Duration of incapacity of work after tibial plateau fracture is affected by work intensity

Tibial plateau fractures are severe joint injuries of the lower extremity. Since a notable number of patients sustaining tibial plateau fractures are young, active and in the middle of their working life, these injuries may have a profound effect on the individual’s professional career. The fracture patterns range from non-displaced split fractures and slightly or severely displaced depression fractures to complex comminuted fractures with severe destruction of the joint lines and cartilage lesions. Since the clinical outcome after tibial plateau fractures is closely related to the quality of the reduction [1, 2], each surgical technique must aim for an anatomic reconstruction of the injured joint. However, despite sophisticated understanding of the fracture patterns and modern anatomic angular stable implants the precise reconstruction of displaced or comminuted tibial plateau fractures can be challenging even for experienced trauma surgeons [3].

In the past surgeon oriented outcome measurements such as the Tegner-, Lysholm- or Oxford-Score were widely accepted and established as the only clinical outcome measurement in knee surgery [4, 5]. Other studies focused on return to sports after tibial plateau fractures [6, 7] but overtime patient-reported outcome measurements have gained importance as well as tools for assessing the return to daily activity and working life [8, 9].

However, so far no study has considered the sequelae after tibial plateau fractures and the impact on returning to work or subsequent work intensity. Therefore, the aim of this study was to determine the time until return to work and the professional capacity of patients after operative treatment of tibial plateau fractures. In particular, the study analyzed different work categories and different work intensities. The hypothesis was that heavy load workers would return to work later than white-collar workers.

One hundred and twenty-four consecutive patients were treated surgically for tibial plateau fractures between November 2009 and December 2012 at a level I trauma center. Thirty –nine patients were included in this retrospective study. Inclusion criteria were surgically treated tibial plateau fractures, working capacity/employability at the time of the injury, age between 18 and 65 years (65 years is the normal date of retirement). Exclusion criteria were concomitant injuries of the same extremity (5), polytraumatized patients (9), posttraumatic conditions (3), age under 18 (4) / over 66 (42) – Fig. 1.

All fractures were classified according to the AO-classification (Arbeitsgemeinschaft Osteosynthese) [10].

The most important finding of this study was that incapacity of work was longer in the group with higher workload (median 180 days) compared to the group with low workloads (median 90 days). Given that we noted good mid-term results 29.7 months postoperatively (SD 10.4 months (range 14–47)), this cohort showed a good maintenance of knee function over time, particularly when considering that posttraumatic arthrofibrosis can often have a quick onset. However, a notable number (9 / 23.1%) of patients reported difficulties at their jobs forcing five employees to change to jobs with lower physical strains over time and forcing four patients to reduce the number of working hours per week (10.5 h/week). Although, despite there a relationship being found between the incapacity of work and workload, there was no such correlation concerning the fracture type. The median incapacity of work was 120 days (range 10–700 days) with no significant differences between B- and C-type-fractures.

In the literature several studies have already reported the outcomes after tibial plateau fractures (Table 5). The clinical results concerning the Lysholm Score 73.0 and Oxford Knee Score 37.3 ± 9.81 were in all subgroups comparable to those reported previously (Table 5).

In recent years patient reported outcome measures (PROMs) are gaining importance as these measures more reflect the satisfaction of patients after surgery rather than other outcome measures [20]. Just recently Baumann et al. reported on a study group of 77 skiers after tibial plateau fractures in a long-term follow-up study. It was found out that the PROM-score “forgotten knee score (FJS)”, which had been measured initially at arthroplasty, also significantly correlates with osteoarthritic radiologic knee joint degeneration in fracture cases [9].

However, to our knowledge there is no study that specifically considered return to work after sustained tibial plateau fractures.

Roßbach et al. recently examined patients after operatively treated tibial plateau fractures regarding the quality of life and the job performance. In that study polytraumatized patients and patients with other concomitant injuries of the same limb were included [21] making a comparison to other studies difficult. Eleven out of forty-one patients did not return to work, three patients had to change the profession after the injury after a follow-up of 47 month postoperatively.

