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Compression forces of internal and external ankle fixation devices with simulated bone resorption.

Publication ,  Journal Article
Yakacki, CM; Khalil, HF; Dixon, SA; Gall, K; Pacaccio, DJ
Published in: Foot & ankle international
January 2010

Internal and external fixation techniques have been developed to provide rigidity and stability to a fusion site such as in tibiotalocalcaneal (TTC) arthrodesis. Compression of the fusion site plays an integral role in primary bone healing, though little work has been done to quantify the compressive force values of ankle fixation devices.Using synthetic and cadaveric bone models, a Newdeal/Integra PantaNail and DePuy VersaNail were tested as compressive intramedullary (IM) nails while an Encore True/Lok and an Ace-Fischer frame were tested as external fixators.The PantaNail experienced maximum compressive loads of 1898 and 1255 N in synthetic and cadaveric constructs, respectively. The VersaNail experienced max compressive loads 388 N during installation. All IM nails tested experienced decreased compressive loads after removal of the external guide and instrumentation. The external fixators were loaded to approximately 1200 N in both synthetic and cadaveric constructs. The decrease in compressive load was recorded as a function of simulated fusion site bone resorption for all devices. The IM nails experienced a 90% reduction in load with less than 1 mm of resorption, while the external fixators held 50% load for over 4 mm of resorption. These data were verified using a simple constitutive model of IM nails and external fixators.Intramedullary nails are capable of generating compression, however, are unable to provide sustained compression for any considerable amount of resorption. External fixators are inherently capable of applying and sustaining greater amounts of compression.Surgeons who perform TTC arthrodesis procedures should be aware of a device's ability to generate and sustain compression with respect to bone resorption.

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Published In

Foot & ankle international

DOI

EISSN

1944-7876

ISSN

1071-1007

Publication Date

January 2010

Volume

31

Issue

1

Start / End Page

76 / 85

Related Subject Headings

  • Stress, Mechanical
  • Orthopedics
  • Models, Biological
  • Middle Aged
  • Materials Testing
  • Male
  • Humans
  • Fracture Fixation
  • External Fixators
  • Cadaver
 

Citation

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Yakacki, C. M., Khalil, H. F., Dixon, S. A., Gall, K., & Pacaccio, D. J. (2010). Compression forces of internal and external ankle fixation devices with simulated bone resorption. Foot & Ankle International, 31(1), 76–85. https://doi.org/10.3113/fai.2010.0076
Yakacki, Christopher M., Heidi F. Khalil, Sean A. Dixon, Ken Gall, and Douglas J. Pacaccio. “Compression forces of internal and external ankle fixation devices with simulated bone resorption.Foot & Ankle International 31, no. 1 (January 2010): 76–85. https://doi.org/10.3113/fai.2010.0076.
Yakacki CM, Khalil HF, Dixon SA, Gall K, Pacaccio DJ. Compression forces of internal and external ankle fixation devices with simulated bone resorption. Foot & ankle international. 2010 Jan;31(1):76–85.
Yakacki, Christopher M., et al. “Compression forces of internal and external ankle fixation devices with simulated bone resorption.Foot & Ankle International, vol. 31, no. 1, Jan. 2010, pp. 76–85. Epmc, doi:10.3113/fai.2010.0076.
Yakacki CM, Khalil HF, Dixon SA, Gall K, Pacaccio DJ. Compression forces of internal and external ankle fixation devices with simulated bone resorption. Foot & ankle international. 2010 Jan;31(1):76–85.
Journal cover image

Published In

Foot & ankle international

DOI

EISSN

1944-7876

ISSN

1071-1007

Publication Date

January 2010

Volume

31

Issue

1

Start / End Page

76 / 85

Related Subject Headings

  • Stress, Mechanical
  • Orthopedics
  • Models, Biological
  • Middle Aged
  • Materials Testing
  • Male
  • Humans
  • Fracture Fixation
  • External Fixators
  • Cadaver