Klaus A Siebenrock, Simon D Steppacher, Kai Ziebarth, Joseph M Schwab, Lorenz Büchler
{"title":"改良邓恩手术用于慢性股骨骺端滑脱的开放式还原。","authors":"Klaus A Siebenrock, Simon D Steppacher, Kai Ziebarth, Joseph M Schwab, Lorenz Büchler","doi":"10.2106/JBJS.ST.23.00072","DOIUrl":null,"url":null,"abstract":"<p><strong>Background: </strong>Abnormal femoral head anatomy following moderate-to-severe slipped capital femoral epiphysis (SCFE) can lead to femoroacetabular impingement and premature osteoarthritis<sup>4-10</sup>. Surgical correction at the deformity site through capital reorientation has the potential to fully ameliorate this but has traditionally been associated with high rates of osteonecrosis<sup>11-15</sup>. The modified Dunn procedure has the potential to restore anatomy in hips with SCFE while protecting the blood supply to the femoral head.</p><p><strong>Description: </strong>A surgical dislocation of the hip is performed according to the technique described by Ganz et al.<sup>16</sup>. The remaining posterosuperior portion of the greater trochanter is trimmed to the level of the femoral neck by subperiosteal bone removal performed in an inside-out manner. The periosteum of the femoral neck is gradually elevated. The resulting soft-tissue flap, consisting of the retinaculum and external rotators, holds the blood vessels supplying the epiphysis. The femoral epiphysis is pinned in situ (in unstable cases) with threaded Kirschner wires, the ligamentum teres is transected, and the femoral head is dislocated. With the femoral neck exposed, the epiphysis is gradually mobilized from the metaphysis, allowing exposure of the residual femoral neck and inspection of any posteroinferior callus. To avoid tension on the retinacular vessels during reduction of the epiphysis, the posterior neck callus is completely excised. The remaining physis is removed with use of a burr while holding the epiphysis stable. The epiphysis is gently reduced onto the femoral neck, avoiding tension on the retinacular vessels. If tension is noted, the femoral neck is rechecked for residual callus, which is excised. If no callus is found, the neck may be carefully shortened in order to minimize tension. Epiphyseal fixation is achieved with use of a 3-mm fully threaded wire inserted antegrade through the fovea to the lateral cortex below the greater trochanter. A second wire is inserted retrograde under fluoroscopy. After reducing the hip, the capsule is closed and the greater trochanter is reattached with use of 3.5-mm cortical screws.</p><p><strong>Alternatives: </strong>Alternatives include nonoperative treatment, in situ fixation (e.g., pinning or screw fixation), gentle closed reduction with pinning, and triplanar trochanteric osteotomy (e.g., Imhauser or Southwick osteotomies).</p><p><strong>Rationale: </strong>In situ pinning of mild-to-moderate, stable SCFE yields good long-term results with low rates of osteonecrosis<sup>9</sup>. Treatment of higher-grade SCFE without reduction aims to avoid osteonecrosis and assumes that the proximal femoral deformity will remodel; however, the head-neck offset will remain abnormal, risking impingement and early-onset osteoarthritis<sup>5,8</sup>. The procedure described in the present article allows anatomic reduction of the epiphysis with a low risk of osteonecrosis. Surgical dislocation of the hip<sup>16</sup> with development of an extended retinacular soft-tissue flap<sup>17</sup> provides extensive subperiosteal exposure of the circumferential femoral neck and preserves the vulnerable blood supply to the epiphysis<sup>18</sup>. The Dunn subcapital realignment procedure<sup>15</sup> with callus removal and slip angle correction allows anatomic restoration of the proximal femur.