Cắt bỏ mỏm xương đòn xa (Thủ thuật Mumford)
Patients › Shoulder
Thủ thuật Mumford (cắt bỏ đầu xương đòn xa) loại bỏ phần đầu ngoài nhỏ bị mòn của xương đòn để giảm đau vai tại khớp AC. Thủ thuật nội soi này bao gồm những gì và quá trình hồi phục diễn ra như thế nào.
Lý do phẫu thuật này được đề xuất
Bác sĩ phẫu thuật của bạn đã đề xuất cắt bỏ đầu xương đòn xa, còn được gọi là thủ thuật Mumford. Phẫu thuật này loại bỏ đầu ngoài của xương đòn để ngăn nó cọ xát vào xương bả vai. Bạn có thể cần thực hiện thủ thuật này do có tình trạng đau dai dẳng hoặc viêm xương khớp do hao mòn không cải thiện sau các phương pháp điều trị không phẫu thuật.
Phẫu thuật này thường được chỉ định cho những bệnh nhân có tiền sử trật khớp cũ hoặc đau mạn tính, đặc biệt là những người làm việc nặng hoặc thường xuyên nâng cánh tay. Mục tiêu chính là giảm đau và cải thiện chức năng khớp vai. Mặc dù cả hai phương pháp mổ mở và mổ nội soi đều mang lại hiệu quả tốt, bác sĩ phẫu thuật của bạn sẽ sử dụng phương pháp nội soi. Phương pháp này bao gồm các vết rạch nhỏ và sử dụng camera, giúp bạn nhanh chóng trở lại các hoạt động hàng ngày với kết quả lâu dài tương tự.
Trước khi phẫu thuật
Bạn sẽ cần nhịn ăn trước khi phẫu thuật và ngừng sử dụng một số loại thuốc theo chỉ định của bác sĩ phẫu thuật. Vui lòng sắp xếp để có người đưa bạn về nhà và mặc quần áo thoải mái. Bạn có thể cần chụp X-quang, MRI, xét nghiệm máu hoặc đánh giá gây mê để kiểm tra sức khỏe và lập kế hoạch cho thủ thuật. Bác sĩ phẫu thuật của bạn sẽ thực hiện cuộc phẫu thuật này bằng phương pháp nội soi (phương pháp chìa khóa) với hai hoặc ba vết rạch nhỏ và một camera nhỏ bên trong khớp. Phương pháp này giúp bạn nhanh chóng trở lại các hoạt động hàng ngày trong khi tránh để lại sẹo lớn. Hãy mang theo danh sách tất cả các loại thuốc hiện tại bạn đang sử dụng đến cuộc hẹn.
Vào ngày phẫu thuật
Bạn sẽ đến bệnh viện và gặp bác sĩ phẫu thuật cùng bác sĩ gây mê. Phẫu thuật này được thực hiện dưới gây mê toàn thân kết hợp với phong bế thần kinh vùng. Bạn sẽ hoàn toàn ngủ trong suốt quá trình phẫu thuật, và phương pháp phong bế (một mũi tiêm làm tê các thần kinh chi phối cánh tay trước khi bạn tỉnh dậy) giúp giảm đau trong 12 đến 24 giờ đầu sau phẫu thuật. Bác sĩ gây mê sẽ gặp bạn trước khi phẫu thuật và giải thích chi tiết về cả hai phần này.
Sau đó, bạn sẽ được đưa vào phòng mổ, nơi bác sĩ phẫu thuật thực hiện thủ thuật bằng phương pháp nội soi. Phương pháp này bao gồm hai hoặc ba vết rạch nhỏ và một camera siêu nhỏ được đưa vào trong khớp để hỗ trợ thực hiện phẫu thuật. Sau khi phẫu thuật, bạn sẽ tỉnh dậy tại khu vực hồi sức, nơi đội ngũ y tế sẽ theo dõi mức độ thoải mái của bạn khi hiệu ứng tê dần hết.
Thủ thuật phẫu thuật bao gồm
Bác sĩ phẫu thuật của bạn sẽ thực hiện ca phẫu thuật này bằng kỹ thuật nội soi. Họ sẽ tạo hai hoặc ba vết rạch nhỏ, mỗi vết dài khoảng 1 cm, gần khớp vai của bạn. Thông qua các lỗ mở này, một camera siêu nhỏ và các dụng cụ chuyên dụng được đưa vào để quan sát bên trong khớp. Phương pháp này cho phép bác sĩ phẫu thuật tiếp cận phần đầu ngoài của xương đòn mà không cần tạo một vết rạch lớn.
Mục tiêu chính là loại bỏ một mảnh xương nhỏ từ đầu ngoài của xương đòn. Bác sĩ phẫu thuật sẽ cẩn thận cắt bỏ phần xương này để ngăn nó cọ xát vào xương bả vai. Bằng chứng cho thấy việc loại bỏ khoảng 5 mm xương đảm bảo các xương sẽ không chạm vào nhau nữa, trong khi việc loại bỏ 2,5 mm đã thành công trong nhiều trường hợp. Bác sĩ phẫu thuật sẽ đặt camera và dụng cụ chính xác để tránh làm tổn thương các cấu trúc lân cận.
