Dynamic Intraligamentary Stabilization (DIS) for treatment of acute anterior cruciate ligament ruptures: case series experience of the first three years

The most important findings of the current study are that its results corroborate those of the pilot group [22]. This group had consisted of 10 highly selected and motivated young and physically fit individuals, with a ratio of men to women of 8:2 and an average age of 25 years. The current patient sample is more representative regarding the future and more widespread use of DIS. With a ratio of men to women of 6:4 and an average age of 31 years, the patient population has shifted from a clear domination of young men with an intense level of recreational sports activity to a more normally distributed sample of physically active individuals. The short and mid- term results of DIS, however, remain excellent.

The preoperative Tegner activity scale between the pilot group and the current population changed from 6 to 5, reflecting a more sportive patient group in the pilot study. As could be expected with an increasing number of treated patients, the range of results became more widespread, which we consider to be a trend towards normalization rather than one towards worsening. At 6 months after surgery, the median IKDC and Lysholm scores were both above 90, and after 12 months, they had returned to levels of close to 100 with the same Tegner scale as before the ACL rupture. However, there were also some 6-month scores of around 50 points for the Lysholm and IKDC scales, which remained low at 12 months. Nevertheless, overall patient satisfaction was already very high at 6 months, and it further increased with longer follow-up intervals. The 24-months results, despite being at a desirably high level, only represent a 25% follow-up rate, with more patient examinations expected in future.

Our main conclusion from the results of the first 10 patients—namely, that DIS of the knee with a freshly ruptured ACL, in combination with anatomical repositioning and biological improvement of the healing environment, can lead to a biomechanically stable ACL with good functional scores and high patient satisfaction—can now be generalized to a much higher degree. A bias towards optimal results was introduced by the motivation and physical fitness of our first 10 patients. However, the desired functional outcomes in the present 278 cases, an AP side-to-side difference ≤3 mm, a Lysholm score >84 points, and an IKDC score >84%, were reached in 86.8%, 95.6%, and 87.6% of patients, respectively, at the last follow-up. In applying our combined success definition, we found that 77.2% presented an excellent outcome.

It was surprisingly difficult to compare outcomes with other authors. The initial conservative approach with delayed surgery in case of unsatisfactory results leads to pre-surgery instead of pre-injury reporting of activity levels and scores. Since DIS must be performed within few weeks after ACL rupture, we routinely assess patients’ pre-injury activity levels, even if with a retrospective perspective. Streich et al. [27] compared outcomes of double bundle versus single bundle semitendinosus grafts in male athletes and reported pre-injury Tegner activity levels of about 8, and of 7 two years after surgery without any significant group differences. IKDC and Lysholm scores were both around 90 at 2 years after surgery, again without significant intergroup differences. Pre-injury values were not reported. Park et al. compared hamstring based single bundle versus double bundle ACL repair in more normal patient groups with average ages of 28 and 29 years and found Tegner scores of about 5.5 in both groups at 2 years after surgery [28]. Frobell RB et al. compared structured rehabilitation with early ACL reconstruction versus structured rehabilitation with optional delayed ACL reconstruction in an RCT design and measured 2 years-median Tegner activity scores of 6.5 in the early intervention group and of 5 in the optional delayed intervention group. Both groups were about 26 years of average age [3]. Finally a meta-analysis of Biau et al. reported that only about 40% of patients made a full recovery after ACL reconstruction, with only 33% having a normal IKDC score after a semitendinosus transplant and 41% having a normal IKDC after a BTB (ligamentum patellae) transplant. Thus, more than 60% of patients (708 of 1,125 for the two reconstruction groups) did not fully recover (final overall IKDC score class A) after reconstruction [29].

Our findings add further evidence to the paradigm shift that a torn ACL has sufficient healing capacity. We have already presented results of other studies indicating that the injured ACL can produce a stable scar under certain circumstances. Sutures with tissue augmentation [15], placement of undifferentiated stem cells into the rupture zone [30], conservative treatment with an extension block soft brace without anterior stabilization [31], or primary sutures in combination with bone marrow stimulation [32] all lead to scarring or healing of the ACL with consequently improved stability and function in a considerable number of patients.

