Lower anxiety level to perform movements after revision anterior cruciate ligament reconstruction with lateral extra-articular tenodesis compared to without lateral extra-articular tenodesis
verfasst von:
T. Vendrig, M. N. J. Keizer, R. W. Brouwer, H. Houdijk, R. A. G. Hoogeslag
To evaluate the anxiety level to perform movements in patients after revision anterior cruciate ligament reconstruction (ACLR) combined with lateral extra-articular tenodesis (LET) compared to patients after revision ACLR without LET.
Methods
Ninety patients who underwent revision ACLR with ipsilateral bone-patellar tendon-bone autograft and with a minimum of 12 months follow-up were included in this study. Patients were divided into two groups: patients who received revision ACLR in combination with LET (revision ACLR_LET group; mean follow-up: 29.4 months, range: 12–80 months), and patients who received revision ACLR without LET (revision ACLR group; mean follow-up: 61.1 months, range: 22–192 months). All patients filled in a questionnaire about anxiety level related to physical activity and sports, the Knee injury and Osteoarthritis Outcome Score (KOOS), the International Knee Documentation Committee subjective form (IKDCsubjective), and the Tegner Activity Score.
Results
Patients in the revision ACLR_LET group had a significantly lower anxiety level to perform movements than patients in the revision ACLR group (p < 0.05). No significant differences were found in KOOS, IKDCsubjective, and Tegner Activity Scores.
Conclusions
Patients who received LET in addition to revision ACLR have a lower anxiety level to perform movements than patients with revision ACLR alone, despite non-different subjective functional outcomes.
Study design
Retrospective cohort study, Level of evidence: III.
Hinweise
Publisher's Note
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Abkürzungen
ACL
Anterior cruciate ligament
ACLR
Anterior cruciate ligament reconstruction
BPTB
Bone-patellar tendon-bone
IKDC
International knee documentation committee
KOOS
Knee injury and osteoarthritis outcome score
LET
Lateral extra-articular tenodesis with the iliotibial band
revision ACLR_LET group
Patients who received revision ACLR combined with LET
revision ACLR group
Patients who only received revision ACLR
Introduction
Anterior cruciate ligament (ACL) injuries are commonly treated with ACL reconstruction (ACLR) [22]. However, 7% to 18% of patients who undergo an ACLR sustain graft failure [27, 28]. A secondary ACL injury is usually treated with revision ACLR, but this leads to inferior functional outcomes compared to primary ACLR [8]. Seventy-nine percent of patients report to have anxiety concerning reinjuring their knee after revision ACLR, which could be a factor leading to inferior outcomes [16]. On the other hand, a factor that could increase anxiety is the presence of residual rotational instability after ACLR [25].
Structures in the anterolateral corner of the knee contribute positively to rotational stability [1, 2]. Anterolateral corner injury is a common secondary injury in ACLR patients [5]. Several surgical procedures to stabilize the anterolateral corner, such as a lateral extra-articular tenodesis with the iliotibial band (LET) are reported to be beneficial for rotational stability in ACLR patients [13]. In fact, a decrease in rotational instability together with an increase in subjective outcomes after primary ACLR combined with anterolateral corner reconstruction has been reported [7, 24]. In patients with revision ACLR an additional LET can also be beneficial, as the return to sports rate is higher in patients who received revision ACLR combined with LET compared to patients who only received revision ACLR [14]. Fear of reinjury is the most common reason for not returning to sports [19], so a possible reason for the higher return to sports rate is that patients with an ACLR and additional LET have a lower anxiety level. However, the actual influence on the anxiety level in performing movements after revision ACLR with LET compared to revision ACLR without LET is unknown.
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Therefore, the aim of the current study was to evaluate the anxiety level to perform movements in patients after revision ACLR combined with LET compared to patients after revision ACLR without LET. Additionally, functional outcome scores were evaluated among the two groups. It is hypothesized that patients who received a revision ACLR combined with LET show lower anxiety levels to perform movements and better functional outcome scores than patients who received revision ACLR without LET.
