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01-11-2016 | Original Article

High-resolution-cone beam tomography analysis of bone microarchitecture in patients with acromegaly and radiological vertebral fractures

Authors: Filippo Maffezzoni, Michele Maddalo, Stefano Frara, Monica Mezzone, Ivan Zorza, Fabio Baruffaldi, Francesco Doglietto, Gherardo Mazziotti, Roberto Maroldi, Andrea Giustina

Published in: Endocrine | Issue 2/2016

Abstract

Vertebral fractures are an emerging complication of acromegaly but their prediction is still difficult occurring even in patients with normal bone mineral density. In this study we evaluated the ability of high-resolution cone-beam computed tomography to provide information on skeletal abnormalities associated with vertebral fractures in acromegaly. 40 patients (24 females, 16 males; median age 57 years, range 25–72) and 21 healthy volunteers (10 females, 11 males; median age 60 years, range: 25–68) were evaluated for trabecular (bone volume/trabecular volume ratio, mean trabecular separation, and mean trabecular thickness) and cortical (thickness and porosity) parameters at distal radius using a high-resolution cone-beam computed tomography system. All acromegaly patients were evaluated for morphometric vertebral fractures and for mineral bone density by dual-energy X-ray absorptiometry at lumbar spine, total hip, femoral neck, and distal radius. Acromegaly patients with vertebral fractures (15 cases) had significantly (p < 0.05) lower bone volume/trabecular volume ratio, greater mean trabecular separation, and higher cortical porosity vs. nonfractured patients, without statistically significant differences in mean trabecular thickness and cortical thickness. Fractured and nonfractured acromegaly patients did not have significant differences in bone density at either skeletal site. Patients with acromegaly showed lower bone volume/trabecular volume ratio (p = 0.003) and mean trabecular thickness (p < 0.001) and greater mean trabecular separation (p = 0.02) as compared to control subjects, without significant differences in cortical thickness and porosity. This study shows for the first time that abnormalities of bone microstructure are associated with radiological vertebral fractures in acromegaly. High-resolution cone-beam computed tomography at the distal radius may be useful to evaluate and predict the effects of acromegaly on bone microstructure.

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A. Giustina, M.D. Bronstein, F.F. Casanueva, P. Chanson, E. Ghigo, K.K. Ho, A. Klibanski, S. Lambert, P. Trainer, S. Melmed, Current management practices for acromegaly: an international survey. Pituitary 14, 125–133 (2011)CrossRefPubMed

O.M. Dekkers, N.R. Biermasz, A.M. Pereira, J.A. Romijn, J.P. Vandenbroucke, Mortality in acromegaly: a metaanalysis. J. Clin. Endocrinol. Metab. 93, 61–67 (2008)CrossRefPubMed

S. Melmed, F.F. Casanueva, A. Klibanski, M.D. Bronstein, P. Chanson, S.W. Lamberts, C.J. Strasburger, J.A. Wass, A. Giustina, A consensus on the diagnosis and treatment of acromegaly complications. Pituitary 16, 294–302 (2013)CrossRefPubMed

A. Giustina, G. Mazziotti, E. Canalis, Growth hormone, insulin-like growth factors, and the skeleton. Endocr. Rev. 29, 535–559 (2008)CrossRefPubMedPubMedCentral

G. Mazziotti, E. Biagioli, F. Maffezzoni, M. Spinello, V. Serra, R. Maroldi, I. Floriani, A. Giustina, Bone turnover, bone mineral density, and fracture risk in acromegaly: a meta-analysis. J. Clin. Endocrinol. Metab. 100, 384–394 (2015)CrossRefPubMed

T. Ueland, E.N. Ebbesen, J.S. Thomsen, L. Mosekilde, K. Brixen, A. Flyvbjerg, J. Bollerslev, Decreased trabecular bone biomechanical competence, apparent density, IGF-II and IGFBP-5 content in acromegaly. Eur. J. Clin. Invest. 32, 122–128 (2002)CrossRefPubMed

S. Bonadonna, G. Mazziotti, M. Nuzzo, A. Bianchi, A. Fusco, L. De Marinis, A. Giustina, Increased prevalence of radiological spinal deformities in active acromegaly: a cross-sectional study in postmenopausal women. J. Bone Miner. Res. 20, 1837–1844 (2005)CrossRefPubMed

G. Mazziotti, A. Bianchi, S. Bonadonna, V. Cimino, I. Patelli, A. Fusco, A. Pontecorvi, L. De Marinis, A. Giustina, Prevalence of vertebral fractures in men with acromegaly. J. Clin. Endocrinol. Metab. 93, 4649–4655 (2008)CrossRefPubMed