The essential prerequisites for ACL healing are mainly the same as they are for all biological tissues: stability and integrity of a healing environment. The increased AP translation of the knee with a ruptured ACL leads to a constant disconnection of the 2 ACL stumps and thereby compromises healing by instability [33]. A method of external bracing in posterior translation has already shown success in healing many ACLs, but its discomfort hampers its wider application [31,34]. We have developed a technique for internal dynamic stabilization of the knee by using a screw-spring mechanism that acts as a dynamic internal fixator. It pushes the knee into a maximum posterior translation in any degree of flexion and is also functional when the intraligamentary thread is not placed in an isometric position. This is the crucial point of the technique because the spring allows for a non-anatomical placement, mainly on the tibial side, thus preventing additional trauma to the tibial blood and nerve supply. All previous rigid systems had to be placed isometrically and therefore had to go through the tibial anatomical footprint, which adds additional damage to the biological integrity of the ligament. DIS was first applied in a sheep model and provided sufficient stability to enable biomechanically stable healing of the ACL [21]. Addressing the crucial biological aspects in the pilot series, we made use of the work of Mastrangelo, Murray, and Zumstein [18,35-38] to increase ACL healing capacity by introducing a collagen-platelet composite and solid scaffolds for long-term delivery of growth factors, especially leukocyte- and platelet-rich fibrin (L-PRF). We added Steadman’s microfracturing technique [30] as a further measure for improving the biological healing capacity of the ACL. In the present larger patient group, we abandoned the L-PRF preparation because of recently published negative results about ligament healing [39,40]. Our clinical data confirmed that this change of strategy did not change the clinical and mechanical results.

AP translation measurements at 6–12 months after surgery are only a surrogate measure for the reestablished static stability of the knee joint, but its correlation with patient satisfaction scores was reported to be poor, whereas proprioception is a key aspect in measuring the overall outcome of an ACL reconstruction [41]. Patients in the present study reported satisfaction of 9 out of 10 on the VAS after 1 year, indicating that healing of the ACL tissue may restore not only the 3-dimensional stability of the knee, but also the physiological proprioceptive envelope without adding additional trauma to the knee such as harvesting a donor graft. We attribute the excellent clinical results of the DIS technique to the restored stability of the knee, but even more to the preservation of the ACL tissue, which may allow for the restoration of physiological proprioception. This restoration may also positively affect the rates of late osteoarthritis, which are controversially stated to be higher in patients after surgical ACL grafting compared with conservative treatment [6,42,43] and which may be attributable to loss of proprioception after complete removal of the ACL [1,44,45], as well as to insufficient restoration of the 3-dimensional stability of the knee [46-48]. However, these osteoarthritis rates cannot yet be measured or predicted.

The failure rate of DIS, either as a rerupture of the ligament or a clinically unstable knee, was 3.95% until the end of the study period. Following up on 612 patients, Salmon et al. [49] found a 6.4% rerupture rate at 5 years after an ACL patellar or hamstring tendon graft. Mariscalco et al. [50] found a 5.3% revision rate in 263 patients 2 years after a hamstring tendon graft. The failure rate of DIS is still lower than that reported for an ACL graft, but the 2-year follow-up rate must be completed for more conclusive comparisons. On the other hand, a revision situation after DIS is almost a normal ACL repair surgery because all ligaments are still available for reconstruction – a normal ACL repair with a tendon graft remains as a salvage procedure if the healing procedure fails.

One of the major drawbacks in conservative treatment is the neglect of the concomitant injuries after an ACL injury, mainly the meniscal tears. A missed unstable meniscus, combined with knee instability, will destroy the meniscal tissue and consequently end in surgical removal [51,52]. In the current series, we performed an immediate meniscal suture combined with DIS in 98 patients (36%), thereby creating an ideal environment for meniscal healing. In 29 patients, the tear was only superficial and therefore mechanically stable. Only 1 patient had to undergo revision surgery with an additional successful suture. That means that in 100% of our patients, unstable meniscal tears could be preserved by immediate suturing and stabilization of the knee. According to the latest literature, this could be another factor to decrease the rate of arthritic changes in the future [53-55].

Limitations of the study: The current study has weaknesses that need to be considered. Being a case series, the study can only generate level-four-evidence. We had initially designed a randomized trial for the first ten patients, but a 100% cross over rate of patients allocated to conventional ACL reconstruction made it impossible to conduct the trial. Despite reaching a 2-years maximum follow-up in 22% of reported cases, the average follow-up time is only 14 months and the topic of ACL repair or reconstruction and their long-term outcomes needs much longer follow-up intervals. Further, it is unclear when the internal brace fails and what the consequences for ap-translation of the affected knee are. First analyses revealed a minimal translation increase if the monobloc was removed, but without any clinical or functional consequences. Finally, restoration of knee proprioception after DIS is a clinical hypothesis that cannot yet be proven.