Sau khi xương được loại bỏ, các vết rạch nhỏ sẽ được khâu kín. Bác sĩ phẫu thuật có thể sử dụng chỉ tự tiêu hoặc keo để đóng kín da. Bạn có thể mong đợi việc trở lại các hoạt động nhanh hơn với phương pháp nội soi này so với vết rạch mở lớn hơn, trong khi vẫn đạt được kết quả dài hạn tương tự. Thủ thuật tập trung vào việc giảm đau của bạn bằng cách loại bỏ nguồn ma sát trong khớp.
Sau phẫu thuật
Bạn sẽ tỉnh dậy tại khu vực hồi sức, nơi đội ngũ y tế sẽ kiểm soát cơn đau của bạn. Bác sĩ phẫu thuật sử dụng kỹ thuật xâm lấn tối thiểu với hai hoặc ba vết rạch nhỏ và một camera siêu nhỏ bên trong khớp. Bạn sẽ được đeo nẹp và có băng gạc che các vết rạch nhỏ. Bạn có thể bắt đầu cử động nhẹ nhàng ngón tay và cổ tay ngay lập tức. Hầu hết bệnh nhân nằm viện qua đêm sau phẫu thuật này, mặc dù một số có thể về nhà cùng ngày. Bạn bắt buộc phải có người ở lại chăm sóc trong 24 giờ đầu tiên. Bạn có thể dự kiến trở lại lái xe trong vòng 4 tuần và trở lại làm việc trong vòng 6 tuần.
Phục hồi
Bạn có thể sẽ cảm thấy một số cơn đau và sưng ở vai trong vài ngày đầu. Điều này là bình thường khi cơ thể bạn đang hồi phục từ các vết rạch nhỏ bằng phương pháp nội soi. Bác sĩ phẫu thuật của bạn có thể đề xuất sử dụng chườm đá và thuốc giảm đau để giúp bạn cảm thấy thoải mái hơn. Hầu hết mọi người nhận thấy rằng sự khó chịu giảm dần khi tình trạng sưng tấy giảm đi.
Bạn sẽ đeo nạng để hỗ trợ cánh tay trong khi nghỉ ngơi. Chuyên viên vật lý trị liệu sẽ hướng dẫn bạn thực hiện các bài tập nhẹ nhàng để duy trì khả năng vận động của vai mà không gây căng thẳng. Bạn có thể thực hiện các công việc nhà nhẹ nhàng khi cảm thấy sẵn sàng, nhưng tránh nâng vật nặng hoặc với tay lên cao. Việc ngủ có thể khó khăn ban đầu; việc kê cao đầu bằng gối thường giúp bạn tìm được tư thế thoải mái hơn.
Khi khả năng vận động trở lại và tình trạng sưng tấy giảm bớt, bạn sẽ cảm thấy tự tin hơn vào vai của mình. Bác sĩ phẫu thuật và chuyên viên vật lý trị liệu sẽ cho bạn biết chính xác khi nào bạn có thể lái xe, trở lại làm việc hoặc chơi thể thao. Thời gian phục hồi cá nhân của bạn có thể khác với người khác, vì vậy hãy tuân thủ lời khuyên cụ thể của họ dành cho quá trình phục hồi của bạn.
Những biến chứng có thể xảy ra
Hầu hết bệnh nhân đều hồi phục tốt, nhưng đôi khi có thể xảy ra các vấn đề. Bác sĩ phẫu thuật và đội ngũ y tế theo dõi bạn chặt chẽ để phát hiện sớm bất kỳ vấn đề nào.
Nếu vai của bạn vẫn đau hoặc có cảm giác ma sát sau phẫu thuật, có thể xương đã không được cắt bỏ đủ. Đôi khi xương có thể mọc lại tại cùng vị trí đó. Điều này có thể gây ra cơn đau âm ỉ dai dẳng không thuyên giảm với các loại thuốc giảm đau thông thường. Hãy thông báo cho bác sĩ phẫu thuật nếu bạn có cảm giác này để họ kiểm tra quá trình lành vết thương của bạn.
Nếu bạn nhận thấy cơn đau nhói đột ngột hoặc cảm giác mất ổn định tại nơi xương đòn gặp khớp vai, có thể đã cắt bỏ quá nhiều xương. Điều này có thể khiến khớp cảm thấy lỏng lẻo hoặc chùng xuống. Hãy báo cáo ngay lập tức bất kỳ tiếng kêu lục cục hoặc cảm giác ma sát mới xuất hiện.
