Faculty Collaboration Database

Should distal interlocking of tibial nails be performed from a medial or a lateral direction? anatomical and biomechanical considerations. J Orthop Trauma 1999 Jan;13(1):27-32

Date

01/19/1999

Pubmed ID

9892122

DOI

10.1097/00005131-199901000-00007

Scopus ID

2-s2.0-0032615782 (requires institutional sign-in at Scopus site)   14 Citations

Abstract

OBJECTIVE: To compare the relative risks of neurovascular injury from perforation during distal interlocking and the biomechanical stability of two approaches to distal interlocking of tibial nails.

DESIGN: In vitro anatomical and biomechanical study.

SETTING: All mechanical testing was performed in a servohydraulic test frame with a customized motion transducer.

INTERVENTION: Tibial nails were interlocked distally with a medial-to-lateral (ML) or a lateral-to-medial (LM) approach.

MAIN OUTCOME MEASURE: The distances from the nearest end of each distal locking screw to four neurovascular structures were measured manually with calipers, and two-dimensional motion under simulated stance load across the fracture site was recorded.

RESULTS: There were greater distances from the posterior tibial neurovascular bundle and the superficial peroneal nerve with distal targeting from the LM direction compared with targeting from the ML direction. Biomechanically, the ML nail configuration demonstrated slightly greater resistance to bending than the LM configuration.

CONCLUSIONS: Distal tibial interlocking from the LM direction appears to be safer than interlocking from the ML direction with regard to relative distances from the neurovascular structures. This small anatomical advantage must be considered in light of slightly greater resistance to bending of the ML interlocking configuration compared with the LM interlocking configuration.

Author List

Roberts CS, King D, Wang M, Seligson D, Voor MJ

Author

Mei Wang PhD Associate Professor in the Orthopaedic Surgery department at Medical College of Wisconsin

MESH terms used to index this publication - Major topics in bold

Biomechanical Phenomena
Bone Screws
Cadaver
Fracture Fixation, Intramedullary
Humans
Tibial Fractures