经皮骨结合假体系统(TOPS)用于下肢缺失后的康复:外科珍珠。

IF 16.4 1区 化学 Q1 CHEMISTRY, MULTIDISCIPLINARY Accounts of Chemical Research Pub Date : 2024-01-16 eCollection Date: 2024-01-01 DOI:10.2106/JBJS.ST.23.00010
Horst H Aschoff, Marcus Örgel, Marko Sass, Dagmar-C Fischer, Thomas Mittlmeier
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Beyond this, the skin-penetrating connector creates specific medical and biological challenges, especially the risk of ascending intramedullary infections. On the one hand, bacterial colonization of the skin-penetrating area (i.e., the stoma) with a gram-positive taxon is obligatory and almost impossible to avoid<sup>9,10</sup>. On the other hand, a direct structural and functional connection between the osseous tissue and the implant, without intervening connective tissue, has been shown to be a key for infection-free osseointegration<sup>11,12</sup>.</p><p><strong>Description: </strong>We present a 2-step implantation process for the standard Endo-Fix Stem (ESKA Orthopaedic Handels) into the residual femur and describe the osseointegration of the prosthesis<sup>13</sup>. In addition, we demonstrate the single-step implantation of a custom-made short femoral implant and a custom-made humeral BADAL X implant (OTN Implants) in a patient who experienced a high-voltage injury with the loss of both arms and the left thigh. Apart from the standard preparation procedures (e.g., marking the lines for skin incisions, preparation of the distal part of the residual bone), special attention must be paid when performing the operative steps that are crucial for successful osseointegration and utilization of the prosthesis. These include shortening of the residual bone to the desired length, preparation of the intramedullary cavity for hosting of the prosthetic stem, precise trimming of the soft tissue, and wound closure. Finally, we discuss the similarities and differences between the Endo-Fix Stem and the BADAL X implant in terms of their properties, intramedullary positioning, and the mechanisms leading to successful osseointegration.</p><p><strong>Alternatives: </strong>Socket prostheses for transfemoral or transtibial amputees have been the gold standard for decades. However, such patients face many challenges to recover autonomous mobility, and an estimated 30% of all amputees report unsatisfactory rehabilitation and 10% cannot use a socket prosthesis at all.</p><p><strong>Rationale: </strong>Transcutaneous osseointegrated prosthetic systems especially benefit patients who are unable to tolerate socket suspension systems, such as those with short residual limbs and/or bilateral limb loss. The use of a firmly integrated endoprosthetic stem allows patients and surgeons to avoid many of the limitations associated with conventional socket prostheses, such as the need to continually fit and refit the socket to match an ever-changing stump<sup>6,14-19</sup>. Discussion between patients who are considering an osseointegrated prosthesis and those who have already received one (\"peer patients\") has proven to be a powerful tool to prevent unrealistic expectations. Patients with a transhumeral amputation especially benefit from the stable connection between the residual limb and exoprosthesis. Motion of the affected and even the contralateral shoulder is no longer impaired, as straps and belts are dispensable. Furthermore, transmission of myoelectric signals from surrounding muscles to the prosthesis is fundamentally improved. However, comorbidities such as diabetes mellitus or peripheral arterial disease require careful counseling, even if these conditions were not responsible for the loss of the limb. Transcutaneous osseointegrated prosthetic systems for replacement of an upper or lower limb might not be an option in patients who are unable, for any reason, to take adequate care of the stoma.