Methods
A retrospective cohort study was conducted at the Centre for Orthopaedic Surgery and Sports Medicine OCON in Hengelo, The Netherlands and at the Martini Hospital in Groningen, The Netherlands. The institutional review board of Centre for Orthopaedic Surgery and Sports Medicine OCON approved this study (IRB nr: 2,020,101). Patients who received revision ACLR with an ipsilateral bone-patellar tendon-bone (BPTB) autograft, with a minimum follow-up of twelve months, and played a pivoting sport before injury were eligible for this study (Fig. 1). Exclusion criteria were additional knee surgery after revision ACLR and a history of contralateral ACL injury. After inclusion, patients were divided into two groups: 1) patients who received revision ACLR in combination with LET (revision ACLR_LET group), and 2) patients who received revision ACLR without LET (revision ACLR group). The difference in surgical procedure between groups was the result of a change in protocol over the years, when the involved surgeons switched to additional LET based on emerging evidence. High knee instability or other patient related factors such as gender were not a factor for receiving additional LET or not.
Fig. 1
Flowchart of included patients
×
Outcome measures
The outcome measures were:
The anxiety level of patients to perform certain movements, on a scale of 1 to 10 (10 being the highest anxiety level).
The Dutch version of the Knee injury and Osteoarthritis Outcome Score (KOOS) [4].
The International Knee Documentation Committee subjective form (IKDCsubjective) [10].
All included patients were asked to fill in a self-designed questionnaire, which contained questions about anxiety level to perform movements [15], the KOOS subscales, IKDCsubjective, and Tegner Activity Score. The specific question to examine the anxiety level to perform movements was: “Does your knee injury affect you in such a way that you are anxious to perform certain actions and if so how anxious are you (1–10)?” [15]. This questionnaire was sent to the patients by e-mail, together with an explanation of the study. The patients gave their informed consent by submitting the questionnaire. After receiving the filled in questionnaire, the researcher obtained baseline characteristics from the patients’ file, the graft type used for primary ACLR and information about accompanying meniscal or cartilaginous injuries from the patients’ operative form.
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Surgical technique
All surgeries were performed by two experienced orthopaedic surgeons (RAGH and RWB). The surgeons performed one-stage (n = 80) or two-stage (n = 10) ACLR revision surgery, depending on tunnel positioning and/or widening, for which bone-grafting was necessary. ACLR revision was performed using a BPTB autograft harvested from the ipsilateral leg. For drilling the femoral socket the anteromedial portal technique was used. The ACL graft was fixed with interference screws. The modified deep Lemaire technique was used to perform LET [13, 18], using an interference screw to fix the reconstruction [12].
Statistical analysis
The data were processed and statistical testing was performed using SPSS version 26 (IBM SPSS Statistics for Windows, Version 27.0. Armonk, NY: IBM Corp). Independent sample t-test was used to compare the distribution of anxiety level (1–10) between groups (data was continuous and was normally distributed). Fischer’s exact test was used to compare the movements during which anxiety was reported between groups. Independent sample t-tests were used to compare the scores on the KOOS subscales and Tegner Activity Score between groups. To compare the KOOSADL subscale and IKDCsubjective between groups the Mann–Whitney U tests was used because of the highly skewed data (skewness < -2). An alpha level of p ≤ 0.05 was considered statistically significant.
A post-hoc power calculation using means of 4.3 (3.1) and 2.8 (2.6), an alfa of 0.05, and group sizes of 45, revealed a power of 70% for analysis regarding the anxiety level calculated using G*Power 3.1.
Results
Baseline characteristics
Ninety patients were included for analysis, with a mean follow-up of 45.3 months (range follow-up: 12–192 months; Table 1). The difference in follow-up time between groups was the result of a change in protocol over the years, when the involved surgeons switched to additional LET based on emerging evidence.
