All the assessments were performed in all the retrieved rods with obtained results summarised in Table 1.
Table 1 Results of plain radiographs, visual inspection, surface mapping and material loss assessment
|
Case
|
Rod
|
Rod type
|
Lot number
|
Plain radiographs
|
Visual inspection (wear marks)
|
Map 1
|
Map 2
|
Wear depth (μm)
|
Wear area (mm2)
|
Normalised wear area (mm2/mm)
|
1
|
1
|
1.2
|
A130313-03
|
intact
|
circumferential
|
unmatched
|
matched
|
41.2
|
0.428
|
0.071
|
2
|
1.2
|
A130523-01
|
intact
|
circumferential
|
unmatched
|
unmatched
|
1.9
|
0.008
|
0.001
|
2
|
3
|
1.2
|
A130130-02
|
intact
|
circumferential
|
matched
|
matched
|
95.8
|
2.757
|
0.084
|
3
|
4
|
1.2
|
120314-002
|
unclear
|
circumferential
|
unmatched
|
unmatched
|
5.8
|
0.002
|
0.001
|
4
|
5
|
1.2
|
A140702-09
|
intact
|
circumferential
|
matched
|
matched
|
62.2
|
0.588
|
0.098
|
6
|
1.2
|
A140605-01
|
dislocated thread
|
longitudinal
|
matched
|
matched
|
131.0
|
0.567
|
0.142
|
5
|
7
|
1.2
|
A141014-17
|
intact
|
circumferential
|
matched
|
matched
|
26.9
|
0.063
|
0.016
|
8
|
1.2
|
A150220-08
|
intact
|
no
|
unmatched
|
unmatched
|
2.3
|
0.005
|
0.002
|
6
|
9
|
1.1
|
110112-010-017
|
intact
|
circumferential
|
matched
|
matched
|
38.2
|
1.169
|
0.032
|
7
|
10
|
1.2
|
A130614-04
|
fractured pin
|
combined
|
matched
|
matched
|
103.0
|
2.918
|
0.224
|
11
|
1.2
|
A130306-03
|
dislocated thread
|
combined
|
matched
|
matched
|
85.4
|
3.946
|
0.219
|
8
|
12
|
1.2
|
A130604-10
|
fractured pin
|
combined
|
unmatched
|
matched
|
129.0
|
12.873
|
0.348
|
9
|
13
|
1.2
|
A140127-09
|
intact
|
circumferential
|
unmatched
|
unmatched
|
12.2
|
0.060
|
0.002
|
14
|
1.2
|
A130919-13
|
intact
|
circumferential
|
matched
|
matched
|
28.7
|
0.747
|
0.026
|
10
|
15
|
1.3
|
A150403-08
|
intact
|
circumferential
|
matched
|
matched
|
15.8
|
0.087
|
0.005
|
16
|
1.3
|
A150717-14
|
intact
|
circumferential
|
matched
|
matched
|
60.7
|
2.574
|
0.135
|
11
|
17
|
1.3
|
A150728-01
|
intact
|
circumferential
|
matched
|
matched
|
25.6
|
0.077
|
0.013
|
18
|
1.2
|
A140702-09
|
intact
|
circumferential
|
matched
|
matched
|
26.9
|
0.518
|
0.020
|
12
|
19
|
2.0
|
A150519-14-00
|
fractured pin
|
longitudinal
|
unmatched
|
matched
|
92.4
|
3.424
|
0.245
|
20
|
2.0
|
A150519-12-00
|
fractured pin
|
longitudinal
|
unmatched
|
unmatched
|
48.9
|
1.252
|
0.125
|
13
|
21
|
1.2
|
A140604-05
|
intact
|
circumferential
|
matched
|
unmatched
|
89.0
|
4.675
|
0.195
|
22
|
1.2
|
A140220-03
|
intact
|
circumferential
|
matched
|
matched
|
44.0
|
0.161
|
0.032
|
14
|
23
|
1.2
|
A131111-06
|
unclear
|
circumferential
|
unmatched
|
unmatched
|
10.2
|
0.004
|
0.002
|
24
|
1.2
|
A140414-06
|
intact
|
circumferential
|
matched
|
matched
|
27.2
|
0.051
|
0.026
|
15
|
25
|
1.2
|
A140425-12
|
intact
|
circumferential
|
matched
|
matched
|
65.2
|
1.147
|
0.048
|
26
|
1.2
|
A140127-09
|
intact
|
circumferential
|
unmatched
|
matched
|
31.4
|
0.168
|
0.013
|
16
|
27
|
1.2
|
A140301-05
|
intact
|
circumferential
|
matched
|
matched
|
52.7
|
1.423
|
0.119
|
28
|
1.2
|
A140813-02
|
intact
|
circumferential
|
matched
|
matched
|
88.5
|
1.187
|
0.148
|
17
|
29
|
1.2
|
A140604-05
|
intact
|
circumferential
|
matched
|
matched
|
65.4
|
1.728
|
0.052
|
30
|
1.2
|
A131111-06
|
intact
|
circumferential
|
matched
|
matched
|
15.8
|
0.367
|
0.015
|
18
|
31
|
1.2
|
A140127-09
|
fractured pin
|
longitudinal
|
matched
|
matched
|
16.7
|
0.099
|
0.008
|
19
|
32
|
1.2
|
A141222-01
|
fractured pin
|
circumferential
|
matched
|
matched
|
9.9
|
0.036
|
0.009
|
20
|
33
|
1.2
|
A140308-03
|
fractured pin
|
combined
|
matched
|
matched
|
168.0
|
10.356
|
0.414
|
34
|
1.2
|
A140127-08
|
fractured pin
|
combined
|
matched
|
matched
|
99.4
|
4.043
|
0.225
|
Plain radiographs
An intact internal mechanism was observed in 22 rods (65%), while 10 rods (29%) showed evidence of a damaged internal mechanism (Fig. 5). Fractures of locking pins were detected in 8 rods (24%), while the internal thread mechanism of telescopic bars was dislocated in 2 rods (6%). The status of internal mechanism was unclear in 2 rods (6%).