</p><p><strong>Expected outcomes: </strong>Reported results of various centers performing the procedure vary greatly with regard to the number of hips treated and the follow-up time. Most studies have been retrospective and have lacked a control group. The reported risk of osteonecrosis ranges from 0% to 25.9%<sup>19</sup>, with the wide range most likely because of the challenging nature of the technique, the low number of cases per surgeon, and the long learning curve associated with the procedure. In centers with extensive experience in pediatric hip-preserving surgery, the reported rate of osteonecrosis is low<sup>3</sup>. Studies with mid to long-term follow-up have shown no conversion to total hip arthroplasty<sup>3,20,21</sup>, but residual deformities can persist, and subsequent surgery is possible.</p><p><strong>Important tips: </strong>Extensive experience in surgical hip dislocation and retinacular flap development is a prerequisite for successful outcomes and low rates of osteonecrosis.Sufficient callus and physeal remnant resections are needed to avoid tension on the retinacular vessels during epiphyseal reduction.The skin incision should be centered over the greater trochanterThe Gibson interval must be carefully prepared for adequate release and to avoid injury.Tension on the periosteal flap should be avoided to prevent stress on the retinacular vessels.</p><p><strong>Acronyms and abbreviations: </strong>AP = anteroposteriorAVN = avascular necrosis (i.e., osteonecrosis)CI = confidence intervalCT = computed tomographyK-wire = Kirschner wireMRI = magnetic resonance imagingOA = osteoarthritisSHD = surgical hip dislocationTHA = total hip arthroplastyVTE = venous thromboembolism.</p>","PeriodicalId":44676,"journal":{"name":"JBJS Essential Surgical Techniques","volume":null,"pages":null},"PeriodicalIF":1.0000,"publicationDate":"2024-07-05","publicationTypes":"Journal Article","fieldsOfStudy":null,"isOpenAccess":false,"openAccessPdf":"https://www.ncbi.nlm.nih.gov/pmc/articles/PMC11221854/pdf/","citationCount":"0","resultStr":"{\"title\":\"Modified Dunn Procedure for Open Reduction of Chronic Slipped Capital Femoral Epiphysis.\",\"authors\":\"Klaus A Siebenrock, Simon D Steppacher, Kai Ziebarth, Joseph M Schwab, Lorenz Büchler\",\"doi\":\"10.2106/JBJS.ST.23.00072\",\"DOIUrl\":null,\"url\":null,\"abstract\":\"<p><strong>Background: </strong>Abnormal femoral head anatomy following moderate-to-severe slipped capital femoral epiphysis (SCFE) can lead to femoroacetabular impingement and premature osteoarthritis<sup>4-10</sup>. Surgical correction at the deformity site through capital reorientation has the potential to fully ameliorate this but has traditionally been associated with high rates of osteonecrosis<sup>11-15</sup>. The modified Dunn procedure has the potential to restore anatomy in hips with SCFE while protecting the blood supply to the femoral head.</p><p><strong>Description: </strong>A surgical dislocation of the hip is performed according to the technique described by Ganz et al.