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International Journal of Legal Medicine
Published in: International Journal of Legal Medicine 6/2013

01-11-2013 | Technical Note

The application of cone-beam CT in the aging of bone calluses: a new perspective?

Authors: A. Cappella, A. Amadasi, D. Gaudio, D. Gibelli, S. Borgonovo, M. Di Giancamillo, C. Cattaneo

Published in: International Journal of Legal Medicine | Issue 6/2013

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Abstract

In the forensic and anthropological fields, the assessment of the age of a bone callus can be crucial for a correct analysis of injuries in the skeleton. To our knowledge, the studies which have focused on this topic are mainly clinical and still leave much to be desired for forensic purposes, particularly in looking for better methods for aging calluses in view of criminalistic applications. This study aims at evaluating the aid cone-beam CT can give in the investigation of the inner structure of fractures and calluses, thus acquiring a better knowledge of the process of bone remodeling. A total of 13 fractures (three without callus formation and ten with visible callus) of known age from cadavers were subjected to radiological investigations with digital radiography (DR) (conventional radiography) and cone-beam CT with the major aim of investigating the differences between DR and tomographic images when studying the inner and outer structures of bone healing. Results showed how with cone-beam CT the structure of the callus is clearly visible with higher specificity and definition and much more information on mineralization in different sections and planes. These results could lay the foundation for new perspectives on bone callus evaluation and aging with cone-beam CT, a user-friendly and skillful technique which in some instances can also be used extensively on the living (e.g., in cases of child abuse) with reduced exposition to radiation.
Literature
1.
Aro H, Eerola E, Aho AJ (1985) Determination of callus quantity in 4-week-old fractures of the rat tibia. J Orthop Res 3(1):101–108PubMed
2.
Eastaugh-Waring SJ, Joslin CC, Hardy JR, Cunningham JL (2009) Quantification of fracture healing from radiographs using the maximum callus index. Clin Orthop Relat Res 467(8):1986–1991PubMed
3.
Lujan TJ, Madey SM, Fitzpatrick DC et al (2010) A computational technique to measure fracture callus in radiographs. J Biomech 43(4):792–795PubMed
4.
Augat P, Merk J, Genant HK, Claes L (1997) Quantitative assessment of experimental fracture repair by peripheral computed tomography. Calcif Tissue Int 60(2):194–199PubMed
5.
Den Boer FC, Brarem JA, Patka P et al (1998) Quantification of fracture healing with three-dimensional computed tomography. Arch Orthop Trauma Surg 117(6–7):345–350
6.
Lynch JA, Grigoryan M, Fierlinger A et al (2004) Measurement of changes in trabecular bone at fracture sites using X-ray CT and automated image registration and processing. L Orthop Res 22(2):362–367
7.
Schmidhammer R, Zandieh S, Mittermayr R et al (2006) Assessment of bone union/nonunion in an experimental model using microcomputed technology. J Trauma 61(1):199–205PubMed
8.
Nyman JS, Munoz S, Jadhav S et al (2009) Quantitative measures of femoral fracture repair in rats derived by micro-computed tomography. J Biomech 42(7):891–897PubMed
9.
Morgan EF, Mason ZD, Chien KB et al (2009) Micro-computed tomography assessment of fracture healing: relationships among callus structure, composition, and mechanical function. Bone 44(2):335–344PubMed
10.
Hayward LN, de Bakker CM, Lusie H et al (2012) MRT letter: contrast-enhanced computed tomographic imaging of soft callus formation in fracture healing. Microsc Res Tech 75(1):7–14PubMed
11.
Islam O, Soboleski D, Symons S et al (2000) Development and duration of radiographic signs of bone healing in children. AJR Am J Roentgenol 175(1):75–78PubMed
12.
Klotzbach H, Delling G, Richter E et al (2003) Post-mortem diagnosis and age estimation of infants’ fractures. Int J Legal Med 117(2):82–89PubMed
13.
Cattaneo C, Marinelli E, Di Giancamillo A et al (2006) Sensitivity of autopsy and radiological examination in detecting bone fractures in an animal model: implications for the assessment of fatal child physical abuse. Forensic Sci Int 164(2–3):131–137PubMed
14.
Halliday KE, Broderick NJ, Somers JM, Hawkes R (2011) Dating fracture in infants. Clin Radiol 66(11):1049–1054PubMed
15.
Malone CA, Sauer NJ, Fenton TW (2008) A radiographic assessment of pediatric fracture healing and time since injury. J Forensic Sci 56(5):1123–1130
16.
Schindeler A, McDonald MM, Bokko P, Little DG (2008) Bone remodeling during fracture repair: the cellular picture. Semin Cell Dev Biol 19(5):459–466PubMed
17.
Vetter A, Epari DR, Seidel R et al (2010) Temporal tissue patterns in bone healing of sheep. J Orthop Res 28(11):1440–1447PubMed
18.
Hendrix RW (2002) Fracture healing. In: Rogers LF (ed) Radiology of skeletal trauma, vol 1, 3rd edn. Churchill Livingstone, Philadelphia
19.
Toal RL, Mitchell SK (2002) Fracture healing and complications. In: Thrall DE (ed) Textbook of veterinary diagnostic radiology, 4th edn. Saunders, Philadelphia
20.
Barbian LT, Sledzik PS (2008) Healing following cranial trauma. J Forensic Sci 53(2):263–268PubMed
21.
Wieberg DA, Wescott DJ (2008) Estimating the timing of long bone fractures: correlation between the postmortem interval, bone moisture content, and blunt force trauma fracture characteristics. J Forensic Sci 53(5):1028–1034PubMed
22.
Walker PL, Cook DC, Lambert PM (1997) Skeletal evidence for child abuse: a physical anthropological perspective. J Forensic Sci 42(2):196–207PubMed
23.
Yang F, Jacobs R, Willems G (2006) Dental age estimation through volume matching of teeth imaged by cone-beam CT. Forensic Sci Int 159(1):78–83
24.
von See C, Bormann KH, Schumann P et al (2009) Forensic imaging of projectiles using cone-beam computed tomography. Forensic Sci Int 190(1–3):38–41
25.
Lee WJ, Wilkinson CM, Hwang HS (2012) An accuracy assessment of forensic computerized facial reconstruction employing cone-beam computed tomography from live subjects. J Forensic Sci 57(2):318–327PubMed
26.
Murphy M, Drage N, Carabott R, Adams C (2012) Accuracy and reliability of cone beam computed tomography of the jaws for comparative forensic identification: a preliminary study. J Forensic Sci 57(4):964–968PubMed
Metadata
Title
The application of cone-beam CT in the aging of bone calluses: a new perspective?
Authors
A. Cappella
A. Amadasi
D. Gaudio
D. Gibelli
S. Borgonovo
M. Di Giancamillo
C. Cattaneo
Publication date
01-11-2013
Publisher
Springer Berlin Heidelberg
Published in
International Journal of Legal Medicine / Issue 6/2013
Print ISSN: 0937-9827
Electronic ISSN: 1437-1596
DOI
https://doi.org/10.1007/s00414-013-0824-9

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