Journal List > J Korean Foot Ankle Soc > v.18(3) > 1043302

Young, Kim, and Moon: The Effect of Temporary K-wire Fixation in the Plate Fixation for Displaced Intra-articular Calcaneal Fracture

Abstract

Purpose:

This study was designed to evaluate the clinical efficacy of temporary K-wire fixation in F-plate fixation for displaced intra-articular calcaneal fractures.

Materials and Methods:

Two groups (group 1 with F-plate fixation only and group 2 with temporary K-wire fixation and F-plate fixation) of patients were included in this study. The temporary K-wire was removed six weeks after the operation. Each group consisted of 33 cases. Rotational axis angles were measured radiographically and the foot and ankle outcome score (FAOS) was used for clinical assessment.

Results:

In group 1, the mean rotational axis angle was reduced from 27o preoperatively to 5.59o postoperatively and the angle at last follow-up was 9.94o. There was an increase in angle of 4.35o between postoperative and the last follow-up measurement. In group 2, the mean rotational axis angle was reduced from 21.2o preoperatively to 4.39o postoperatively and the angle at last follow-up was 5.91o. There was an increase in angle of 1.52o between postoperative and the last follow-up measurement. Significant difference in the changes of rotational axis angle was observed between the two groups. However, no significant difference in FAOS was observed between the two groups.

Conclusion:

Temporary K-wire fixation can prevent reduction loss when treating displaced intra-articular calcaneal fractures with an F-plate.

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Figure 1.
(A) This is a schematic diagram of the classic Essex-Lopresti ‘tongue-type’ fracture. Postero-inferior traction and rotation force are necessary for reduction of posterior facet and calcaneal tuberosity fragments. (B) This is a schematic diagram of the temporary K-wire fixation followed by F-plate fixation. ①: calcaneal tuberosity, ②: subtalar joint, ③: talar body.
jkfas-18-119f1.tif
Figure 2.
These are lateral radiographs of the right calcaneus. (A) This is a preoperative radiograph of 32-year-old male patient’s calcaneus, showing the classic Essex-Lopresti ‘joint depression type’ and ‘tongue type’ fracture. (B) This is a postoperative radiograph showing open reduction with temporary percutaneous K-wire fixation from calcaneal tuberosity through subtalar joint to talar body, followed by F-plate fixation. (C) This is a follow-up radiograph, 2 years after the operation, showing a good reduction state of posterior calcaneal facet.
jkfas-18-119f2.tif
Figure 3.
This is a schematic diagram of ‘rotational axis angle (θ)’ of calcaneus in lateral radiograph. Rotational axis angle is the angle between two tangent lines, ① and ②. ①: tangent line of center in talar posterior articular facet, ②: tangent line of center in calcaneal posterior articular facet, rotated and displaced anteriorly and inferiorly.
jkfas-18-119f3.tif
Table 1.
Perioperative Changes of Rotational Axis
Rotational axis (o) Group 1 Group 2
Preoperative 27 21.2
Postoperative 5.59 4.39
Postoperative 6 mo 9.94 5.91

Values are presented as mean.

Group 1: F-plate fixation only, Group 2: temporary K-wire fixation and F-plate fixation.

Table 2.
Foot and Ankle Outcome Score
Pain Symptom ADL Sports/ recreation QOL
Group 1 88 83 89 67 66
Group 2 84 82 93 75 56
p-value* 0.710 0.902 0.902 0.535 0.318

Values are presented as mean.

Group 1: F-plate fixation only, Group 2: temporary K-wire fixation and F-plate fixation.

ADL: activities of daily living, QOL: foot and ankle-related quality of life

* Mann-Whitney U test.

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