RESPONSE OF METACARPAL FRACTURE FIXATION CONSTRUCTS TO PHYSIOLOGICAL LOADINGS

Authors

  • KEIKHOSROW FIROOZBAKHSH From the Department of Mechanical Engineering, Biomechanics Division, Sharif University of Technology, Tehran, Islamic Republic of Iran
  • MOHEB S. MONEIM the Department of Orthopedics and Rehabilitation, Medical School, University of New Mexico, Albuquerque, New Mexico, U.S.A.
Abstract:

This study compares the functional capabilities of different metacarpal fixation constructs under physiological loadings in an attempt to identify the optimal construct rather than the strongest one. One hundred and twenty-six preserved human metacarpals were mechanically tested after oblique osteotomies and internal fixation. Maximum load to failure, average structural rigidity, and energy absorbed were determined. All the fixations, except the intramedullary rods, tolerated the assigned physiological loadings below their failure limits in tension and torsion. The safety factor for K-wire tension band in bendings was only 1.4, which is very low compared to those of dorsal plate fixation (4.3) and the two interfragmentary lag screw fixation (4.0). Both torsional and axial rigidity of the K-wire tension band fixation were significantly less than the two interfragmentary lag screw fixation. Fixation by two interfragmentary lag screws was the optimal method, providing adequate strength and stability while requiring less soft tissue dissection than dorsal plate fixation.

Upgrade to premium to download articles

Sign up to access the full text

Already have an account?login

similar resources

response of metacarpal fracture fixation constructs to physiological loadings

this study compares the functional capabilities of different metacarpal fixation constructs under physiological loadings in an attempt to identify the optimal construct rather than the strongest one. one hundred and twenty-six preserved human metacarpals were mechanically tested after oblique osteotomies and internal fixation. maximum load to failure, average structural rigidity, and energy abs...

full text

Role of soft tissues in metacarpal fracture fixation.

The contribution of soft tissues in stabilizing fracture fixation in metacarpals is appreciated clinically, but no quantitative biomechanical study of their role has been done. All previous studies of fracture fixation in vitro have been done on metacarpals denuded of soft tissues. To quantify the role of soft tissues in metacarpal fracture fixation, the biomechanical effectiveness of four fixa...

full text

Fixation for metacarpal neck fracture: a biomechanical study.

BACKGROUND There is no robust evidence of the best operative treatment for displaced unstable metacarpal neck fractures. Numerous constructs are used in the fixation of metacarpal neck fractures. Currently, two common methods are dorsal locking plate and K-wire fixation. A new metacarpal sled fixation system for metacarpal neck fracture was designed to provide fracture stability but limit disse...

full text

MULTI FRACTURE/DELAMINATION ANALYSIS OF COMPOSITES SUBJECTED TO IMPACT LOADINGS

A combined finite/ discrete element method is presented for modelling of composite specimens subjected to dynamic/impact loadings. The main task is set on developing an algorithm for simulation of potential bonding and debonding/delamination phenomena during impact or general dynamic loading conditions. In addition, full fracture analysis can also be performed. The proposed approach adopts a ge...

full text

Biomechanical evaluation of metacarpal fracture fixation: application of a 90° internal fixation model.

PURPOSE Complications in metacarpal fracture treatment increase in proportion to the severity of the initial injury and the invasiveness of the surgical fixation technique. This manuscript evaluates the feasibility of minimizing internal fixation construct size and soft tissue dissection, while preserving the advantages of stable internal fixation in a biomechanical model. We hypothesized that ...

full text

A Case of Fifth Metacarpal Neck Fracture

Aims: Determining the impact mechanism is one of the most important measures in forensic science. The mechanism of fracture of the metacarpal neck is squeezed directly into the fist. Often, this type of fracture is due to the impact of the first depending on the hard. In this study, we introduce a case of this fracture. Patient’s Information: He was a middle-aged man, who had ache with various ...

full text

My Resources

Save resource for easier access later

Save to my library Already added to my library

{@ msg_add @}


Journal title

volume 10  issue 1

pages  59- 63

publication date 1996-05

{@ msg @}

By following a journal you will be notified via email when a new issue of this journal is published.

Keywords

Hosted on Doprax cloud platform doprax.com

copyright © 2015-2023