Johnston CCJ, Lindsay R (1998) Updated data on proximal femur bone mineral levels of US adults. Osteoporos Int 8:468–489CrossRefPubMed

16.

Lofman O, Larsson L, Toss G (2000) Bone mineral density in diagnosis of osteoporosis: reference population, definition of peak bone mass, and measured site determine prevalence. J Clin Densitom 3:177–186

17.

Faulkner KG, von Stetten E, Miller P (1999) Discordance in patient classification using T-scores. J Clin Densitom 2:343–350PubMed

18.

Woodson G (2000) Dual X-ray absorptiometry T-score concordance and discordance between the hip and spine measurement sites. J Clin Densitom 3:319–324

19.

Varney LF, Parker RA, Vincelette A, Greenspan SL (1999) Classification of osteoporosis and osteopenia in postmenopausal women is dependent on site-specific analysis. J Clin Densitom 2:275–283PubMed

20.

Lofman O, Larsson L, Ross I, Toss G, Berglund K (1997) Bone mineral density in normal Swedish women. Bone 20:167–174PubMed

21.

Hui SL, Perkins AJ, Zhou L, Longcope C, Econs MJ, Peacock M, McClintock C, Johnston CC Jr (2002) Bone loss at the femoral neck in premenopausal white women: effects of weight change and sex-hormone levels. J Clin Endocrinol Metab 87:1539–1543PubMed

22.

Bainbridge KE, Sowers MF, Crutchfield M, Lin X, Jannausch M, Harlow SD (2002) Natural history of bone loss over 6 years among premenopausal and early postmenopausal women. Am J Epidemiol 156:410–417CrossRefPubMed

Title: Definition of a population-specific DXA reference standard in Italian women: the Densitometric Italian Normative Study (DINS)
Authors: M. Pedrazzoni
G. Girasole
F. Bertoldo
G. Bianchi
C. Cepollaro
A. Del Puente
S. Giannini
S. Gonnelli
D. Maggio
C. Marcocci
S. Minisola
E. Palummeri
M. Rossini
L. Sartori
L. Sinigaglia
Publication date: 01-12-2003
Publisher: Springer-Verlag
Published in: Osteoporosis International / Issue 12/2003
Print ISSN: 0937-941X
Electronic ISSN: 1433-2965
DOI: https://doi.org/10.1007/s00198-003-1521-1

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Definition of a population-specific DXA reference standard in Italian women: the Densitometric Italian Normative Study (DINS)

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