Combined Intra- and Extra-articular ACL Reconstruction Versus Isolated Intra-articular ACL Reconstruction
146 patients around the world
Available in Brazil
1. Introduction Arthroscopic reconstruction of the anterior cruciate ligament (ACL) is
a well-established procedure known for its superiority over non-surgical treatment
of this injury. However, failure rates following ACL reconstruction can vary from
3-6% in some patient cohorts up to 40% in patients at increased risk of re-injury
Hamstring autograft are the most commonly used for ACL reconstruction. Considering
that the final graft diameter inferior to 8mm is associated to increased failure
rate, and that increased intra-articular diameter is considered a protective factor,
the preparation of hamstring autografts influences the final outcome. Historically
used quadrupled hamstring grafts have been progressively replaced in recent years by
quintupled or sextupled graft configurations in order to increase final graft
diameter.
However, instead of using configurations that prioritize increasing the final
diameter of hamstring autografts, ACL reconstruction associated with extra-articular
reconstruction of the anterolateral ligament (ALL) may be performed using a portion
of the gracilis, prioritizing the reconstruction of the ALL rather than increasing
the intra-articular graft diameter. The association of the ALL serves two main
functions: to decrease rotational instability, which can reach up to 40% in
high-risk patients, and to mechanically protect the graft.
In a comparative analysis pairing patients with similar characteristics, ACL + ALL
reconstruction showed significantly lower rerupture rate compared to isolated ACL
reconstruction: 3.5% versus 17.4%. In another comparative analysis also pairing
patients for similarity, isolated ACL reconstruction with bone-patellar tendon-bone
(BTB) autograft showed a 3x higher risk of rerupture compared to ACL + ALL
reconstruction with hamstring autografts.
Thus, the investigators hypothesize that extra-articular reinforcement with ALL
reconstruction associated with anatomical ACL reconstruction with hamstring
autograft may improve knee stability and help reduce the re-injury rate compared to
isolated anatomical reconstruction with quintuple or sextuple hamstrings that
prioritize graft diameter, following a well-defined criterion of indication for
patients at increased risk of re-injury. In this way, the investigators intend to
compare two methods through a randomized clinical trial: intra- and extra-articular
reconstruction of the ACL with ALL with hamstring autograft versus isolated
anatomical reconstruction of the ACL with quintuple or sextuple hamstring autograft.
2. Hypothesis Anatomical ACL reconstruction associated with extra-articular ALL
reconstruction with hamstring autograft will present better functional results,
better stability, lower clinical failure rate, and lower graft rupture rate when
compared to isolated intra-articular anatomical ACL reconstruction with quintuple or
sextuple hamstring autograft.
3. Objectives To compare the functional results, stability, clinical failure rate, and
graft rupture rate of individuals undergoing anatomical ACL reconstruction
associated with extra-articular ALL reconstruction with hamstring autograft compared
to isolated intra-articular anatomical ACL reconstruction with quintuple or sextuple
hamstring autograft.
4. Group Formation and Intervention Description
After randomization, two groups will be formed:
Group A: Anatomic ACL Reconstruction combined with Extra-Articular Reconstruction
with Anterolateral Ligament. The single gracilis strand ALL graft will be passed
deep to the iliotibial tract (and superficial to the lateral collateral ligament),
entering the tibial tunnel from proximal to distal with its Ethibond terminal
portion tied to the tibial terminal portion of the ACL Ethibond with the knee in
extension and neutral rotation - without added fixation devices. Wound closure in a
layered fashion concludes the procedure.
Group B: Isolated Intra-Articular Anatomic ACL Reconstruction
5. Patient Evaluation Patients included in the study will be evaluated preoperatively
and postoperatively at 3, 6, 9, 12, and 24 months.
6. Return to Sport Criteria All patients will be advised to return to sport only after
meeting the following criteria: full range of motion, absence of moderate or severe
pain, absence of clinical failure criteria, a minimum of 9 months post-operative
period, and completion of FIFA 11+ training for prevention for at least 3 months.
7. Strategies to Improve Adherence and Monitoring Utilization of the Maia Health Tech
platform (São Paulo, SP, Brazil), a mobile data collection system with cloud storage
and LGPD protection with data anonymization, also using WhatsApp for messaging.
Pre-scheduled messages according to the evaluation timeline will assist in patient
adherence and monitoring.
8. Circumstances Allowing the Termination of Blinding with Group Revelation Since
blinding will occur only for the statistician and partially for data recorders, it
will exceptionally be necessary to terminate the blinding.
9. Data Collection Part of the data will be collected in person by people who will have
access to knowledge of which group each patient is in. Data will be recorded on the
RedCap platform (Vanderbilt, Tennessee).