<sup>16</sup>. The remaining posterosuperior portion of the greater trochanter is trimmed to the level of the femoral neck by subperiosteal bone removal performed in an inside-out manner. The periosteum of the femoral neck is gradually elevated. The resulting soft-tissue flap, consisting of the retinaculum and external rotators, holds the blood vessels supplying the epiphysis. The femoral epiphysis is pinned in situ (in unstable cases) with threaded Kirschner wires, the ligamentum teres is transected, and the femoral head is dislocated. With the femoral neck exposed, the epiphysis is gradually mobilized from the metaphysis, allowing exposure of the residual femoral neck and inspection of any posteroinferior callus. To avoid tension on the retinacular vessels during reduction of the epiphysis, the posterior neck callus is completely excised. The remaining physis is removed with use of a burr while holding the epiphysis stable. The epiphysis is gently reduced onto the femoral neck, avoiding tension on the retinacular vessels. If tension is noted, the femoral neck is rechecked for residual callus, which is excised. If no callus is found, the neck may be carefully shortened in order to minimize tension. Epiphyseal fixation is achieved with use of a 3-mm fully threaded wire inserted antegrade through the fovea to the lateral cortex below the greater trochanter. A second wire is inserted retrograde under fluoroscopy. After reducing the hip, the capsule is closed and the greater trochanter is reattached with use of 3.5-mm cortical screws.</p><p><strong>Alternatives: </strong>Alternatives include nonoperative treatment, in situ fixation (e.g., pinning or screw fixation), gentle closed reduction with pinning, and triplanar trochanteric osteotomy (e.g., Imhauser or Southwick osteotomies).</p><p><strong>Rationale: </strong>In situ pinning of mild-to-moderate, stable SCFE yields good long-term results with low rates of osteonecrosis<sup>9</sup>. Treatment of higher-grade SCFE without reduction aims to avoid osteonecrosis and assumes that the proximal femoral deformity will remodel; however, the head-neck offset will remain abnormal, risking impingement and early-onset osteoarthritis<sup>5,8</sup>. The procedure described in the present article allows anatomic reduction of the epiphysis with a low risk of osteonecrosis. Surgical dislocation of the hip<sup>16</sup> with development of an extended retinacular soft-tissue flap<sup>17</sup> provides extensive subperiosteal exposure of the circumferential femoral neck and preserves the vulnerable blood supply to the epiphysis<sup>18</sup>. The Dunn subcapital realignment procedure<sup>15</sup> with callus removal and slip angle correction allows anatomic restoration of the proximal femur.</p><p><strong>Expected outcomes: </strong>Reported results of various centers performing the procedure vary greatly with regard to the number of hips treated and the follow-up time. Most studies have been retrospective and have lacked a control group. The reported risk of osteonecrosis ranges from 0% to 25.9%<sup>19</sup>, with the wide range most likely because of the challenging nature of the technique, the low number of cases per surgeon, and the long learning curve associated with the procedure. In centers with extensive experience in pediatric hip-preserving surgery, the reported rate of osteonecrosis is low<sup>3</sup>. Studies with mid to long-term follow-up have shown no conversion to total hip arthroplasty<sup>3,20,21</sup>, but residual deformities can persist, and subsequent surgery is possible.</p><p><strong>Important tips: </strong>Extensive experience in surgical hip dislocation and retinacular flap development is a prerequisite for successful outcomes and low rates of osteonecrosis.Sufficient callus and physeal remnant resections are needed to avoid tension on the retinacular vessels during epiphyseal reduction.The skin incision should be centered over the greater trochanterThe Gibson interval must be carefully prepared for adequate release and to avoid injury.Tension on the periosteal flap should be avoided to prevent stress on the retinacular vessels.