Does Periacetabular Osteotomy Change Sagittal Spinopelvic Alignment?

IF 4.2 2区 医学 Q1 ORTHOPEDICS
Peter Cirrincione, Nora Cao, Zachary Trotzky, Erikson Nichols, Ernest Sink
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This information is clinically significant to a surgeon when evaluating acetabular/pelvic position intraoperatively and understanding spinopelvic alignment changes postoperatively; therefore, radiographic changes from PAO should be described in more detail.</p><p><strong>Questions/purposes: </strong>In this study, we asked: (1) Does the performance of PAO result in consistent changes in spinopelvic alignment, as measured on EOS radiographs? (2) Does this differ for unilateral versus bilateral PAOs? (3) Does this differ in the setting of a mobile spine versus an immobile spine? (4) Does this differ based on preoperative pelvic tilt?</p><p><strong>Methods: </strong>Mean preoperative and at least 1-year postoperative (15 ± 8 months from surgery, minimum 11 months, maximum 65 months) EOS hip-to-ankle standing and sitting radiographs for 55 patients in a prospectively collected registry who underwent PAO with a single surgeon from January 1, 2019, to January 11, 2022, were measured for pelvic incidence, pelvic tilt, sacral slope, lumbar lordosis, lateral center-edge angle, L1 pelvic angle, and pubic symphysis to the sacroiliac index. Normality was assessed and paired sample t-tests (normally distributed data) or Wilcoxon signed rank tests (not normally distributed data) were utilized to assess if any measurements changed from preoperative to postoperative. Patients were then divided based on whether they had unilateral or bilateral dysplasia and unilateral or bilateral surgery, and these subgroups were analyzed the same way as the entire cohort. Two more subgroups were then formed based on lumbar mobility, defined as a change in sitting-to-standing lumbar lordosis less or greater than 1 SD from the population mean preoperatively, and the subgroups were analyzed the same way as the entire cohort. Finally, two additional subgroups were formed, preoperative standing pelvic tilt less than 10° and more than 20°, and analyzed the same as the entire cohort.</p><p><strong>Results: </strong>For the entire cohort, the median (IQR) standing lateral-center edge angle increased 17°, from a median of 21° (10°) to a median of 38° (8° [95% confidence interval (CI) 16° to 20°; p < 0.001). The median sitting lateral center-edge angle increased 17°, from a median of 18° (8°) to a median of 35° (8° [95% CI 14° to 19°]; p < 0.001). Standing pelvic incidence increased from 50° ± 11° to 52° ± 12° (mean difference 2° [95% CI 1° to 3°]; p = 0.004), but there were no changes for other measured parameters. There were no changes in any of the spinopelvic parameters for patients with unilateral dysplasia receiving a unilateral PAO, but patients with bilateral dysplasia who underwent bilateral PAOs demonstrated an increase in pelvic incidence from 57° (14°) to 60° (16°) (95% CI 1° to 5°; p = 0.02) and a decrease in pubic symphysis to sacroiliac index from 84 mm (24 mm) to 77 mm (23 mm) (95% CI -7° to -2°; p = 0.007). Patients with mobile lumbar spines preoperatively did not exhibit any changes in sagittal spinopelvic alignment, but patients with immobile lumbar spines preoperatively experienced several changes after surgery. Patients with less than 10° of standing pelvic tilt demonstrated a median (IQR) 2° increase in pelvic incidence from median 43° (9°) to 45° (12° [95% CI 0.3° to 4°]; p = 0.03), but they did not experience any other changes in sagittal spinopelvic alignment parameters postoperatively. 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引用次数: 0

Abstract

Background: There are few data on the impact of periacetabular osteotomy (PAO) on sagittal spinopelvic alignment. Prior studies have attempted to delineate the relationship by performing measurements on AP radiographs and using mathematical models to determine changes in postoperative pelvic tilt. This information is clinically significant to a surgeon when evaluating acetabular/pelvic position intraoperatively and understanding spinopelvic alignment changes postoperatively; therefore, radiographic changes from PAO should be described in more detail.

