Return to Sports Activity After Opening Wedge High Tibial Osteotomy in Elderly Patients

Background: The purpose of this study was to evaluate return to sports (RTS) after opening wedge high tibial osteotomy (OWHTO) in elderly patients and associated factors affecting RTS. Methods: Seventy-four patients (mean age 68 years) who underwent OWHTO were enrolled. Clinical outcomes were evaluated using the Knee Society Score (KSS). Patients were asked regarding types of sports activities and their levels of participation within preoperative 1 year and postoperative 1 year. Levels of participation in sports and recreational activities were examined using the Tegner activity scale. The outcomes were compared between two age groups ( ≥ 70 years vs <70 years). Results: Of the 74 patients overall, 59 participated in at least one sport preoperatively, and 55 returned to sports postoperatively (RTS 93%). The KSS knee score and function score were signicantly improved after surgery in both age groups (P<0.05), but no signicant differences were found between the age groups. The Tegner activity scales for ≥ 70 years and <70 years were 2.9±1.1 and 4.0±1.9 preoperatively (P<0.01) and 2.7±1.2 and 3.3±1.4 postoperatively (P=0.16), respectively. RTS was reported by 24 of 25 (96.0%) in the age <70 years group and 31 of 34 (91.2%) in the age ≥ 70 years group. Of the patients who reported RTS, 66.7% in the age <70 years group and 77.4% in the age ≥ 70 years group could return to the same or higher level. Conclusions: The rate of RTS after OWHTO was high in elderly patients. OWHTO is a preferred surgical option for elderly patients who desire RTS.


Introduction
Osteoarthritis (OA) of the knee is a common disease in the aged population and the leading cause of restriction of activities of daily living (ADL). Since most countries have rising life expectancy and an aging population, extension of healthy life expectancy is a critical issue, and an improvement of quality of life, including enjoyment of sports activities, is often required.
High tibial osteotomy (HTO) is an established treatment option for OA of the knee. The procedure is performed to correct lower limb alignment and reduce mechanical force on the affected compartment.
Proper overcorrection provides pain relief and subsequent improvement of knee function [1,2]. The opening wedge HTO (OWHTO) has recently become commonly used, and good mid-term to long-term clinical outcomes have been demonstrated in patients over 70 years of age [3].
The advantage of HTO compared to knee replacement surgeries is that it is a joint-preserving procedure that is good for maintaining physical activity. Several studies reported a high rate of return to sports (RTS) activity after OWHTO [4][5][6]. However, most of the reports involved younger patients, and the rate of RTS in elderly patients is unknown. Furthermore, factors related to RTS after HTO have not been well elucidated.

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The purpose of this study was to evaluate RTS after OWHTO in elderly patients more than 70 years of age and identify factors related to RTS. It was hypothesized that the rate of RTS after OWHTO is high in elderly patients.

Patients
A total of 201 patients underwent OWHTO between 2015 and 2018. Inclusion criteria were painful osteoarthritis or osteonecrosis localized to the medial compartment of the knee. Exclusion criteria were patients with severe varus deformity (anatomical varus alignment > 5°), exion contracture > 15°, or a history of in ammatory arthritis, joint infection, or immunosuppressive therapy. Following the surgery, 129 patients were followed-up appropriately for at least one year. Of these patients, 74 completed questionnaires (Fig. 1). The patients consisted of 55 female and 19 male patients, with mean age of 68.1 ± 8.1 years (median age of 70, range, 49-83 years). The mean follow-up period was 32.9 ± 12.9 months (range, 12-59 months). To evaluate the effect of age, outcomes were compared between two age groups (≥ 70 years vs < 70 years). Demographic data are shown in Table 1. This study was approved by the institutional review board of Yokohama City University (#B190900037). Written, informed consent was obtained from all participants. Surgical procedure and postoperative management HTO was performed using biplanar opening-wedge technique with rigid plate xation [3]. The amount of angular correction was planned preoperatively aiming to achieve tibiofemoral anatomical valgus of 10°i n a one-leg standing radiograph postoperatively. The osteotomy gap was lled with two wedged blocks of β-TCP with 60% porosity (Osferion, Olympus Terumo Biomaterials. Corp., Tokyo, Japan) and xed with TomoFix (DePuy Synthes, Zuchwil, Switzerland).
Patients started a postoperative rehabilitation program including isometric quadriceps and range-ofmotion exercises the day after surgery. A non-weight-bearing regimen was prescribed for 1 week, followed by full weight-bearing exercise. Casts or supportive devices were not applied.

Clinical and radiographic outcomes
Clinical outcomes were evaluated using the Knee Society Score (KSS), including the knee score and the function score. For radiographic assessment, a long-leg anteroposterior weight-bearing radiograph of the knee was taken 1 year after surgery. Limb alignment was expressed as the femorotibial angle (FTA), de ned as the lateral angle between the femoral tibial axes [2], and the percentage of mechanical axis deviation (%MAD), de ned as the ratio of the distance from the medial border of the proximal tibia to the mechanical axis of the lower limb to the width of the proximal tibia [7].

Sports activity questionnaire
Patients were asked about types of sports activities and levels of participation within preoperative 1 year and postoperative 1 year. Levels of impact in sports activities were categorized into three groups: highimpact sports such as tennis, badminton, and running; intermediate-impact sports such as hill walking/hiking and climbing; and low-impact sports such as walking, gymnastic training, and golf [8]. If patients participated in two or more sports activities, the impact level was classi ed by the highest one. Levels of participation in sports and recreational activities were examined using the Tegner activity scale [9]. RTS was de ned as preoperative and postoperative participation in one or more sports and

Statistical Analysis
Statistical analysis was carried out using SPSS ver. 26.0 (SPSS, Inc., Chicago, IL). The Mann-Whitney U test was used to compare measurements between the two groups. Pearson's chi-squared tests were used to test for signi cant differences of categorical data. Univariate analysis and multivariate logistic regression were used to identify factors related to the level of RTS. An adjusted p value < 0.05 was considered signi cant. A post hoc power analysis was performed for comparison of two age groups. Consequently, the statistical power was calculated to be 92% for a sample size of 36 and 38 in each group to detect a signi cant difference with an α level of 0.05.