</p><p><strong>Acronyms and abbreviations: </strong>AP = anteroposteriorAVN = avascular necrosis (i.e., osteonecrosis)CI = confidence intervalCT = computed tomographyK-wire = Kirschner wireMRI = magnetic resonance imagingOA = osteoarthritisSHD = surgical hip dislocationTHA = total hip arthroplastyVTE = venous thromboembolism.</p>\",\"PeriodicalId\":44676,\"journal\":{\"name\":\"JBJS Essential Surgical Techniques\",\"volume\":null,\"pages\":null},\"PeriodicalIF\":1.0000,\"publicationDate\":\"2024-07-05\",\"publicationTypes\":\"Journal Article\",\"fieldsOfStudy\":null,\"isOpenAccess\":false,\"openAccessPdf\":\"https://www.ncbi.nlm.nih.gov/pmc/articles/PMC11221854/pdf/\",\"citationCount\":\"0\",\"resultStr\":null,\"platform\":\"Semanticscholar\",\"paperid\":null,\"PeriodicalName\":\"JBJS Essential Surgical Techniques\",\"FirstCategoryId\":\"1085\",\"ListUrlMain\":\"https://doi.org/10.2106/JBJS.ST.23.00072\",\"RegionNum\":0,\"RegionCategory\":null,\"ArticlePicture\":[],\"TitleCN\":null,\"AbstractTextCN\":null,\"PMCID\":null,\"EPubDate\":\"2024/7/1 0:00:00\",\"PubModel\":\"eCollection\",\"JCR\":\"Q3\",\"JCRName\":\"SURGERY\",\"Score\":null,\"Total\":0}","platform":"Semanticscholar","paperid":null,"PeriodicalName":"JBJS Essential Surgical Techniques","FirstCategoryId":"1085","ListUrlMain":"https://doi.org/10.2106/JBJS.ST.23.00072","RegionNum":0,"RegionCategory":null,"ArticlePicture":[],"TitleCN":null,"AbstractTextCN":null,"PMCID":null,"EPubDate":"2024/7/1 0:00:00","PubModel":"eCollection","JCR":"Q3","JCRName":"SURGERY","Score":null,"Total":0}
引用次数: 0
摘要
背景:中重度股骨头骨骺滑脱(SCFE)后股骨头解剖结构异常可导致股骨髋臼撞击和过早骨关节炎4-10。在畸形部位通过股骨头重新定向进行手术矫正有可能完全改善这一问题,但传统上与骨坏死的高发率有关11-15。改良 Dunn 手术有可能恢复 SCFE 髋关节的解剖结构,同时保护股骨头的血液供应:根据 Ganz 等人描述的技术进行髋关节脱位手术16。通过骨膜下骨切除,以内向外的方式将剩余的大转子后上方部分修剪至股骨颈水平。股骨颈骨膜逐渐被抬高。由此形成的软组织瓣由缰绳和外旋肌组成,可固定供应骨骺的血管。用带螺纹的 Kirschner 线将股骨头骨骺固定在原位(在不稳定的病例中),横断股骨韧带,使股骨头脱位。暴露股骨颈后,逐渐将干骺端从干骺端移出,这样就可以暴露残余股骨颈,并检查是否存在后方胼胝。为避免在缩小骨骺时对视网膜血管造成张力,应完全切除后颈胼胝。在保持骨骺稳定的情况下,使用毛刺去除剩余的骺板。将骨骺轻轻缩至股骨颈上,避免牵拉视网膜血管。如果发现有张力,则重新检查股骨颈是否有残余胼胝,并将其切除。如果没有发现胼胝,可小心缩短股骨颈,以尽量减少张力。使用一根 3 毫米的全螺纹钢丝,经股窝前行插入大转子下方的外侧皮质,实现骺端固定。第二根钢丝在透视下逆行插入。缩小髋关节后,关闭关节囊,使用 3.5 毫米皮质螺钉重新连接大转子:其他选择包括非手术治疗、原位固定(如钉牢或螺钉固定)、轻度闭合复位并钉牢,以及三平面转子截骨术(如 Imhauser 或 Southwick 截骨术)。理由:对轻度至中度、稳定的 SCFE 进行原位钉牢治疗可获得良好的长期效果,骨坏死发生率较低9。对较高级别的SCFE进行不缩股治疗的目的是避免骨坏死,并假定股骨近端畸形会重塑;然而,头颈偏移仍会异常,存在撞击和早发骨关节炎的风险5,8。本文所描述的手术可对骨骺进行解剖复位,骨坏死的风险较低。通过髋关节脱位手术16和扩大的视网膜软组织瓣17,可广泛暴露股骨颈周缘的骨膜下,并保留骨骺脆弱的血液供应18。Dunn股骨颈下重新定位术15可去除胼胝并矫正滑脱角,从而实现股骨近端解剖复位:预期结果:实施该手术的不同中心所报告的结果在治疗髋关节的数量和随访时间方面差异很大。大多数研究都是回顾性的,缺乏对照组。报道的骨坏死风险从0%到25.9%不等19,范围较大的原因很可能是该技术的挑战性、每位外科医生的病例数较少以及与该手术相关的学习曲线较长。在小儿保髋手术经验丰富的中心,骨坏死的报告率很低3。中长期随访研究显示,没有患者转为全髋关节置换术3,20,21,但残余畸形可能会持续存在,因此有可能进行后续手术:皮肤切口应位于大转子中央,Gibson间隙必须仔细准备,以充分松解并避免损伤,应避免骨膜瓣受压,以防对视网膜血管造成压力:AP=前胸AVN=血管性坏死(即骨坏死)CI=置信区间CT=计算机断层扫描K-wire=Kirschner钢丝MRI=磁共振成像OA=骨关节炎SHD=外科髋关节脱位THA=全髋关节置换术VTE=静脉血栓栓塞。
Modified Dunn Procedure for Open Reduction of Chronic Slipped Capital Femoral Epiphysis.
Background: Abnormal femoral head anatomy following moderate-to-severe slipped capital femoral epiphysis (SCFE) can lead to femoroacetabular impingement and premature osteoarthritis4-10. Surgical correction at the deformity site through capital reorientation has the potential to fully ameliorate this but has traditionally been associated with high rates of osteonecrosis11-15. The modified Dunn procedure has the potential to restore anatomy in hips with SCFE while protecting the blood supply to the femoral head.