M.J. Wassenaar, N.R. Biermasz, N.A. Hamdy, M.C. Zillikens, J.B. van Meurs, F. Rivadeneira, A. Hofman, A.G. Uitterlinden, M.P. Stokkel, F. Roelfsema, M. Kloppenburg, H.M. Kroon, J.A. Romijn, A.M. Pereira, High prevalence of vertebral fractures despite normal bone mineral density in patients with long-term controlled acromegaly. Eur. J. Endocrinol. 164, 475–483 (2011)CrossRefPubMed

10.

G. Mazziotti, A. Bianchi, T. Porcelli, M. Mormando, F. Maffezzoni, A. Cristiano, A. Giampietro, L. De Marinis, A. Giustina, Vertebral fractures in patients with acromegaly: a 3-year prospective study. J. Clin. Endocrinol. Metab. 98, 3402–3410 (2013)CrossRefPubMed

11.

K.M. Claessen, H.M. Kroon, A.M. Pereira, N.M. Appelman-Dijkstra, M.J. Verstegen, M. Kloppenburg, N.A. Hamdy, N.R. Biermasz, Progression of vertebral fractures despite long-term biochemical control of acromegaly: a prospective follow-up study. J. Clin. Endocrinol. Metab. 98, 4808–4815 (2013)CrossRefPubMed

12.

M. Madeira, L.V. Neto, F. de Paula Paranhos Neto, I.C. Barbosa Lima, L.M. Carvalho de Mendonça, M.R. Gadelha, M.L. Fleiuss de Farias, Acromegaly has a negative influence on trabecular bone, but not on cortical bone, as assessed by high-resolution peripheral quantitative computed tomography. J. Clin. Endocrinol. Metab. 98, 1734–41 (2013)CrossRefPubMed

13.

F. Jockenhövel, S. Rohrbach, S. Deggerich, D. Reinwein, C. Reiners, Differential presentation of cortical and trabecular peripheral bone mineral density in acromegaly. Eur. J. Med. Res. 1, 377–382 (2013)

14.

J.F. Griffith, H.K. Genant, New advances in imaging osteoporosis and its complications. Endocrine 42, 39–51 (2012)CrossRefPubMed

15.

C. Battista, I. Chiodini, S. Muscarella, G. Guglielmi, M.L. Mascia, V. Carnevale, A. Scillitani, Spinal volumetric trabecular bone mass in acromegalic patients: a longitudinal study. Clin. Endocrinol. 70, 378–382 (2009)CrossRef

16.

J. Van Dessel, Y. Huang, M. Depypere, I. Rubira-Bullen, F. Maes, R. Jacobs, A comparative evaluation of cone beam CT and micro-CT on trabecular bone structures in the human mandible. Dentomaxillofacial Rad. 42, 20130145 (2013)CrossRef

17.

G. Mazziotti, E. Canalis, A. Giustina, Drug-induced osteoporosis: mechanisms and clinical implications. Am. J. Med. 123, 877–884 (2010)CrossRefPubMed

18.

A. Giustina, A. Barkan, F.F. Casanueva, F. Cavagnini, L. Frohman, K. Ho, J. Veldhuis, J. Wass, K. Von Werder, S. Melmed, Criteria for cure of acromegaly: a consensus statement. J. Clin. Endocrinol. Metab. 85, 526–529 (2000)PubMed

19.

A. Giustina, A. Barkan, P. Chanson, A. Grossman, A. Hoffman, E. Ghigo, F. Casanueva, A. Colao, S. Lamberts, M. Sheppard, S. Melmed, Pituitary Society; European Neuroendocrine Association: guidelines for the treatment of growth hormone excess and growth hormone deficiency in adults. J. Endocrinol. Invest. 31, 820–838 (2008)CrossRefPubMed

20.

A. Giustina, P. Chanson, M.D. Bronstein, A. Klibanski, S. Lamberts, F.F. Casanueva, P. Trainer, E. Ghigo, K. Ho, S. Melmed, A consensus on criteria for cure of acromegaly. J. Clin. Endocrinol. Metab. 95, 3141–3148 (2010)CrossRefPubMed

21.

American Diabetes Association, Standard of medical care in diabetes. Diabetes Care 36, S11–S66 (2013)CrossRef

22.