Table 1
Baseline characteristics of the analyzed patients
Revision ACLR groupa
Revision ACLR_LET groupb
P value
Number of patients
45
45
Male/female
31/14
35/10
n.s
Agec [mean (SD)]
29.6 (7.7)
26.4 (6.78)
n.s
Left/right knee
21/24
20/25
n.s
Follow-up period (months) [mean (range)]
61.1 (22–192)
29.4 (12–80)
< .001*
One-/two stage revision
43/2
37/8
n.s
Primary graft used Hamstring autograft
45
45
n.s
Cartilage injury
n.s
Medial
21
12
Lateral
12
10
Patellar
6
7
Medial meniscal injury
n.s
No
18
27
Yes, no treatment
3
2
Yes, meniscectomy
19
13
Yes, meniscus repair
5
3
Lateral meniscal injury
n.s
No
31
26
Yes, not treatment
2
6
Yes, meniscectomy
12
13
*Significant
aPatients who received revision anterior cruciate ligament reconstruction without a lateral extra-articular tenodesis
bPatients who received revision anterior cruciate ligament reconstruction with a lateral extra-articular tenodesis
cAt follow-up
Anxiety level and functional outcomes
Patients in the revision ACLR group had a significantly higher anxiety level to perform movements than patients in the revision ACLR_LET group (t(88) = 2.44; p < 0.05; Table 2). Movements during which anxiety was reported are presented in Table 3, demonstrating no statistically significant difference in anxiety in performing specific movements between groups (p > 0.05). No statistically significant differences were found between the revision ACLR group and revision ACLR_LET group in KOOS subscales, IKDCsubjective, and Tegner Activity Score (Table 2).
Table 2
Anxiety level, KOOS, Tegner activity score and IKDCsubjective with a minimum follow-up of one year after surgery
Revision ACLRa
Revision ACLR_LETb
P value (2-tailed)
Anxiety level [mean (SD)]
4.3 (3.1)
2.8 (2.6)
.02*
KOOSpain [mean (SD)]
89.07 (12.8)
90.2 (10.3)
n.s
KOOSsymptoms [mean (SD)]
62.1 (12.9)
60.2 (11.0)
n.s
KOOSsport [mean (SD)]
68.9 (22.9)
72.0 (18.1)
n.s
KOOSquality of life [mean (SD)]
54.5 (15.8)
53.9 (13.2)
n.s
KOOSactivities of daily living (median)
98.5
99.0
n.s
Tegner Activity Score [mean (SD)]
5.62 (2.5)
4.9 (2.6)
n.s
IKDCsubjective (median)
82.9
82.9
n.s
*Significant
aPatients who received revision anterior cruciate ligament reconstruction without a lateral extra-articular tenodesis
bPatients who received revision anterior cruciate ligament reconstruction with a lateral extra-articular tenodesis
IKDC = International Knee Documentation Committee, KOOS = Knee injury and Osteoarthritis Outcome Score
Table 3
Self-reported reasons for anxiety
Movements during which anxiety is reported
Revision ACLR groupa (n)
Revision ACLR_LET groupb (n)
Sport-related activities
17
23
Jumping and landing
12
9
Tossing and turning
6
10
Sudden movements
2
1
Running
2
0
Carrying heavy loads
1
0
Kneeling
1
0
Squatting
0
1
Unstable movements
0
2
Fisher’s exact test reported no significant difference between groups (p > .05)
aPatients who received revision anterior cruciate ligament reconstruction without a lateral extra-articular tenodesis
bPatients who received revision anterior cruciate ligament reconstruction with a lateral extra-articular tenodesis
Discussion
The most important finding of this study is that patients after revision ACLR with additional LET experienced a lower anxiety level to perform movements than patients after revision ACLR without LET. Knee instability is reported to negatively affect the physical functioning of the knee [6]. Poorer physical functioning of the knee is related to higher anxiety [23]. Additionally, the perception of moderate to severe knee instability is associated with greater knee pain [3], which is related to the amount of pain-related fear a patient experiences [11]. Moreover, increased knee instability may lower confidence in a patient's knee, which is associated with higher fear of reinjury [9]. Therefore, a possible explanation for the lower anxiety level to perform movements in patients with an additional LET might be a reduction in rotational instability of the knee [7]. Another possible explanation could be that patients who received additional LET received positive psychological reinforcement due to the fact that an extra procedure was performed in comparison to the primary ACLR. This could have given the patients with additional LET more confidence in their knee, which is associated with lower fear of reinjury [9].