Description: A surgical dislocation of the hip is performed according to the technique described by Ganz et al.16. The remaining posterosuperior portion of the greater trochanter is trimmed to the level of the femoral neck by subperiosteal bone removal performed in an inside-out manner. The periosteum of the femoral neck is gradually elevated. The resulting soft-tissue flap, consisting of the retinaculum and external rotators, holds the blood vessels supplying the epiphysis. The femoral epiphysis is pinned in situ (in unstable cases) with threaded Kirschner wires, the ligamentum teres is transected, and the femoral head is dislocated. With the femoral neck exposed, the epiphysis is gradually mobilized from the metaphysis, allowing exposure of the residual femoral neck and inspection of any posteroinferior callus. To avoid tension on the retinacular vessels during reduction of the epiphysis, the posterior neck callus is completely excised. The remaining physis is removed with use of a burr while holding the epiphysis stable. The epiphysis is gently reduced onto the femoral neck, avoiding tension on the retinacular vessels. If tension is noted, the femoral neck is rechecked for residual callus, which is excised. If no callus is found, the neck may be carefully shortened in order to minimize tension. Epiphyseal fixation is achieved with use of a 3-mm fully threaded wire inserted antegrade through the fovea to the lateral cortex below the greater trochanter. A second wire is inserted retrograde under fluoroscopy. After reducing the hip, the capsule is closed and the greater trochanter is reattached with use of 3.5-mm cortical screws.
Alternatives: Alternatives include nonoperative treatment, in situ fixation (e.g., pinning or screw fixation), gentle closed reduction with pinning, and triplanar trochanteric osteotomy (e.g., Imhauser or Southwick osteotomies).
Rationale: In situ pinning of mild-to-moderate, stable SCFE yields good long-term results with low rates of osteonecrosis9. Treatment of higher-grade SCFE without reduction aims to avoid osteonecrosis and assumes that the proximal femoral deformity will remodel; however, the head-neck offset will remain abnormal, risking impingement and early-onset osteoarthritis5,8. The procedure described in the present article allows anatomic reduction of the epiphysis with a low risk of osteonecrosis. Surgical dislocation of the hip16 with development of an extended retinacular soft-tissue flap17 provides extensive subperiosteal exposure of the circumferential femoral neck and preserves the vulnerable blood supply to the epiphysis18. The Dunn subcapital realignment procedure15 with callus removal and slip angle correction allows anatomic restoration of the proximal femur.
Expected outcomes: Reported results of various centers performing the procedure vary greatly with regard to the number of hips treated and the follow-up time. Most studies have been retrospective and have lacked a control group. The reported risk of osteonecrosis ranges from 0% to 25.9%19, with the wide range most likely because of the challenging nature of the technique, the low number of cases per surgeon, and the long learning curve associated with the procedure. In centers with extensive experience in pediatric hip-preserving surgery, the reported rate of osteonecrosis is low3. Studies with mid to long-term follow-up have shown no conversion to total hip arthroplasty3,20,21, but residual deformities can persist, and subsequent surgery is possible.
Important tips: Extensive experience in surgical hip dislocation and retinacular flap development is a prerequisite for successful outcomes and low rates of osteonecrosis.Sufficient callus and physeal remnant resections are needed to avoid tension on the retinacular vessels during epiphyseal reduction.The skin incision should be centered over the greater trochanterThe Gibson interval must be carefully prepared for adequate release and to avoid injury.Tension on the periosteal flap should be avoided to prevent stress on the retinacular vessels.
Acronyms and abbreviations: AP = anteroposteriorAVN = avascular necrosis (i.e., osteonecrosis)CI = confidence intervalCT = computed tomographyK-wire = Kirschner wireMRI = magnetic resonance imagingOA = osteoarthritisSHD = surgical hip dislocationTHA = total hip arthroplastyVTE = venous thromboembolism.
期刊介绍:
JBJS Essential Surgical Techniques (JBJS EST) is the premier journal describing how to perform orthopaedic surgical procedures, verified by evidence-based outcomes, vetted by peer review, while utilizing online delivery, imagery and video to optimize the educational experience, thereby enhancing patient care.