Estimation of the three-dimensional wall thickness of completed remodeling sites in iliac trabecular bone

Kragstrup, J.<sup>1</sup>; Gundersen, H. J. G.<sup>2</sup>; Melsen, F.<sup>3</sup>; Mosekilde, L.<sup>3</sup>

Affiliations

¹Department of Dental Pathology and Operative Dentistry, The Royal Dental College, Aarhus, Denmark

²Institute of Experimental Clinical Research, University of Aarhus, Aarhus, Denmark

³University Institute of Pathology and Medical Department III, Aarhus County Hospital, Aarhus, Denmark

Abstract and keywords

The wall thickness of completed remodeling sites in trabecular bone was estimated in 25 normal individuals and 5 patients with arthrosis of the knee, using 7 μm sections of undecalcified iliac crest bone. A systematic sampling procedure which gives a surface referent estimate of the thickness was applied. The efficiency of the sampling design was optimized by means of a cost-variance analysis. The proposed method of sampling which eliminates a common bias in bone histomorphometry is recommended for determinations of wall thickness, osteoid thickness, lamellar thickness, and distance between fluorochrome markers in trabecular bone.

The intraindividual distributions of three-dimensional wall thickness were reconstructed from the measurements of apparent width by an unfolding procedure based on the geometric probability density function pertaining to randomly sectioned plates. Distributions of true wall thickness for the young normal individuals were unimodal and resembled normal distributions. The three-dimensional mean wall thickness was 61.4 ± 4.4 μm (± SD). It was demonstrated that the conventionally applied stereological transformation, which calculates the three-dimensional mean wall thickness from the mean apparent width by multiplying the latter by π/4, underestimates the three-dimensional mean wall thickness. An improved transformation is illustrated and is recommended for estimating three-dimensional mean thickness of plates from two-dimensional measurements in trabecular bone.

Keywords: Trabecular Bone; Remodeling Sites; Wall Thickness Distribution; Histomorphometry; Sampling Design; Stereology

Links

DOI: 10.1016/0221-8747(82)90024-8

PubMed: 7144560

WoS: A1982PE57200004

History

Received: 1981-11-09

Revised: 1982-02-19

Accepted: 1982-03-16

Cited Works (6)

Year	Entry
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Cited By (17)

Year	Entry
1987	Weinstein RS, Hutson MS. Decreased trabecular width and increased trabecular spacing contribute to bone loss with aging. Bone. 1987;8(3):137-142.
2012	Goff MG, Slyfield CR, Kummari SR, Tkachenko EV, Fischer SE, Yi YH, Jekir MG, Keaveny TM, Hernandez CJ. Three-dimensional characterization of resorption cavity size and location in human vertebral trabecular bone. Bone. July 2012;51(1):28-37.
1991	Compston JE, Croucher PI. Histomorphometric assessment of trabecular bone remodelling in osteoporosis. Bone Miner. August 1, 1991;14(2):91-102.
1997	Guo XE, Goldstein SA. Is trabecular bone tissue different from cortical bone tissue? Forma. 1997;12(3-4):185-196.
1987	Parfitt AM, Drezner MK, Glorieux FH, Kanis JA, Malluche H, Meunier PJ, Ott SM, Recker RR. Bone histomorphometry: standardization of nomenclature, symbols, and units: report of the ASBMR histomorphometry nomenclature committee. J Bone Miner Res. December 1987;2(6):595-610.
2000	Oleksik A, Ott SM, Vedi S, Bravenboer N, Compston J, Lips P. Bone structure in patients with low bone mineral density with or without vertebral fractures. J Bone Miner Res. July 2000;15(7):1368-1375.
2001	Hauge EM, Qvesel D, Eriksen EF, Mosekilde L, Melsen F. Cancellous bone remodeling occurs in specialized compartments lined by cells expressing osteoblastic markers. J Bone Miner Res. September 2001;16(9):1575-1582.
2013	Dempster DW, Compston JE, Drezner MK, Glorieux FH, Kanis JA, Malluche H, Meunier PJ, Ott SM, Recker RR, Parfitt AM. Standardized nomenclature, symbols, and units for bone histomorphometry: a 2012 update of the report of the ASBMR Histomorphometry Nomenclature Committee. J Bone Miner Res. January 2013;28(1):2-17.
1997	Chavassieux PM, Arlot ME, Reda C, Wei L, Yates AJ, Meunier PJ. Histomorphometric assessment of the long-term effects of alendronate on bone quality and remodeling in patients with osteoporosis. J Clin Invest. September 15, 1997;100(6):1475-1480.
1983	Kragstrup J, Melsen F, Mosekilde L. Thickness of lamellae in normal human iliac trabecular bone. Metab Bone Dis Rel Res. 1983;4(5):291-295.
1983	Kragstrup J, Melsen F, Mosekilde L. Thickness of bone formed at remodeling sites in normal human iliac trabecular bone: variations with age and sex. Metab Bone Dis Rel Res. 1983–1984;5(1):17-21.
1983	Vedi S, Compston JE, Webb A, Tighe JR. Histomorphometric analysis of dynamic parameters of trabecular bone formation in the iliac crest of normal British subjects. Metab Bone Dis Rel Res. 1983–1984;5(2):69-74.
1983	Kragstrup J, Melsen F. Three-dimensional morphology of trabecular bone osteons reconstructed from serial sections. Metab Bone Dis Rel Res. 1983–1984;5(3):127-130.
2006	Poole KES. The Effects of Stroke on the Skeleton [PhD thesis]. Cambridge, UK: University of Cambridge; 2006.
2015	Goff M. The Role of Micro and Ultra-Structure in Microdamage Accumulation in Cancellous Bone [PhD thesis]. Ithaca, NY: Cornell University; August 2015.
2004	İnceoğlu S. Failure of Pedicle Screw-Bone Interface: Biomechanics of Pedicle Screw Insertion and Pullout [PhD thesis]. Cleveland State University; December 2004.
2014	Jameson JR. Characterization of Bone Material Properties and Microstructure in Osteogenesis Imperfecta/brittle Bone Disease [PhD thesis]. Marquette University; December 2014.