Lowering the anxiety level to perform movements in patients after revision ACLR is relevant for multiple reasons. Patients with greater fear are more likely to report lower levels of activity [20]. Secondly, a review of Nwachukwu et al. reported that the most common reason for not returning to sports was fear of reinjury [19]. Additionally, greater fear of movement and reinjury are correlated with lower health-related quality of life [21]. Orthopaedic surgeons should take these factors in consideration for the treatment of patients with a failure of a primary ACLR.
This current study found no difference in the functional outcome of the knee on the basis of the KOOS, IKDCsubjective, and Tegner Activity Score between patients with a revision ACLR and LET compared to patients with only a revision ACLR. This is in line with the study of Keizer et al. [14]. Getgood et al. also found no differences in all KOOS domains and IKDCsubjective score after 12 and 24 months [7]. However, the study of Getgood et al. was done with patients after primary ACLR instead of revision ACLR [7]. The study of Sonnery-Cottet et al. also found no difference in Tegner Activity Score between patients with primary ACLR combined with anterolateral reconstruction and patients with only primary ACLR [7]. In contrast to this current study, the results of Sonnery-Cottet et al. showed a better KOOS and IKDCsubjective score in patients with primary ACLR and additional anterolateral reconstruction compared to patients without additional anterolateral reconstruction [24]. However, the study of Sonnery-Cottet et al. used patients with primary ACLR instead of revision ACLR, and used a hamstring tendon autograft for anterolateral reconstruction instead of LET [24].
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Besides the limitations that are inherent to all retrospective studies, some other limitations have to be discussed. Due to a philosophy change, all revision ACLR patients received additional LET at a certain point. Although this resulted in two similar patient groups, it also resulted in a significantly shorter follow-up of patients with additional LET. The physical function of the knee increases when time goes by after surgery [17]. So, with a shorter follow-up period you would expect worse functional outcome scores, but the results of this study show similar physical function. If the follow-up duration of the ACLR_LET group would have been longer, the functional outcome scores could have been significantly higher in the ACLR with LET group, but more research is necessary to conclude this. Additionally, it is possible that the difference in anxiety level would have been larger with an equal follow-up period. Another limitation is that no objective measurement of knee instability was done. This could have provided additional data to support the hypothesis that the lower anxiety level of patients with additional LET is possibly the result of reduced rotational knee instability. Furthermore, it should be noted that the post-hoc power analysis showed a relatively low power of 70%. Lastly, no proven reliable anxiety questionnaire was used. However, this study does provide insight into the feeling of anxiety patients experience to perform movements.
Conclusions
Our study provides evidence that the anxiety level to perform movements is lower in patients who received revision ACLR combined with LET compared to patients who only received revision ACLR in our cohort, despite non-different subjective functional outcomes. This might be a reason for orthopaedic surgeons to consider additional LET with revision ACLR for patients with failure of a primary ACLR. A randomized controlled trial should confirm these findings.
Acknowledgements
The authors thank Feike de Graaff, Astrid de Vries and Leid de Vries-Gerritsen, who assisted in the selection of participants.
Declarations
Conflict of interest
The authors declare that they have no conflict of interest.
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Ethical approval
The Medical Ethical Committee of OCON Centre for Orthopaedic Surgery and Sports Medicine approved this study (IRB nr: OCON2020101).
Informed consent
Informed consent was obtained from all individual participants included in the study.
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Lower anxiety level to perform movements after revision anterior cruciate ligament reconstruction with lateral extra-articular tenodesis compared to without lateral extra-articular tenodesis
verfasst von
T. Vendrig M. N. J. Keizer R. W. Brouwer H. Houdijk R. A. G. Hoogeslag
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