M. Doube, M.M. Klosowski, I. Arganda-Carreras, F.P. Cordelières, R.P. Dougherty, J.S. Jackson, B. Schmid, J.R. Hutchinson, S.J. Shefelbine, BoneJ: Free and extensible bone image analysis in Image. J. Bone 47, 1076–1079 (2010)CrossRef

23.

R. Krug, A.J. Burghardt, S. Majumdar, T.M. Link, High-resolution imaging techniques for the assessment of osteoporosis. Radiol. Clin. North Am. 48, 601–621 (2010)CrossRefPubMedPubMedCentral

24.

S. Boutroy, M.L. Bouxsein, F. Munoz, P.D. Delmas, In vivo assessment of trabecular bone microarchitecture by high-resolution peripheral quantitative computed tomography. J. Clin. Endocrinol. Metab. 90, 6508–6515 (2005)CrossRefPubMed

25.

E. Sornay-Rendu, S. Boutroy, F. Munoz, P.D. Delmas, Alterations of cortical and trabecular architecture are associated with fractures in postmenopausal women, partially independent of decreased BMD measured by DXA: The OFELY Study. J. Bone Miner. Res. 22, 425–433 (2007)CrossRefPubMed

26.

J.T. Ho, J. Wu, H.L. Huang, M.Y.C. Chen, L.J. Fuh, J.T. Hsu, Trabecular bone structural parameters evaluated using dental cone-beam computed tomography: cellular synthetic bones. BioMed. Eng. OnLine. 12, 115 (2013)CrossRefPubMedPubMedCentral

27.

T. Fuerst, C. Wu, H.K. Genant, G. von Ingersleben, Y. Chen, C. Johnston, M.J. Econs, N. Binkley, T.J. Vokes, G. Crans, B.H. Mitlak, Evaluation of vertebral fracture assessment by dual X-ray absorptiometry in a multicenter setting. Osteopor. Int. 20, 1199–1205 (2009)CrossRef

28.

H.K. Genant, M. Jergas, L. Palermo, M. Nevitt, R.S. Valentin, D. Black, S.R. Cummings, Comparison of semiquantitative visual and quantitative morphometric assessment of prevalent and incident vertebral fractures in osteoporosis. The Study of Osteoporotic Fractures Research Group. J. Bone Min. Res. 11, 984–996 (1996)CrossRef

29.

J.T. Schousboe, J.A. Shepherd, J.P. Bilezikian, S. Baim, Executive summary of the 2013 International Society for Clinical Densitometry position development conference on bone densitometry. J. Clin. Densitom. 16, 455–466 (2013)CrossRefPubMed

30.

G. Mazziotti, J. Bilezikian, E. Canalis, D. Cocchi, A. Giustina, New understanding and treatments for osteoporosis. Endocrine 41, 58–69 (2012)CrossRefPubMed

31.

F.M. Ulivieri, B.C. Silva, F. Sardanelli, D. Hans, J.P. Bilezikian, R. Caudarella, Utility of the trabecular bone score (TBS) in secondary osteoporosis. Endocrine 47, 435–448 (2014)CrossRefPubMed

32.

G. Mazziotti, M. Doga, S. Frara, F. Maffezzoni, T. Porcelli, L. Cerri, R. Maroldi, A. Giustina, Incidence of morphometric vertebral fractures in adult patients with growth hormone deficiency. Endocrine 52, 103–110 (2016)CrossRefPubMed

33.

L. Riggs, R.V. Randall, H.W. Wanner, J. Jowsey, P.J. Kelly, M. Singh, The nature of metabolic bone disorder in acromegaly. J. Clin. Endocrinol. Metab. 34, 911–918 (1972)CrossRefPubMed

34.

S.V. Lim, M. Marenzana, M. Hopkinson, E.O. List, J.J. Kopchick, M. Pereira, B. Javaheri, J.P. Roux, P. Chavassieux, M. Korbonits, C. Chenu, Excessive growth hormone expression in male GH transgenic mice adversely alters bone architecture and mechanical strength. Endocrinology 156, 1362–1371 (2015)CrossRefPubMedPubMedCentral

35.

K.J. Koh, K.A. Kim, Utility of the computed tomography indices on cone beam computed tomography images in the diagnosis of osteoporosis in women. Imag. Sci. Dent. 41, 101–106 (2015)CrossRef

36.

Y.N. Yeni, C.U. Brown, Z. Wang, T.L. Norman, The influence of bone morphology on fracture toughness of the human femur and tibia. Bone 21, 453–459 (1997)CrossRefPubMed

37.