Questions/purposes: In this study, we asked: (1) Does the performance of PAO result in consistent changes in spinopelvic alignment, as measured on EOS radiographs? (2) Does this differ for unilateral versus bilateral PAOs? (3) Does this differ in the setting of a mobile spine versus an immobile spine? (4) Does this differ based on preoperative pelvic tilt?

Methods: Mean preoperative and at least 1-year postoperative (15 ± 8 months from surgery, minimum 11 months, maximum 65 months) EOS hip-to-ankle standing and sitting radiographs for 55 patients in a prospectively collected registry who underwent PAO with a single surgeon from January 1, 2019, to January 11, 2022, were measured for pelvic incidence, pelvic tilt, sacral slope, lumbar lordosis, lateral center-edge angle, L1 pelvic angle, and pubic symphysis to the sacroiliac index. Normality was assessed and paired sample t-tests (normally distributed data) or Wilcoxon signed rank tests (not normally distributed data) were utilized to assess if any measurements changed from preoperative to postoperative. Patients were then divided based on whether they had unilateral or bilateral dysplasia and unilateral or bilateral surgery, and these subgroups were analyzed the same way as the entire cohort. Two more subgroups were then formed based on lumbar mobility, defined as a change in sitting-to-standing lumbar lordosis less or greater than 1 SD from the population mean preoperatively, and the subgroups were analyzed the same way as the entire cohort. Finally, two additional subgroups were formed, preoperative standing pelvic tilt less than 10° and more than 20°, and analyzed the same as the entire cohort.

Results: For the entire cohort, the median (IQR) standing lateral-center edge angle increased 17°, from a median of 21° (10°) to a median of 38° (8° [95% confidence interval (CI) 16° to 20°; p < 0.001). The median sitting lateral center-edge angle increased 17°, from a median of 18° (8°) to a median of 35° (8° [95% CI 14° to 19°]; p < 0.001). Standing pelvic incidence increased from 50° ± 11° to 52° ± 12° (mean difference 2° [95% CI 1° to 3°]; p = 0.004), but there were no changes for other measured parameters. There were no changes in any of the spinopelvic parameters for patients with unilateral dysplasia receiving a unilateral PAO, but patients with bilateral dysplasia who underwent bilateral PAOs demonstrated an increase in pelvic incidence from 57° (14°) to 60° (16°) (95% CI 1° to 5°; p = 0.02) and a decrease in pubic symphysis to sacroiliac index from 84 mm (24 mm) to 77 mm (23 mm) (95% CI -7° to -2°; p = 0.007). Patients with mobile lumbar spines preoperatively did not exhibit any changes in sagittal spinopelvic alignment, but patients with immobile lumbar spines preoperatively experienced several changes after surgery. Patients with less than 10° of standing pelvic tilt demonstrated a median (IQR) 2° increase in pelvic incidence from median 43° (9°) to 45° (12° [95% CI 0.3° to 4°]; p = 0.03), but they did not experience any other changes in sagittal spinopelvic alignment parameters postoperatively. Patients with preoperative pelvic tilt more than 20° did not experience any change in sagittal spinopelvic parameters.

Conclusion: PAO increases pelvic incidence, potentially because of anterior translation of the hip center. There were no changes in other spinopelvic parameters postoperatively except after bilateral PAO. Additionally, patients lacking spine mobility preoperatively, indicated by a minimal change in lumbar lordosis between standing and sitting positions, may experience several changes in spinopelvic alignment, including increased mobility of their spine after PAO. This may be because of decreased compensatory spine splinting after increasing acetabular coverage, but further research including patient-reported outcomes is warranted.

Level of evidence: Level III, therapeutic study.

