Abstract
The aim of this study is to identify the incidence of mal-rotation of TKR components in a group of patients with unexplained knee pain identified from the University of Dundee joint replacement database and compare that group with a group of painless TKRs
38 of 45 NexGen LPS Total Knee Replacements identified with unexplained pain at a minimum of 1 year following surgery underwent CT scanning to determine rotational alignment. All patients had a Knee Society Pain score of 20 points or less and a mean Visual Analogue Pain Score of greater than 4.0. This group was compared with a control group of 26 TKRs all of which had never reported pain from 1 year post surgery.
In the painful group mean femoral component rotation was 2.2° of internal rotation (range 8.8°IR to 3.9°ER, sd 3.6, SEm 0.59) compared to 0.9°IR (range 6.9°IR to 6.8°ER, sd 3.39, SEm 0.67) in the painless group (p= 0.15). In the painful group 21.6% of femoral components were more than 6° internally rotated compared with 7.7% in the painless group however this was not statistically significant (p=0.18). No femoral components in either group were in excessive (over 8 degrees) ER.
Tibial component rotation was much more variable than femoral component rotation in both groups particularly in the painful group. Mean tibial component rotation was 4.1°IR (range 37.9°IR to 31.1°ER, sd 14.6, SEm 2.4) in the painful group compared to 2.2°ER (range 8.5°IR to 18.2°ER, sd 6.95, SEm 1.36) in the painless group (p=0.024). 15 tibial components (39.5%) were greater than 10° internally rotated in the painful group whilst no tibial components were more than 10° internally rotated in the pain free group (p< 0.001). In the painful group 7 tibial components (18.4%) were more than 10° externally rotated whilst 4 (15.4%) were in more than 10° ER in the painless group (p=1.00). Overall 22 tibial components (57.9%) were in more than 10° of malrotation in the painful group compared with 4 (15.4%) in the pain free group (p=0.05).
Mean rotational mismatch between femoral and tibial components was 1.9° tibial IR (range 39.7° tibial IR to 35.1° tibial ER, sd 16.1, SEm 2.7) in the painful group whilst in the painless group mean rotational mismatch was 3.1 degrees tibial ER (range 10.3° tibial IR to 22.1° tibial ER, sd 8.4, SEm 1.65). This difference was not significant (p=0.12). 16 TKRs (55.3%) had rotational mismatch of more than 10° in the painful group compared to 7 (26.9%) in the control group (p=0.02).
We conclude that rotational malalignment is frequent in painful total knee replacements and may be a major cause of pain after TKR. In particular tibial internal rotation is the most frequent alignment error in the painful TKR and appears to play a major role in the aetiology of pain after TKR.
Correspondence should be addressed to Ms Larissa Welti, Scientific Secretary, EFORT Central Office, Technoparkstrasse 1, CH-8005 Zürich, Switzerland