Clinical and radiographic outcomes
Clinical and radiographic outcomes are summarized in Table 2. The KSS knee score and function score were signi cantly improved after surgery overall and in both age groups (P < 0.05), but no signi cant differences were found between the ≥ 70 years and < 70 years groups. Standing FTA and %MAD were signi cantly changed after surgery in both age groups (P < 0.05), but there were no signi cant differences between the two age groups.  Table 3. The number of low-impact sports increased postoperatively, whereas the number of intermediate-impact and high-impact sports decreased postoperatively. Comparisons of type of sports activities between age groups are summarized in Table 4.
Of the overall 74 patients, 59 participated in at least one sport preoperatively, and 55 returned to sports postoperatively (RTS rate 93%). The number reporting RTS was 24 of 25 (96.0%) in the age < 70 years group and 31 of 34 (91.2%) in the age ≥ 70 years group. Seven patients who had not been involved in sports activities newly participated in sports activities after surgery. Overall, the rate of low-impact sports was greater and increased postoperatively. The majority of sports that participants in the age ≥ 70 years group were involved were low-impact sports preoperatively and postoperatively.  The values are given as the number of patients

Comparisons of RTS levels between age groups
Of the patients reporting RTS, 16 of 24 (66.7%) in the age < 70 years group and 24 of 31 (77.4%) in the age ≥ 70 years group could return to the same or higher level ( Table 5). The preoperative Tegner activity scale was signi cantly lower in the age ≥ 70 years group than in the age < 70 years group (P < 0.01), but no signi cant difference was found in the postoperative score between the age groups. To assess factors related to the RTS level, several variables were compared between RTS at the same or greater level and RTS at a lesser level by univariate analysis (Table 6). Signi cant differences were found in the preoperative knee score (P = 0.02) and the preoperative Tegner activity scale score (P < 0.01).
Multivariate logistic regression analysis showed that only the preoperative Tegner activity scale score was related to RTS at the same or greater level, but age, sex, and BMI were not related (Table 7). The values are given as mean ± standard deviation

Discussion
The most important nding of the present study was that 91% of patients aged ≥ 70 years returned to sports activities, and 77% of them could perform postoperatively at the same or higher level compared to the preoperative level. These results were not signi cantly different from the younger age group. However, the ratio of high-impact sports participants was signi cantly lower in the age ≥ 70 years group than in the age < 70 years group. Factors related to RTS at the same or higher level were the preoperative knee score and the preoperative Tegner activity scale.
Recent studies have focused on RTS after HTO. A systematic review and meta-analysis of 33 studies involving 1914 patients with a mean age of 50.3 ± 9.9 years showed that the rate of RTS after OWHTO was 75.7% (range, 55%-100%) [10]. Another study investigating subjects with a mean age of 50 years demonstrated that the strongest prognostic factor for RTS was continued sports participation in the year before surgery (odds ratio, 2.81; 95% CI, 1.37-5.76) [11]. A high RTS rate after OWHTO has been reported in the relatively younger generation, and few reports have examined in detail the RTS rates in elderly persons. The present study showed that age, sex, BMI, and knee alignment did not affect RTS rates and provided evidence of a high rate of RTS in elderly persons.
One of the factors related to RTS in elderly persons is thought to be the extent of surgical invasion and recovery time. Improvements of surgical techniques and xation devices in OWHTO have enabled early recovery with full-weight bearing, accelerated postoperative rehabilitation, and minimized muscle weakness [12,13]. Accelerated rehabilitation protocols for OWHTO were introduced and lead to earlier improvement of the clinical results [12,14]. In elderly patients, recent accelerated postoperative rehabilitation programs seems to work in favor of preventing muscle weakness and increasing RTS.
Types of sports seem to differ among age groups and may affect RTS after HTO. Younger people have a demand for returning to relatively higher impact sports, such as running, baseball, and tennis, whereas older people have a demand for lower impact sports, such as walking, gymnastic training, and golf. The present study demonstrated a higher rate of low-impact sports participants in the age ≥ 70 years group.
Although the return to high impact sports after OWHTO was high in the younger population [8], most patients return to sports activities with a trend toward performing lower-impact sports [15]. Thus, one of the reasons for the high rate of RTS in elderly persons may be the high rate of preoperative participation in low-impact sports. In addition, since the preoperative Tegner activity scale score in the age ≥ 70 years group was relatively low, it may not be affected by HTO surgery, and it is easy for the patients to return to the same level postoperatively.
Arthroplasty is an alternative treatment option for knee OA in elderly patients. . A systematic review and meta-analysis regarding RTS in elderly patients after UKA showed that higher return rates were observed for low-impact sports, whereas high-impact sports prevented a full return to activities [20]. Since there are risks of femoral component loosening and polyethylene wear in UKA [21][22][23], RTS after both surgical procedures needs to be assessed by long-term follow-up.
This study has several limitations. First, there were many cases that were lost to follow-up. More than half of the patients were excluded from this study, which may have caused selection bias. Second, the follow-up period was short. It is unclear whether patients who return to sports after surgery maintain sports activities at the same level for a long time. Third, this study was a retrospective investigation.

Conclusions
The rate of RTS after OWHTO was high in elderly patients. OWHTO is a preferred surgical option for elderly patients who desire RTS.

Consent for publication
Written informed consent was obtained from all participants.
Availability of data and materials