The growth of women's sport is constant and the number of sports licences is increasing year after year. According to data from the National Sports Council, in the last decade the number of female sports licences has grown by 20.8%, mainly in basketball and football.1 Different factors have been described that account for a 2–9 times higher risk of anterior cruciate ligament (ACL) rupture in women compared to men.2,3 Mall et al. described an increase in the incidence of ACL rupture in women from 10.3 to 18.6 per 100,000 from 1994 to 2006 in the United States.4

Outcomes after ACL reconstructive surgery published in the literature are mixed when comparing women and men. Ageberg et al. published the results of the Swedish registry with 10,164 cases between 2005 and 2008, with significantly lower scores in women at 1 and 2 years postoperatively when compared to men.5 Ryan et al. indicated in their systematic review published in 2014 that the results are similar between women and men.6 Tan et al. published a systematic review and meta-analysis in 2015 in which they reported similar or inferior results in women, but no significant differences.7 However, the fact that there is no statistically significant difference does not guarantee that there is no clinically significant difference. Statistical significance is no more than a mathematical formula that does not reflect the patient's perception of improvement after the surgical procedure.8 Previous studies have determined clinical significance values for the Lysholm, Tegner and subjective International Knee Documentation Committee (IKDC) scales.9–11 However, few ACL reconstructive surgery studies have analysed the clinical significance of their results.12

The primary objective of this study was to evaluate functional outcomes in women after ACL reconstructive surgery and to compare these outcomes, both preoperatively and postoperatively, with those obtained by men. Secondary objectives included comparisons of demographic variables, intraoperative findings, surgical procedures, return to sporting activity and complications between women and men. Our working hypothesis was that women would not achieve similar functional outcomes when compared to men after ACL reconstructive surgery.

Our study shows a significant functional improvement in women after ACL reconstructive surgery at 3 years of follow-up, reaching similar results to men, so we reject our hypothesis. A significantly lower mean score on the subjective IKDC questionnaire was only detected in women under 25 years of age compared to men, with an effect size of medium magnitude. The percentage of patients reaching clinical significance was similar between women and men.

Previous studies published in the literature have shown disparity between women and men after ACL reconstructive surgery, with significantly lower scores in women at 1 and 2 years,5 similar scores,6 or lower scores in women but no significant differences.7 Ageberg et al. published results from the Swedish Knee Ligament Register with 4,438 patients (42% female), preoperatively and at 1- and 2-years follow-up, on the KOOS scale, with significantly lower scores in women compared to men. However, the effect size of the differences found was small in magnitude (mean difference between 1.4 and 4.4 points; Cohen's d values between .05 and .16), and no differences in increases were detected between preoperative and one year postoperative, or between one and two years postoperative.5 Ryan et al. conducted a systematic review including 9 comparative studies with a minimum of 2 years follow-up and 5410 patients (2325 women and 3085 men). Only one study reported significant differences on the KOOS5 scale between women and men, concluding that the results of ACL reconstructive surgery were similar between women and men.6 Tan et al. analysed 7 studies in a systematic review and meta-analysis assessing outcomes using the IKDC scale and found no significant differences between women and men. However, they did report significantly lower scores in women on the Lysholm scale analysed in 11 studies and on the KOOS scale analysed in 6 studies, although they highlighted a high heterogeneity between studies.7 Recently, Kuenze et al. compared by age (±1 year) and date of surgery (±1 month) the results in 45 women and 45 men, with significantly lower scores in women on the subjective IKDC scale and on the KOOS subscale for pain, with a follow-up between 5 and 9 months.19 In our study we found significant differences on the IKDC scale between women and men in the under 25 age group. This finding coincides with the results of Kuenze et al.19 in their series of patients with a mean age of 18 years and a range between 13 and 25 years. The effect size was larger in our study (mean difference 5.9 and Cohen d=.77 vs. mean difference 5.5 and Cohen d=.48), possibly because the follow-up of patients in the Kuenze et al.19 study was between 5 and 9 months, much longer than in the Kuenze et al.20 study was between 5 and 9 months, much shorter than in our study and with the possibility of changes in the assessment questionnaire, as reported by Agarwalla et al.20 in their systematic review on the evolutionary chronology of patient improvement after ACL reconstructive surgery.

Regarding clinical significance, Kuenze et al.19 report a significantly lower percentage of women achieving MCID for the subjective IKDC scale compared to men (33.3% vs. 60%), but not for the KOOS questionnaire. It should be considered that the follow-up of their patients was between 5 and 9 months, and that there was still room for improvement in the assessment questionnaires used.20 In our study we found no differences in the percentages of patients achieving MCID for the Lysholm, IKDC and Tegner scales, nor in PASS for the IKDC scale. Our results show that women perceive clinical improvement and satisfaction at the same level as men after ACL reconstructive surgery.

The series published in the literature refer to a 33–95% return to sport one year after surgery, and different influential factors are established, including gender.21,22 Ardern et al. published, in a systematic review and meta-analysis including 69 articles with 7556 patients, that there were no differences in the return to sport between women and men, but that women did have lower scores on the Tegner scale.23 Ryan et al. published in a systematic review that there were no significant differences in postoperative Tegner scale scores between women and men.6 However, Tan et al. did report lower scores on the Tegner scale in women compared to men, although they indicated a high heterogeneity of the studies analysed in their systematic review and meta-analysis.7 In our study we found no significant differences in the Tegner scale preoperatively or at the end of follow-up.

We should not consider our results without knowing the limitations of the study. The sample size of the series is smaller than that of previous published studies. Postoperative laxity was not recorded with a validated arthrometer, nor was the degree of psychological preparation for return to sport, to determine whether there were significant differences between women and men. The size of the graft, which may affect the results, was not recorded.24 But the study also has strengths. It is a retrospective comparative study of a prospective database, with analysis of statistical and clinical significance, with no loss to follow-up. All patients were operated on by the same surgical team, with no heterogeneity in graft type, surgical technique, management of meniscal and cartilage lesions or postoperative rehabilitation plan.

At 3 years of follow-up after ACL surgery using the anatomical reconstruction technique semitendinosus-rectus internus 4 fascicles, women showed statistically and clinically significant improvement in the Lysholm, VAS, IKDC and Tegner scales, with no differences with respect to men.

Level of evidence iii.

No funding was received for this study.

The authors have no conflict of interests to declare.