R. Voide, P. Schneider, M. Stauber, P. Wyss, M. Stampanoni, U. Sennhauser, G.H. van Lenthe, R. Müller, Time-lapsed assessment of microcrack initiation and propagation in murine cortical bone at submicrometer resolution. Bone 45, 164–173 (2009)CrossRefPubMed

38.

K.M. Nicks, S. Amin, E.J. Atkinson, B.L. Riggs, L.J. Melton 3rd, S. Khosla, Relationship of age to bone microstructure independent of areal bone mineral density. J. Bone Min. Res. 27, 637–644 (2012)CrossRef

39.

A.J. Burghardt, A.S. Issever, A.V. Schwartz, K.A. Davis, U. Masharani, S. Majumdar, T.M. Link, High-resolution peripheral quantitative computed tomographic imaging of cortical and trabecular bone microarchitecture in patients with type 2 diabetes mellitus. J. Clin. Endocrinol. Metab. 95, 5045–5055 (2010)CrossRefPubMedPubMedCentral

40.

A.R. Hong, J.H. Kim, S.W. Kim, S.Y. Kim, C.S. Shin, Trabecular bone score as a skeletal fragility index in acromegaly patients. Osteoporos. Int. 27, 1123–1129 (2016)CrossRefPubMed

41.

L. Vico, M. Zouch, A. Amirouche, D. Frère, N. Laroche, B. Koller, A. Laib, T. Thomas, C. Alexandre, High-resolution pQCT analysis at the distal radius and tibia discriminates patients with recent wrist and femoral neck fractures. J. Bone Miner. Res. 23, 1741–1750 (2008)CrossRefPubMed

42.

N. Dalzell, S. Kaptoge, N. Morris, A. Berthier, B. Koller, L. Braak, B. van Rietbergen, J. Reeve, Bone micro-architecture and determinants of strength in the radius and tibia: age-related changes in a population-based study of normal adults measured with high-resolution pQCT. Osteopor. Int. 20, 1683–1694 (2009)CrossRef

43.

S. Panmekiate, N. Ngonphloy, T. Charoenkarn, T. Faruangsaeng, R. Pauwels, Comparison of mandibular bone microarchitecture between micro-CT and CBCT images. Dentomaxillofac Rad. 44, 20140322 (2015)CrossRef

44.

H.L. Huang, J.T. Hsu, M.Y.C. Chen, C. Liu, C.H. Chang, Y.F. Li, K.T. Chen, Microcomputed tomography analysis of particular autogenous bone graft in sinus augmentation at 5 months: differences on bone mineral density and 3D trabecular structure. Clin. Oral Invest. 17, 535–542 (2013)CrossRef

45.

C.M. Bagi, E. Berryman, M.R. Moalli, Comparative bone anatomy of commonly used laboratory animals: implications for drug discovery. Comp. Med. 61, 76–85 (2011)PubMedPubMedCentral

46.

R. González-García, F. Monje, Is micro-computed tomography reliable to determine the microstructure of the maxillary alveolar bone?. Clin. Oral Impl. Res. 24, 730–737 (2013)CrossRef

47.

J.A. Rea, J. Li, G.M. Blake, P. Steiger, H.K. Genant, I. Fogelman, Visual assessment of vertebral deformity by X-ray absorptiometry: a highly predictive method to exclude vertebral deformity. Osteoporos. Int. 11, 660–668 (2000)CrossRefPubMed

48.

H. Hoyer-Kuhn, K. Knoop, O. Semler, K. Kuhr, M. Hellmich, E. Schoenau, F. Koerber, Comparison of DXA scans and conventional X-rays for spine morphometry and bone age determination in children. J. Clin. Densitom. 19, 208–215 (2016)CrossRefPubMed

Title: High-resolution-cone beam tomography analysis of bone microarchitecture in patients with acromegaly and radiological vertebral fractures
Authors: Filippo Maffezzoni
Michele Maddalo
Stefano Frara
Monica Mezzone
Ivan Zorza
Fabio Baruffaldi
Francesco Doglietto
Gherardo Mazziotti
Roberto Maroldi
Andrea Giustina
Publication date: 01-11-2016
Publisher: Springer US
Published in: Endocrine / Issue 2/2016
Print ISSN: 1355-008X
Electronic ISSN: 1559-0100
DOI: https://doi.org/10.1007/s12020-016-1078-3

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High-resolution-cone beam tomography analysis of bone microarchitecture in patients with acromegaly and radiological vertebral fractures

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