Department of Orthopedics and Traumatology, Medical University of Innsbruck, Innsbruck, Austria; Department for Sports Orthopaedics, Klinikum rechts der Isar, Technical University of Munich, Ismaninger Str. 22, 81675, Munich, Germany.
Gelenkpunkt - Sports and Joint Surgery, Innsbruck, Austria.
J ISAKOS. 2023 Apr;8(2):60-67. doi: 10.1016/j.jisako.2022.08.008. Epub 2022 Oct 8.
To compare clinical and functional outcomes of patients after primary anterior cruciate ligament reconstruction (ACLR) using quadriceps tendon- (QT-A) and hamstring tendon (HT-A) autograft with a minimum follow-up (FU) of 5 years.
Between 2010 and 2014, all patients undergoing ACLR were recorded in a prospectively administered database. All patients with primary, isolated QT-A ACLR and without any concomitant injuries or high grade of osteoarthritis were extracted from the database and matched to patients treated with HT-A. Re-rupture rates, anterior-posterior (ap) knee laxity, single-leg hop test (SLHT) performance, distal thigh circumference (DTC) and patient-reported outcome measures (PROMs) were recorded. Between group comparisons were performed using chi-square-, independent-samples T- or Mann-Whitney-U tests.
45 QT-A patients were matched to 45 HT-A patients (n = 90). The mean FU was 78.9 ± 13.6 months. 18 patients (20.0%/QT-A: N = 8, 17.8%; HT-A: n = 10, 22.2%; p = .60) sustained a graft rupture and 17 subjects (18.9%/QT-A: n = 9, 20.0%; HT-A: n = 8, 17.8%; p = .79) suffered a contralateral ACL injury. In high active patients (Tegner activity level ≥ 7) rerupture rates increased to 37.5% (HT-A) and 22.2% (QT-A; p = .32), respectively. Patients with graft failure did not differ between both groups in terms of mean age at surgery (QT-A: 26.5 ± 11.6 years, HT-A: 23.3 ± 9.5 years, p = .63) or graft thickness (mean graft square area: QT-A: 43.6 ± 4.7 mm, HT-A: 48.1 ± 7.9 mm, p = .27). No statistical between-group differences were found in ap knee laxity side-to-side (SSD) measurements (QT-A: 1.9 ± 1.2 mm, HT-A: 2.1 ± 1.5 mm; p = .60), subjective IKDC- (QT-A: 93.8 ± 6.8, HT-A: 91.2 ± 7.8, p = .17), Lysholm- (QT-A 91.9 ± 7.2, HT-A: 91.5 ± 9.7, p = .75) or any of the five subscales of the KOOS score (all p > .05). Furthermore, Tegner activity level (QT-A: 6(1.5), HT-A: 6(2), p = .62), VAS for pain (QT-A: 0.5 ± 0.9, HT-A: 0.6 ± 1.0, p = .64), Shelbourne-Trumper score (QT-A: 96.5 ± 5.6, HT-A: 95.2 ± 8.2, p = .50), Patient and Observer Scar -Assessment scale (POSAS) (QT-A: 9.4 ± 3.2, HT-A: 10.7 ± 4.9, p = .24), SSD-DTC (QT-A: 0.5 ± 0.5, HT.- A: 0.5 ± 0.6, p = .97), return to sports rates (QT-A: 82.1%, HT-A: 86.7%) and SLHT (QT -A: 95.9 ± 3.8%, HT-A: 93.7 ± 7.0%) did not differ between groups. Donor-site morbidity (HT-A n = 14, 46.7%; QT-A n = 3, 11.5%; p = .008) was statistically significantly lower in the QT-A group. Five patients (11.1%) of the HT-group and three patients (6.7%) in the QT-group required revision surgery (p = .29).
Patient-reported outcome measures, knee laxity, functional testing results and re-rupture rates are similar between patients treated with QT- and HT- autografts. However, patients with QT-autograft have a smaller tibial postoperative scar length and lower postoperative donor-site morbidity. There is a tendency towards higher graft rupture rates in highly active patients treated with HT autograft.
II.
比较使用股四头肌肌腱(QT-A)和腘绳肌腱(HT-A)自体移植物进行初次前交叉韧带重建(ACLR)的患者的临床和功能结果,随访时间至少为 5 年。
2010 年至 2014 年,在一个前瞻性管理的数据库中记录了所有接受 ACLR 的患者。从数据库中提取所有接受原发性、孤立性 QT-A ACLR 且无任何伴随损伤或高级别骨关节炎的患者,并与接受 HT-A 治疗的患者相匹配。记录再断裂率、前-后(AP)膝关节松弛度、单腿跳测试(SLHT)表现、大腿远端周径(DTC)和患者报告的结局测量(PROMs)。使用卡方检验、独立样本 T 检验或曼-惠特尼 U 检验进行组间比较。
45 例 QT-A 患者与 45 例 HT-A 患者(n=90)相匹配。平均随访时间为 78.9±13.6 个月。18 例患者(20.0%/QT-A:N=8,17.8%;HT-A:n=10,22.2%;p=0.60)发生移植物断裂,17 例患者(18.9%/QT-A:n=9,20.0%;HT-A:n=8,17.8%;p=0.79)发生对侧 ACL 损伤。在高活跃患者(Tegner 活动水平≥7)中,再断裂率增加至 HT-A 组的 37.5%和 QT-A 组的 22.2%(p=0.32)。两组患者在手术时的平均年龄(QT-A:26.5±11.6 岁,HT-A:23.3±9.5 岁,p=0.63)或移植物厚度(平均移植物平方面积:QT-A:43.6±4.7mm,HT-A:48.1±7.9mm,p=0.27)方面无统计学差异。AP 膝关节松弛度的侧-侧测量值(QT-A:1.9±1.2mm,HT-A:2.1±1.5mm;p=0.60)、主观国际膝关节文献委员会(IKDC)评分(QT-A:93.8±6.8,HT-A:91.2±7.8,p=0.17)、Lysholm 评分(QT-A 91.9±7.2,HT-A:91.5±9.7,p=0.75)或 KOOS 评分的五个子量表中的任何一个(所有 p>0.05)均无统计学差异。此外,Tegner 活动水平(QT-A:6(1.5),HT-A:6(2),p=0.62)、疼痛的视觉模拟评分(VAS)(QT-A:0.5±0.9,HT-A:0.6±1.0,p=0.64)、Shelbourne-Trumper 评分(QT-A:96.5±5.6,HT-A:95.2±8.2,p=0.50)、患者和观察者疤痕评估量表(POSAS)(QT-A:9.4±3.2,HT-A:10.7±4.9,p=0.24)、AP 膝关节松弛度-DTC(QT-A:0.5±0.5,HT.-A:0.5±0.6,p=0.97)、重返运动率(QT-A:82.1%,HT-A:86.7%)和 SLHT(QT-A:95.9±3.8%,HT-A:93.7±7.0%)在两组之间无统计学差异。QT-A 组的供体部位发病率(HT-A n=14,46.7%;QT-A n=3,11.5%;p=0.008)显著低于 HT-A 组。HT-A 组有 5 例(11.1%)和 QT-A 组有 3 例(6.7%)患者需要进行翻修手术(p=0.29)。
接受 QT-A 和 HT-A 自体移植物治疗的患者在患者报告的结局测量、膝关节松弛度、功能测试结果和再断裂率方面相似。然而,QT-A 组患者的胫骨术后疤痕长度较小,术后供体部位发病率较低。在接受 HT 自体移植物治疗的高度活跃患者中,移植物断裂率有升高的趋势。
II 级。