Stevens et al. (2001) examined the outcome of 47 patients with operatively treated tibial plateau fractures with a mean follow-up of 8.3 years. They found similar results in the SF-36 scores for most of their patients under the age of forty compared to the healthy age-matched population. In the forty-and-over age group nine patients showed lower results in the SF-36 score compared to the healthy age-matched group. They found that the age of the patients seems to have more influence on the functional outcome rather than the type of the fracture and adequacy of reduction [22]. Also whereas the workload showed an effect on the incapacity of work in this study, age seems to be a minor factor for the clinical outcome. The subgroup analysis showed no differences in patients between 20 and 29 years, 30–45 years and patients between 46 and 65 years of age. We limited the inclusion to an age of 65 years of age because most employees retire at 65 years. This may create a certain bias in our study group as 42 elderly patients were excluded. So we cannot give any details about the recovery and final outcome of these patients. However, the average ages of the patients in this study group can be compared to the previously published studies.

In 2005 Litz et al. reported in his study significant differences in the results of the functional and radiological scores for the different types of tibial plateau fractures. Patients with C-type-fractures had worse results than patients with A- or B-type-fractures. Patients with C-type-fractures had a significant longer incapacity of work (40.5 weeks on average) than patients with A-type-fractures (21.1 weeks) and B-type-fractures (21.9 weeks) [23]. Yao et al. (2014) also found that C-type-fractures had the worst functional score results [24]. It would also be interesting to compare outcomes of infected osteosynthesis or patients with compartment syndrome in a long-term follow up. Fortunately we cannot provide any data, as none of the included patients sustained any of these complications. These complications were noted in the excluded polytraumatized patients.

There are also studies that report on the outcomes in sportsmen, including alpine skiers. Loibl et al. reported that overall only 49% of skiers returned to alpine slopes after a sustained tibial plateau fracture [7]. However, alpine skiing demands highest grades of physical exertion.

Similar results are reported by Kraus et al. in a study with 89 patients after tibial plateau fractures [6]. In this detailed study patients were asked about their sporting habits before, 1 year after injury and at 4.4 years after injury. Interestingly the hours of sports performance did not significantly shrink in the final follow-up. It was observed that patients continued to perform sports but on a less demanding level, shifting form high-impact sports to sports like Nordic walking or swimming.

In the context of knee surgery Schröter et al. studied specific impairments after high tibial osteotomy and also measured the time of return to work and the postoperative workload [12]. In this study the patients returned to work 87 days after surgery (median 87; range 14–450 days). Whether the earlier return to work is related to a better fitness and activity level of the patients undergoing elective surgery remains speculation. Also in that study patients in heavy workload groups needed more time for recovery. The Lysholm Score revealed values of 81.7 ± 12.7 that are similar values to the study group presented and to the studies as shown in Table 5.

In comparison to the upper extremity the time until return to work is longer for patients undergoing knee surgery. A recently published study describes return to work after arthroscopic Bankart repair after 2.06 month (95% CI 1.55–2.68) for jobs with low physical strains and 3.40 month (95% CI 2.70–4.24) for jobs with high physical strains [11].

Several limitations of this study should be considered. The rehabilitation program was only standardized in the first weeks post-surgery. Also an impaired proprioceptive function after successful tibial plateau reconstruction may have hindered return to heavy work. As we assessed operatively treated fractures only, conclusions regarding conservatively treated, possibly less severe fractures are therefore not possible. A further limitation is the small inclusion rate of only 31%. Furthermore the retrospective study design, the heterogeneous patient population and the variation in the length of the follow-ups are noted limitations. However, this study provides first data concerning the incapacity of work and the rehabilitation time for different work groups according to their intensity of work. With the improved anatomically pre-shaped implants and the improved understanding of the tibial plateau fractures future studies need to prove the presented data in a prospective and longitudinal manner.

In this study, a relationship was found between work intensity and the duration of incapacity of work after surgically treated tibial plateau fractures. The post-injury shift to less demanding jobs and the reduction of working hours highlight the impact of a tibial plateau fracture on a patient’s physical ability to work.

The long rehabilitation periods may stimulate demand for intense and standardized rehabilitation programs, especially for high intensity workers.