Fig. 5 Plain radiographs of four MAGEC rods showing an intact internal mechanism (a), locking pin fracture (b), dislocated internal thread of the telescopic bar (c) and unsure status of internal mechanism (d)
Visual inspection
33 rods (97%) showed evidence of wear marks on one side of the telescopic bars (Fig. 6). Circumferential wear marks were seen in 24 rods (71%), while longitudinal wear marks were noticed in 9 rods (27%), of which 5 rods were combined with circumferential wear marks. 2 rods (rod 19, 20) showed modified design in the telescopic bars (Fig. 6e).
Fig. 6 Photographs of the telescopic region of five MAGEC rods showing no wear mark (a), circumferential wear marks (b), longitudinal wear marks (c), combined wear marks (d) and a modified telescopic design (e)
Surface mapping
The median (INQ) of the measuring length (mm) was 13 (5.8-25), while the median (INQ) number of traces was 12.5 (9-16.5). The resulting contour maps of 24 rods (71%) corresponded to the visible wear marks in the telescopic bars, while surface mapping in 10 rods (29%) failed to reflect the actual profile of surface wear (Fig. 7).
Fig. 7 Photographs and surface contour maps of the telescopic region of two MAGEC rods. Each rod was mapped twice with serial traces taken at 10° and 1° interval in the visible worn and the most worn regions, respectively. The surface maps corresponded to the visible wear in the first rod (a), while the surface maps of the second rod failed to depict the actual wear profile (b)
Quantitative assessment of material loss
For surface mapping in the most worn region, the median (INQ) number of traces was 60 (42.3-60). The obtained contour maps of 27 rods (79%) corresponded to the visible wear marks (Fig. 7). As for the quantification of material loss, the medians (INQ) of wear depth (μm), wear area (mm²) and normalised wear area (mm2/mm) were 42.6 (16.5-88.6), 0.577 (0.074-2.619) and 0.040 (0.012-0.143), respectively.
Mann-Whitney test found a significant difference in the three material loss values between rods with intact and damaged internal mechanism (p<0.05) (Fig. 8). For the damaged group, the medians (INQ) of these three values were 95.9 (40.9-129.5), 3.171 (0.450-5.621) and 0.222 (0.096-0.270), higher than that of the intact group, i.e. 34.8 (23.2-63.0), 0.473 (0.074-1.246) and 0.029 (0.013-0.087). No significant difference was found in these three values between rods with different types of damages in the internal mechanism (p>0.05).
Spearman correlation test found a significant and positive correlation between time to explantation and wear area (r=0.433, p<0.05), while a stronger correlation (r=0.692, p<0.05) was found between time to explantation and the summed wear area of dual constructs. No significant correlation was found in the wear depth and normalised wear area between the two variables (p>0.05).
Kruskal-Wallis test showed a significant difference in the wear area between different pre-operative diagnosis groups (p<0.05), although no significant difference was found in wear depth and normalised wear area between these groups (p>0.05). By comparing material loss between any two diagnosis groups, the idiopathic scoliosis group was found to have significantly higher medians (INQ) of the three material loss values (p<0.05) (Fig. 9), i.e. 50.8 (26.6-71.2), 1.167 (0.166-1.939) and 0.050 (0.014-0.139), compared with 13.5 (9.9-24.6), 0.043 (0.012-0.087) and 0.009 (0.004-0.021) for the syndromic scoliosis group.
The rods of planned revisions were found with increased wear area (mm2), i.e. 1.158 (0.162-2.878), compared with 0.473 (0.056-1.711) for the rods of unplanned revisions (Fig. 10), although the difference was not significant (p>0.05). No significant difference was found in the material loss between different reasons for unplanned revision (p>0.05). No significant relationship was found between the three material loss values and the gender and age at implantation of patients (p>0.05).
Fig. 8 Box and Whiskers plot presenting the significant difference in wear depth (a), wear area (b) and normalised wear area (c) between retrieved MAGEC rods with intact and damaged internal mechanism (p<0.05)
Fig. 9 Box and Whiskers plot presenting the significant difference in wear depth (a), wear area (b) and normalised wear area (c) between retrieved MAGEC rods from patients diagnosed with idiopathic and syndromic scoliosis before the surgeries (p<0.05)
Fig. 10 Box and Whiskers plot presenting the difference in wear area between retrieved MAGEC rods from planned and unplanned revisions (p>0.05)
Repeatability and reproducibility
No significant difference was found in the three material loss values between two intra-observer repeats of Talyrond scanning and TalyMap calculations as well as the two inter-observer repeats of TalyMap calculations (p>0.05).