</p><p><strong>Expected outcomes: </strong>Despite subtle differences between the systems utilized for the intramedullary anchoring of the prosthetic stem, all data indicate that mobility and quality of life significantly increase while the frequency of stoma infections is remarkably low as long as the patient is able to follow simple postoperative care protocols<sup>2-5,9,10,13-19</sup>.</p><p><strong>Important tips: </strong>The impaction pressure of the implant depends on the diameter of the implant and the quality of the residual bone (i.e., the time interval between the amputation and the implantation of the prosthetic stem). The extent of reaming of the inner cortex of the residual bone must be adapted to these conditions. The standard Endo-Fix Stem and BADAL X implant are both slightly curved to adapt to the physiological shape of the femur. Thus, the surgeon must be sure to insert the implant in the right position and at the correct rotational alignment. When preparing a short femoral stump, carefully identify the exact transection level in order to obtain enough bone stock to anchor the implant in the correct intramedullary position for an additional locking screw into the femoral neck and head. Depending on the residual length of the humerus and the press-fit stability of the implant, the utilization of locking screws is optional, as a notch at the distal end of the implant guarantees primary rotational stability.</p><p><strong>Acronyms and abbreviations: </strong>TOPS = transcutaneous osseointegrated prosthesis systemsEEP = endo-exo prosthesisMRSA = methicillin-resistant <i>staphylococcus aureus</i>a.p. = anteroposteriorK-wire = Kirschner wireCT = computed tomographyDCA = double conus adapterOFP = osseointegrated femur prosthesis.</p>","PeriodicalId":1,"journal":{"name":"Accounts of Chemical Research","volume":null,"pages":null},"PeriodicalIF":16.4000,"publicationDate":"2024-01-16","publicationTypes":"Journal Article","fieldsOfStudy":null,"isOpenAccess":false,"openAccessPdf":"https://www.ncbi.nlm.nih.gov/pmc/articles/PMC10805461/pdf/","citationCount":"0","resultStr":"{\"title\":\"Transcutaneous Osseointegrated Prosthesis Systems (TOPS) for Rehabilitation After Lower Limb Loss: Surgical Pearls.\",\"authors\":\"Horst H Aschoff, Marcus Örgel, Marko Sass, Dagmar-C Fischer, Thomas Mittlmeier\",\"doi\":\"10.2106/JBJS.ST.23.00010\",\"DOIUrl\":null,\"url\":null,\"abstract\":\"<p><strong>Background: </strong>The biology of osseointegration of any intramedullary implant depends on the design, the press-fit anchoring, and the loading history of the endoprosthesis. 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On the other hand, a direct structural and functional connection between the osseous tissue and the implant, without intervening connective tissue, has been shown to be a key for infection-free osseointegration<sup>11,12</sup>.</p><p><strong>Description: </strong>We present a 2-step implantation process for the standard Endo-Fix Stem (ESKA Orthopaedic Handels) into the residual femur and describe the osseointegration of the prosthesis<sup>13</sup>. In addition, we demonstrate the single-step implantation of a custom-made short femoral implant and a custom-made humeral BADAL X implant (OTN Implants) in a patient who experienced a high-voltage injury with the loss of both arms and the left thigh. 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引用次数: 0