Part of the data will be collected remotely, with blinding, using the Maia Health
Tech Platform (São Paulo, SP, Brazil), a mobile data collection system with cloud
storage and HIPAA-compliant protection with data anonymization, also using WhatsApp
for messaging, which will send the following questionnaires to patients: IKDC,
Lysholm, KOOS, Tegner, and VAS. One of the investigators will send the patients'
phone numbers to the platform so that it can send the data to be collected via
WhatsApp through the patient's number. This data will be sent by the Maia Health
Tech platform to the RedCap platform autonomously and pre-programmed, without anyone
involved in the study intermediating.
To reduce patient loss during follow-up, the current phone number of the patient,
and the phone numbers of two additional close contacts will be collected in case the
patient changes their number. The patient will also be instructed to inform the
investigator responsible for registering the phone numbers of patients, as well as
the Maia Health Tech platform, of any number changes.
The collected data will be submitted to the RedCap platform. Only the investigators
Marcos Vinicius Credidio, Enzo Salviato Mameri, and Thiago Bueno Sanchez will have
access to this platform.
On the RedCap platform, the name, ID, and date of birth of each patient will be
included to avoid duplication of records.
10. Statistics A priori Power Analysis - Sample Calculation For the sample size
calculation, the G*Power 3.1.9.7 program (http://www.gpower.hhu.de/) was used.
To compare if there is a difference in the frequencies of variables related to ACL
graft rupture rate and clinical failure rate (dichotomous categorical variables)
between the two groups of interest, the Chi-Square test was used. For this
contingency table, the statistical power calculation considered the following
criteria: significance level α of 5%, effect size of 25%, and degree of freedom (df)
equal to 1. In a contingency table, the df is calculated as follows: (number of rows
- 1) x (number of columns - 1). Considering that the study has two groups and that
the variables related to the ACL graft rupture rate and clinical failure rate are
dichotomous categorical variables, the calculated degree of freedom was 1. Thus, the
sample size calculated for these analyses was 126 individuals. Anticipating a 15%
loss of patients during follow-up, 145 patients will be needed to evaluate the graft
rupture rate and clinical failure rate as primary outcomes.
To compare if there is a functional difference through the scores obtained from the
IKDC, Lysholm, and KOOS questionnaires (numerical variables) between the two study
groups using the t-Student test (parametric) or Mann-Whitney test (non-parametric),
using a significance level α of 5%, type β error probability of 20%, an observed
power of 80% (1-β), and an effect size of 25%, the total calculated sample size was
506 patients. Anticipating a 15% loss of patients during follow-up, 581 patients
will be needed to evaluate functional differences, initially considered secondary
outcomes.
11. Statistical Analysis The analysis of quantitative variables will be performed with
the calculation of mean, standard deviation, and 95% confidence interval for each
estimated point. Secondary variables (categories) will be analyzed through absolute
and relative frequency with a 95% confidence interval calculation. Data will be
presented in bar graphs and tables for sample characteristics.
12. Interim Analysis and Guidelines for Study Termination A partial analysis will be
performed halfway through recruitment with a minimum follow-up of 12 months, and the
study will be interrupted if a 30% difference in the primary outcome is observed.
The partial analysis will be conducted by a statistician not directly involved in
the study, and the decision to terminate the study based on the above criteria will
be made by the lead researcher.
13. General, Local Risks, and Adverse Effects The main risks, regardless of the surgical
technique used, are as follows: anesthetic risk (e.g., inadvertent punctures,
bleeding in venous or spinal anesthesia access, post-spinal anesthesia headache,
urinary retention), surgical site infection, swelling and bruising in the knee
joint, deep vein thrombosis, pulmonary embolism, neurovascular injuries,
unsatisfactory results, and even death (a very rare occurrence but possible in any
surgical or anesthetic procedure). The postoperative period presents situations of
discomfort inherent to the recovery and rehabilitation of the research participant.
Adverse effects will be considered any undesirable medical events that the study
participant experiences. Range of motion will be evaluated with a goniometer to
analyze its loss, and any other signs of clinical problems such as persistent
effusion, surgical wound complications, and thrombosis will be documented.
Serious adverse effects will be considered: unexpected surgical or medication
effects resulting in death, life-threatening conditions, requiring hospitalization,
resulting in permanent disability, or necessitating surgical intervention for
resolution.
14. Benefits for the Patient The benefits to the participant, regardless of the surgical
technique used, which are well-established in the literature and routinely performed
by the interventionists, include the potential for improved function and reduced
pain in the affected limb. Additionally, patients will undergo physical therapy
rehabilitation and receive the necessary analgesic support for comfort and
well-being. There will be no financial benefit for the patient.
15. Study Justification The study aims to elucidate the best method for preparing
hamstring autograft grafts for ACL reconstruction using the same amount of implants
in both studied techniques. As these tendons are the most commonly used grafts for
ACL reconstruction worldwide, the study's results are expected to have a significant
impact on the scientific community, aiding in the better treatment choice for
patients.
16. Funding The study will be self-funded.