髋臼周围截骨术是否会改变矢状脊柱骨排列?
背景:关于髋臼周围截骨术(PAO)对矢状面骨盆对位的影响的数据很少。之前的研究试图通过对 AP X 光片进行测量,并使用数学模型来确定术后骨盆倾斜度的变化,从而界定两者之间的关系。这些信息对于外科医生在术中评估髋臼/骨盆位置以及术后了解脊柱骨盆对线变化具有重要的临床意义;因此,应更详细地描述 PAO 带来的影像学变化:在本研究中,我们提出了以下问题:(1) 根据 EOS X 光片的测量,PAO 是否会导致脊柱骨盆对线发生一致的变化? (2) 单侧 PAO 与双侧 PAO 是否存在差异?(3) 脊柱活动与脊柱不活动是否有差异? (4) 术前骨盆倾斜是否有差异?在2019年1月1日至2022年1月11日期间,对前瞻性收集的登记册中55名接受PAO手术的患者的平均术前和至少术后1年(术后15±8个月,最短11个月,最长65个月)EOS髋关节到踝关节的站立和坐位X光片进行测量,以了解骨盆入径、骨盆倾斜、骶骨斜度、腰椎前凸、外侧中心边缘角、L1骨盆角和耻骨联合到骶髂指数。对正态性进行评估,并使用配对样本 t 检验(正态分布数据)或 Wilcoxon 符号秩检验(非正态分布数据)来评估从术前到术后是否有任何测量值发生变化。然后根据单侧或双侧发育不良以及单侧或双侧手术情况对患者进行分组,这些分组的分析方法与整个组别相同。然后根据腰椎活动度(定义为坐位到站位腰椎前凸的变化与术前人群平均值相比小于或大于 1 SD)再划分出两个亚组,亚组的分析方法与整个人群相同。最后,又成立了两个亚组,即术前站立骨盆倾斜度小于 10° 和大于 20°,分析方法与整个组别相同:在整个队列中,站立侧中心边缘角度的中位数(IQR)增加了17°,从中位数21°(10°)增加到中位数38°(8°[95% 置信区间(CI)16°至20°;P < 0.001])。坐位侧边中心角中位数增加了 17°,从中位数 18°(8°)增至中位数 35°(8° [95% 置信区间 (CI) 14°至 19°];P <0.001)。站立时骨盆入射角从 50° ± 11° 增加到 52° ± 12°(平均差异为 2° [95% CI 1° 至 3°];p = 0.004),但其他测量参数没有变化。接受单侧 PAO 的单侧发育不良患者的脊柱骨盆参数没有任何变化,但接受双侧 PAO 的双侧发育不良患者的骨盆入射角从 57°(14°)增加到 60°(16°)(95% CI 1°到 5°;P = 0.02),耻骨联合至骶髂关节指数从 84 mm (24 mm) 降至 77 mm (23 mm) (95% CI -7° 至 -2°;P = 0.007)。术前腰椎可活动的患者矢状脊柱排列没有任何变化,但术前腰椎不可活动的患者术后出现了一些变化。站立时骨盆倾斜度小于10°的患者骨盆入射角中位数(IQR)增加了2°,从中位数43°(9°)增至45°(12° [95% CI 0.3°至4°];p = 0.03),但术后他们的矢状脊柱对齐参数没有发生任何其他变化。术前骨盆倾斜超过20°的患者的矢状脊柱参数没有发生任何变化:结论:PAO 增加了骨盆入射角,可能是因为髋关节中心前移。除双侧 PAO 外,其他脊柱骨盆参数在术后均无变化。此外,术前缺乏脊柱活动度的患者(表现为腰椎前凸在站立位和坐位之间的变化极小)在 PAO 术后可能会出现脊柱骨盆排列的多种变化,包括脊柱活动度的增加。这可能是因为增加髋臼覆盖后脊柱代偿性夹板减少,但还需要进一步研究,包括患者报告的结果:证据等级:三级,治疗性研究。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
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来源期刊
CiteScore
7.00
自引率
11.90%
发文量
722
审稿时长
2.5 months
期刊介绍: Clinical Orthopaedics and Related Research® is a leading peer-reviewed journal devoted to the dissemination of new and important orthopaedic knowledge. CORR® brings readers the latest clinical and basic research, along with columns, commentaries, and interviews with authors.
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