摘要

背景:任何髓内植入物的骨结合生物学特性都取决于假体的设计、压合锚定和加载历史。特别是,假体内柄的材料和表面设计要能刺激骨的内生和外生,这是稳定和持久整合的先决条件1-8。金属柄与骨壁之间的相对运动可能会刺激结缔组织界面的形成,从而增加种植体周围感染和种植体脱落的风险9-12。可达到的最大压入配合(即种植体与骨壁之间的力闭合)取决于残余骨的直径和长度,因此也取决于截肢水平。除此之外,皮肤穿透连接器还带来了特殊的医学和生物学挑战,尤其是髓内感染的风险。一方面,穿皮区域(即造口)的细菌定植为革兰氏阳性分类群是必须的,而且几乎无法避免9,10。另一方面,骨组织与种植体之间无结缔组织干扰的直接结构和功能连接已被证明是实现无感染骨结合的关键11,12:我们介绍了将标准 Endo-Fix Stem(ESKA Orthopaedic Handels)植入残余股骨的两个步骤,并描述了假体的骨结合情况13。此外,我们还展示了在一名因高压电伤而失去双臂和左大腿的患者身上分步植入定制的短股骨假体和定制的肱骨 BADAL X 假体(OTN Implants)的过程。除了标准的准备程序(如标记皮肤切口线、准备残留骨的远端部分)外,在执行对成功骨结合和使用假体至关重要的手术步骤时还必须特别注意。这些步骤包括将残余骨缩短至所需长度、准备髓内腔以容纳假体柄、精确修剪软组织以及关闭伤口。最后,我们将讨论Endo-Fix修复柄和BADAL X种植体在特性、髓内定位和成功骨结合机制方面的异同:几十年来,用于经股或经胫截肢者的插座假体一直是黄金标准。理由:经皮骨结合假肢系统尤其有益于那些无法耐受插座悬吊系统的患者,如残肢较短和/或双侧肢体缺失的患者。使用牢固整合的假体柄可以使患者和外科医生避免传统插座假体的许多局限性,例如需要不断安装和重新安装插座以匹配不断变化的残肢6,14-19。事实证明,考虑使用骨结合假体的患者与已经接受过骨结合假体的患者("同行患者")进行讨论是防止产生不切实际期望的有力工具。经肱骨截肢的患者尤其受益于残肢与外假体之间的稳定连接。患侧肩部甚至对侧肩部的活动不再受到影响,因为无需绑带和皮带。此外,从周围肌肉到假体的肌电信号传输也得到了根本改善。不过,糖尿病或外周动脉疾病等合并症需要仔细咨询,即使这些疾病不是导致肢体缺失的原因。对于因各种原因无法充分照顾造口的患者来说,经皮骨结合假肢系统可能不是替代上肢或下肢的选择:预期结果:尽管假体柄髓内固定系统之间存在细微差别,但所有数据都表明,只要患者能够遵循简单的术后护理方案,其活动能力和生活质量都会显著提高,同时造口感染的发生率也会明显降低2-5,9,10,13-19:种植体的植入压力取决于种植体的直径和残留骨的质量(即截肢与植入假体柄之间的时间间隔)。残余骨内部皮质的扩孔程度必须与这些条件相适应。标准的 Endo-Fix 人工骨茎和 BADAL X 植入体都略微弯曲,以适应股骨的生理形状。 因此,外科医生必须确保在正确的位置和正确的旋转排列上植入假体。在准备短股骨残端时,应仔细确定确切的横断水平,以便获得足够的骨量,将假体固定在正确的髓内位置,再将锁定螺钉插入股骨颈和股骨头。根据肱骨的残余长度和植入物的压入稳定性,锁定螺钉的使用是可选的,因为植入物远端的切口可以保证主要的旋转稳定性:TOPS = 经皮骨结合假体系统EEP = 内外侧假体MRSA = 甲氧西林耐药金黄色葡萄球菌ausa.p. = 前胸K-wire = Kirschner wireCT = 计算机断层扫描DCA = 双锥体适配器OFP = 骨结合股骨假体。
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Transcutaneous Osseointegrated Prosthesis Systems (TOPS) for Rehabilitation After Lower Limb Loss: Surgical Pearls.

Background: The biology of osseointegration of any intramedullary implant depends on the design, the press-fit anchoring, and the loading history of the endoprosthesis. In particular, the material and surface of the endoprosthetic stem are designed to stimulate on- and in-growth of bone as the prerequisite for stable and long-lasting integration1-8. Relative movement between a metal stem and the bone wall may stimulate the formation of a connective-tissue interface, thereby increasing the risk of peri-implant infections and implant loss9-12. The maximum achievable press-fit (i.e., the force closure between the implant and bone wall) depends on the diameter and length of the residual bone and thus on the amputation level. Beyond this, the skin-penetrating connector creates specific medical and biological challenges, especially the risk of ascending intramedullary infections. On the one hand, bacterial colonization of the skin-penetrating area (i.e., the stoma) with a gram-positive taxon is obligatory and almost impossible to avoid9,10. On the other hand, a direct structural and functional connection between the osseous tissue and the implant, without intervening connective tissue, has been shown to be a key for infection-free osseointegration11,12.

Description: We present a 2-step implantation process for the standard Endo-Fix Stem (ESKA Orthopaedic Handels) into the residual femur and describe the osseointegration of the prosthesis13. In addition, we demonstrate the single-step implantation of a custom-made short femoral implant and a custom-made humeral BADAL X implant (OTN Implants) in a patient who experienced a high-voltage injury with the loss of both arms and the left thigh. Apart from the standard preparation procedures (e.g., marking the lines for skin incisions, preparation of the distal part of the residual bone), special attention must be paid when performing the operative steps that are crucial for successful osseointegration and utilization of the prosthesis. These include shortening of the residual bone to the desired length, preparation of the intramedullary cavity for hosting of the prosthetic stem, precise trimming of the soft tissue, and wound closure. Finally, we discuss the similarities and differences between the Endo-Fix Stem and the BADAL X implant in terms of their properties, intramedullary positioning, and the mechanisms leading to successful osseointegration.

