Feasibility Analysis of a Novel Method for the Estimation of Local Bone Mechanical Properties: A Preliminary Investigation of Different Pressure Rod Designs on Synthetic Cancellous Bone Models

Document Type : RESEARCH PAPER

Authors

1 German Center for Orthopedics, Friedrich-Schiller University Jena, Campus Eisenberg, Germany- Department of Orthopaedics and Trauma Surgery, Alfried Krupp Hospital, Campus Rüttenscheid, Essen, Germany

2 German Center for Orthopedics, Friedrich-Schiller University Jena, Campus Eisenberg, Germany

3 German Center for Orthopedics, Laboratory of Biomechanics, Friedrich-Schiller University Jena, Campus Eisenberg, Germany

Abstract

Background: Whilst traumatology around elderly population becomes more and more popular nowadays, the knowledge of local bone quality prior to osteosynthesis is of paramount importance. Assessment of the local bone mechanical properties provides essential information related to implant stability and can support treatment strategies in a timely manner. In the acute setting, dual-energy X-ray absorptiometry and quantitative computer tomography cannot be used routinely, and up till now no known intraoperative methods have been established. Methods: A novel technique was developed to determine the local bone strength. A feasibility and sensitivity analysis were performed on synthetic cancellous bone models of various densities [including osteoporotic ranges (0.12 - 0.48g/ cm3 )] by testing the permeability of different rod probe designs. Results: The Intraoperative Osseomechanical Strength Measurement (IOSM) method revealed high sensitivity for the evaluation of local density on synthetic bone material. Among the indenter designs tested, the one with 40° sharp apex and 5 mm diameter reflected accurately the density changes of the synthetic bones. It was also associated with less invasiveness posing no risk for the primary implant stability of the osteosynthesis that may follow. Conclusion: The IOSM method using the indicated indenter design on synthetic cancellous models appears to be a minimal invasive technique with high accuracy in identifying different bone densities . Further studies on human bone material are now focused on the evaluation of the IOSM sensitivity compared to the gold standards (Dual-energy X-ray absorptiometry and quantitative computer tomography). Level of evidence: V

Keywords

References

1. Czerwiński E, Badurski JE, Marcinowska-Suchowierska
E, Osieleniec J. Current understanding of
osteoporosis according to the position of the World
Health Organization (WHO) and International
Osteoporosis Foundation. Ortop Traumatol Rehabil.
2007;9(4):337–56.
2. Statistischen Bundesamtes, Eisenmenger M, Pötzsch
O, Sommer B, Heinz B. Bevölkerung Deutschlands bis
2050- 11. koordinierte Bevölkerungsvorausberechnung.
In: Statistisches Bundesamt, 2006. Wiesbaden; 2006. p.
1–70.
3. Adachi JD, Loannidis G, Berger C, Joseph L,
Papaioannou A, Pickard L, et al. The influence of
osteoporotic fractures on health-related quality of
life in community-dwelling men and women across
Canada. Osteoporos Int. 2001;12(11):903–8.
4. Papaioannou A, Kennedy CC, Ioannidis G, Sawka A,
Hopman WM, Pickard L, et al. The impact of incident
fractures on health-related quality of life: 5 years of
data from the Canadian Multicentre Osteoporosis
Study. Osteoporos Int. 2009;20(5):703–14.
5. Barrios C, Broström LA, Stark A, Walheim G. Healing 
complications after internal fixation of trochanteric
hip fractures: the prognostic value of osteoporosis. J
Orthop Trauma. 1993;7(5):438–42.
6. Davis TR, Sher JL, Horsman A, Simpson M, Porter BB,
Checketts RG. Intertrochanteric femoral fractures.
Mechanical failure after internal fixation. J Bone Joint
Surg Br. 1990;72(1):26–31.
7. Bonnaire F, Weber A, Bösl O, Eckhardt C, Schwieger K,
Linke B. „Cutting out“ bei pertrochantären Frakturen
– ein Problem der Osteoporose? Unfallchirurg.
2007;110(5):425–32.
8. Bonnaire F, Zenker H, Lill C, Weber AT, Linke B. Treatment
strategies for proximal femur fractures in osteoporotic
patients. Osteoporos Int. 2005;16(S02):S93–102.
9. Bartucci EJ, Gonzalez MH, Cooperman DR, Freedberg
HI, Barmada R, Laros GS. The effect of adjunctive
methylmethacrylate on failures of fixation and
function in patients with intertrochanteric
fractures and osteoporosis. J Bone Joint Surg Am.
1985;67(7):1094–107.
10. Kammerlander C, Gebhard F, Meier C, Lenich A,
Linhart W, Clasbrummel B, et al. Standardised 
cement augmentation of the PFNA using a perforated
blade: A new technique and preliminary clinical
results. A prospective multicentre trial. Injury. 2011;
42(12):1484–90.
11. Baruffaldi F, Barbanti Brodano G, Testoni M, Gnudi
S, Paderni S, Toni A, et al. [Femoral densitometry as
potential preoperative indicator for cementation of
hip prosthesis]. Radiol Med. 1996;92(3):193–8.
12. Ammann P, Rizzoli R. Bone strength and its
determinants. Osteoporos Int. 2003;14(S3):13–8.
13. Goulet RW, Goldstein SA, Ciarelli MJ, Kuhn JL, Brown
MB, Feldkamp LA. The relationship between the
structural and orthogonal compressive properties of
trabecular bone. J Biomech. 1994;27(4):375–89.
14. Atsumi M, Park S-H, Wang H-L. Methods Used to
Assess Implant Stability: Current Status. Int J Oral
Maxillofac Implants. 2007;22:743–54.
15. Müller MA, Hengg C, Krettek C, van der Velde D,
Eberdorfer S, Stange R, et al. Trabecular bone strength
is not an independent predictive factor for dynamic
hip screw migration-A prospective multicenter cohort
study. J Orthop Res. 2015;33(11):1680–6.
16. Black DM, Cummings SR, Karpf DB, Cauley JA,
Thompson DE, Nevitt MC, et al. Randomised trial of
effect of alendronate on risk of fracture in women with
existing vertebral fractures. Fracture Intervention
Trial Research Group. Lancet (London, England).
1996;348(9041):1535–41.
17. Kanis JA, Glüer CC. An update on the diagnosis and
assessment of osteoporosis with densitometry.
Committee of Scientific Advisors, International
Osteoporosis Foundation. Osteoporos Int. 2000;
11(3):192–202.
18. Center JR, Nguyen T V., Pocock NA, Eisman JA.
Volumetric Bone Density at the Femoral Neck as a
Common Measure of Hip Fracture Risk for Men and
Women. J Clin Endocrinol Metab. 2004;89(6):2776–82.
19. Maslaris A, Brinkmann O, Layher F, Matziolis G,
Bungartz M. A novel method for intraoperative
osseomechanical strength measurements: a
biomechanical ex vivo evaluation on proximal femora.
Arch Orthop Trauma Surg. 2020 Jun;140(6):727–34. 
The Archives of Bone and Joint Surgery
Volume 9, Issue 2
March 2021
Pages 203-210

Files

History

  • Receive Date: 30 April 2020
  • Revise Date: 28 June 2020
  • Accept Date: 16 July 2020

Share

How to cite

Statistics