反向肩关节置换术中多重生物可吸收钉钉辅助植骨治疗大关节盂缺损。

Shinji Imai
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引用次数: 0

摘要

大关节盂缺损在反向肩关节置换术(RSA)中造成问题1-4。植骨可使关节盂恢复,但由于早期不稳定(可导致假体错位)和移植物吸收(可导致假体松动),该手术的效果可能受到影响2-7。为了对抗这些潜在的并发症,我们在植骨过程中使用多个生物可吸收钉钉(MBP),在此过程中,根据需要从移植物的任何方面插入尽可能多的生物可吸收钉,直到移植物达到初始稳定性1。我们回顾性比较了不同程度的逆行植骨技术,认为当逆行度>30°1时,MBP更好。治疗的决定是根据术前的逆行程度。MBS技术适用于2型和3型关节盂畸形。这项技术不仅相对安全,因为它只涉及到使用生物可吸收材料,而且还能改善移植物的结合,减少关节盂松动1。描述:该手术在全身麻醉下,患者采用沙滩椅位,经胸三角入路。放置结构移植物后,通过移植物沿肩胛骨皮质骨向上插入5至10根临时1.5毫米克氏针。随后用生物可吸收(BR)引脚(1.5 mm Fixsorb引脚;帝人)。如果需要更多的电线,则插入另一组4至5个RB引脚以获得初始稳定性。放置移植物后,像往常一样植入关节盂。替代方法:传统上,在移植物周围置入1或2颗螺钉以获得稳定性。螺钉必须以不妨碍植入物放置的角度插入,或在植入关节盂假体之前取出。通过移植物和关节盂插入一枚或最多两枚长螺钉3,这意味着螺钉必须瞄准中心桩和螺钉之间非常狭窄的空间。否则,这些螺钉将成为关节盂内植入物放置的障碍。原理:除了促进移植物的初始稳定性外,该方法还促进移植物的融合。通常,在进行该手术时,共放置15至20组临时克氏针,每组5至7根。其中,最稳定的导线,通常总共有8到10根,被BR引脚取代。由此产生的骨孔,无论填充或未填充BR钉,都可能促进新生血管和骨诱导,从而实现骨移植物的持久重塑和更好的融合。预期结果:先前的一项研究比较了MBP与成角骨增加偏移(BIO)移植物的使用,根据轴向x线片上剩余移植物的大小评估移植物融合,完全融合定义为>原始移植物尺寸的75% 1,2。在该研究中,MBP组的所有13例患者均显示移植物完全结合,而成角BIO组的19例患者中只有9例(47%)显示移植物完全结合(p < 0.001)1。重要提示:在2型畸形的情况下,暴露关节盂的所有4个象限。MBP的准确定位很重要。在3型畸形的病例中,暴露关节盂的上、下2象限。肩胛骨基部和腋窝缘作为移植物支架。在3型畸形的情况下保留周围的软组织,因为这些组织可以容纳松质骨移植物。保留最内侧延伸的克氏针(到达肩胛骨最内侧皮质骨)作为将来钻孔中心钉孔的导丝。缩略语:RSA =反向肩关节置换术;bp =多重生物可吸收固定;bio =骨增加偏移;br =生物可吸收位移;sa =全肩关节置换术;ct =计算机断层扫描;=术后。
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Large Glenoid Defects Treated by Multiple Bioresorbable Pinning-Assisted Bone-Grafting in Reverse Shoulder Arthroplasty.

Large glenoid defects pose problems in reverse shoulder arthroplasty (RSA)1-4. Bone-grafting enables restoration of the glenoid, but outcomes of this procedure may be hampered by early instability, which can lead to implant malpositioning, and by graft resorption, which can lead to implant loosening2-7. To combat these potential complications, we utilize multiple bioresorbable pinning (MBP) during the bone-grafting process, in which as many bioresorbable pins as required are inserted from whatever aspect of the graft is appropriate until initial stability of the graft is achieved1. We retrospectively compared the various grafting techniques applied for various degrees of retroversion, concluding that MBP is better when retroversion is >30°1. Treatment decisions are made according to the degree of preoperative retroversion. The MBS technique is indicated for type-2 and type-3 glenoid deformities. This technique is not only relatively safe-as it involves only the use of bioresorbable materials-but also yields improved graft incorporation and less glenoid loosening1.

Description: This procedure is performed with the patient under general anesthesia and in the beach-chair position, via a deltopectoral approach. After placing the structural graft, 5 to 10 provisional 1.5-mm Kirschner wires are inserted through the graft up the medal cortical bone of the scapula. The Kirschner wires are subsequently replaced with bioresorbable (BR) pins (1.5-mm Fixsorb Pin; TEIJIN). If more wires are needed, another set of 4 to 5 RB pins is inserted to gain initial stability. After placing the graft, the glenoid component is implanted as usual.

Alternatives: Traditionally, 1 or 2 screws are inserted in the periphery of the graft to obtain stability. The screws either must be inserted at an angle that does not impede placement of the implant2 or are removed before the placement of the glenoid implant. One or a maximum of 2 long screws are inserted through the graft and glenoid3, meaning that the screw(s) must be aimed at a very narrow space between the central post and screws. Otherwise, these screws will represent an obstacle to the placement of the glenoid implant.

Rationale: In addition to facilitating initial graft stability, this procedure promotes graft incorporation. Typically, when performing this procedure, a total of 15 to 20 temporary Kirschner wires are placed in sets, with 5 to 7 wires per set. Of these, the most stable wires, usually 8 to 10 in total, are replaced by BR pins. The resultant bone holes, whether filled or unfilled with the BR pins, may promote neovascularization and osteoinduction, enabling long-lasting remodeling of and improved incorporation of the bone graft.

Expected outcomes: A prior study compared the use of MBP versus angulated bony-increased offset (BIO) graft, assessing graft incorporation according to the size of the remaining graft on axial radiographs, with full incorporation defined as >75% of the original graft size1,2. In that study, all 13 patients in the MBP group showed full graft incorporation compared with only 9 (47%) of 19 patients in the angulated BIO group (p < 0.001)1.

Important tips: Expose all 4 quadrants of the glenoid in cases of type-2 deformity. Accurate orientation of the MBP is important.Expose the upper and lower 2 quadrants of the glenoid in cases of type-3 deformity. The bases of the scapular spine and axillary border serve as a graft scaffold.Preserve circumferential soft tissues in cases of type-3 deformity because these tissues will serve to contain cancellous bone graft.Keep the Kirschner wire that extends the most medially (reaching the most medial cortical bone of the scapula) as a future guidewire for drilling of the central peg hole.

Acronyms and abbreviations: RSA = reverse shoulder arthroplastyMBP = multiple bioresorbable pinningBIO = bony-increased offsetBR = bioresorbableTSA = total shoulder arthroplastyCT = computed tomographyK-wire = Kirschner wireROM = range of motionP.O. = postoperative.

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来源期刊
CiteScore
2.30
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0.00%
发文量
22
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.
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Bikini Incision Modification of the Direct Anterior Approach. Closed Intramedullary Pinning of Displaced Radial Neck Fracture (Metaizeau Technique). Flexible Intramedullary Nail Placement in Pediatric Humerus Fractures. Ligamentum Flavum Flap Technique in Lumbar Microdiscectomy. Surgery for Pediatric Trigger Finger.
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