Alternatives: Socket prostheses for transfemoral or transtibial amputees have been the gold standard for decades. However, such patients face many challenges to recover autonomous mobility, and an estimated 30% of all amputees report unsatisfactory rehabilitation and 10% cannot use a socket prosthesis at all.

Rationale: Transcutaneous osseointegrated prosthetic systems especially benefit patients who are unable to tolerate socket suspension systems, such as those with short residual limbs and/or bilateral limb loss. The use of a firmly integrated endoprosthetic stem allows patients and surgeons to avoid many of the limitations associated with conventional socket prostheses, such as the need to continually fit and refit the socket to match an ever-changing stump6,14-19. Discussion between patients who are considering an osseointegrated prosthesis and those who have already received one ("peer patients") has proven to be a powerful tool to prevent unrealistic expectations. Patients with a transhumeral amputation especially benefit from the stable connection between the residual limb and exoprosthesis. Motion of the affected and even the contralateral shoulder is no longer impaired, as straps and belts are dispensable. Furthermore, transmission of myoelectric signals from surrounding muscles to the prosthesis is fundamentally improved. However, comorbidities such as diabetes mellitus or peripheral arterial disease require careful counseling, even if these conditions were not responsible for the loss of the limb. Transcutaneous osseointegrated prosthetic systems for replacement of an upper or lower limb might not be an option in patients who are unable, for any reason, to take adequate care of the stoma.

Expected outcomes: Despite subtle differences between the systems utilized for the intramedullary anchoring of the prosthetic stem, all data indicate that mobility and quality of life significantly increase while the frequency of stoma infections is remarkably low as long as the patient is able to follow simple postoperative care protocols2-5,9,10,13-19.

Important tips: The impaction pressure of the implant depends on the diameter of the implant and the quality of the residual bone (i.e., the time interval between the amputation and the implantation of the prosthetic stem). The extent of reaming of the inner cortex of the residual bone must be adapted to these conditions. The standard Endo-Fix Stem and BADAL X implant are both slightly curved to adapt to the physiological shape of the femur. Thus, the surgeon must be sure to insert the implant in the right position and at the correct rotational alignment. When preparing a short femoral stump, carefully identify the exact transection level in order to obtain enough bone stock to anchor the implant in the correct intramedullary position for an additional locking screw into the femoral neck and head. Depending on the residual length of the humerus and the press-fit stability of the implant, the utilization of locking screws is optional, as a notch at the distal end of the implant guarantees primary rotational stability.

Acronyms and abbreviations: TOPS = transcutaneous osseointegrated prosthesis systemsEEP = endo-exo prosthesisMRSA = methicillin-resistant staphylococcus aureusa.p. = anteroposteriorK-wire = Kirschner wireCT = computed tomographyDCA = double conus adapterOFP = osseointegrated femur prosthesis.

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来源期刊
Accounts of Chemical Research
Accounts of Chemical Research 化学-化学综合
CiteScore
31.40
自引率
1.10%
发文量
312
审稿时长
2 months
期刊介绍: Accounts of Chemical Research presents short, concise and critical articles offering easy-to-read overviews of basic research and applications in all areas of chemistry and biochemistry. These short reviews focus on research from the author’s own laboratory and are designed to teach the reader about a research project. In addition, Accounts of Chemical Research publishes commentaries that give an informed opinion on a current research problem. Special Issues online are devoted to a single topic of unusual activity and significance. Accounts of Chemical Research replaces the traditional article abstract with an article "Conspectus." These entries synopsize the research affording the reader a closer look at the content and significance of an article. Through this provision of a more detailed description of the article contents, the Conspectus enhances the article's discoverability by search engines and the exposure for the research.
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