Trong các trường hợp hiếm, gãy xương có thể xảy ra ở xương đòn hoặc xương nằm dưới nó. Bạn có thể cảm thấy một tiếng bục hoặc cơn đau dữ dội khiến bạn không thể cử động cánh tay. Đây là một vấn đề nghiêm trọng cần được xử trí khẩn cấp. Hãy đến khoa cấp cứu nếu bạn nghi ngờ có gãy xương.
Bác sĩ phẫu thuật sử dụng phương pháp nội soi với hai hoặc ba vết rạch nhỏ và một camera siêu nhỏ bên trong khớp. Ngay cả với phương pháp thận trọng này, các biến chứng vẫn có thể xảy ra. Bảng biến chứng trên trang này liệt kê các tỷ lệ thường gặp nếu bạn muốn biết chi tiết.
Khi nào cần gọi cho chúng tôi
Gọi cho bác sĩ phẫu thuật của bạn nếu bạn bị sốt, đỏ tăng dần hoặc có dịch tiết từ các vết rạch nhỏ dạng thenhole. Đến cơ sở cấp cứu nếu bạn cảm thấy đau dữ dội đột ngột, nhận thấy chân bị sưng và đau, hoặc gặp khó khăn khi thở. Liên hệ với chúng tôi ngay lập tức nếu bạn mất cảm giác ở cánh tay hoặc không thể cử động vai. Những dấu hiệu này cần được kiểm tra khẩn cấp để đảm bảo an toàn cho bạn.
Evidence & references
Overview
- A well-performed distal clavicle excision will likely perform better than a poorly performed one, regardless of whether an open or arthroscopic approach is chosen [1].
- Patients undergoing arthroscopic distal clavicle excision through the direct approach can expect a faster return to activities compared with the open procedure while obtaining similar long-term outcomes [2].
- Arthroscopic distal clavicle resection has provided more 'good or excellent' results than has the open procedure, though this finding is comprised of low-level evidence [3].
- Simple excision of the outer end of the clavicle has yielded satisfactory results with no residual upward displacement disturbing patients [4].
- Patients with displacement greater than 100% of the thickness of the distal clavicle had poorer postoperative clinical outcomes [5].
- Incomplete excision and regrowth of the distal clavicle are the most common causes of revision surgery [6].
- Portal placement remains paramount in facilitating surgery and avoiding injury to adjacent extra-articular structures regardless of the technique chosen for distal clavicle resection [7].
- In appropriately selected patients, open or arthroscopic distal clavicle resection is necessary to relieve symptoms [8].
- Distal clavicle excision with 2.5 mm of bone was successful in many specimens, but a 5 mm resection guaranteed no bone-to-bone abutment [9].
- Arthroscopic and open distal clavicle excisions both provide significant pain reduction at 1 year with no significant difference in outcome measures between groups, except for VAS pain score improvement [10].
- Excision of the outer end of the clavicle is preferred for old dislocations, while open reduction and internal fixation are not recommended due to complications and poor functional results [15].
- Both the direct superior approach and the indirect subacromial approach to the arthroscopic distal clavicle resection result in successful clinical outcome with clinically insignificant difference at final follow-up [16].
Anatomy & Pathophysiology
- A precise, easy to use and low-cost non-invasive method able to draw and analyze the kinematics of the shoulder complex has not been developed yet [25].
- Normative kinematic values of scapulothoracic movements in the shoulder girdle have been provided [26].
- No reconstruction strategy completely restores the shoulder girdle to its preinjured state, although each technique restores different elements of joint kinematics [27].
- The trapezoid and conoid ligaments have unique functions in normal shoulder kinematics because of their anatomic attachments [28].
- Kinematic changes could be a potential source of pain and dysfunction in the shoulder with AC joint dislocation [29].
- Scapular and clavicular kinematics were affected in AC separation models [30].
- A comprehensive clinical approach emphasizing the evaluation of the extent of the anatomic injury and understanding its mechanical consequences regarding shoulder and arm function is key in the development of guidelines for developing operative or non-operative treatment protocols and for establishing outcomes of the treatment protocols [31].
- The inconsistency of AC joint testing parameters and the lack of thorough translation studies indicate a necessity for increased attention in the overall assessment of shoulder stability to close the gap in the foundational biomechanical research [32].
- Anatomically, the pectoralis minor tendon provides sufficient tissue length, excursion, and width [33].
- Biomechanically, the pectoralis minor tendon is as strong as the coracoacromial ligament [33].
- No significant biomechanical differences in displacement or stiffness were seen between the anatomical landmark technique and the coracoid-based landmarks technique for coracoclavicular stabilization [34].
- New surgical techniques continue to evolve as more biomechanical data emerge and kinematic understanding improves [35].
- Emerging concepts and strategies regarding horizontal and rotational instability and scapular biomechanics aim to lay the foundation for future studies aimed at improving treatment outcomes and patient management [36].
- Preliminary findings revealed no detectable differences between surgically reconstructed and uninjured sides in ACJ biomechanics, range of motion, and isometric strength [37].
- Nonoperatively treated shoulders showed increased internal rotation, upward rotation, and posterior tilting [37].
- Type I and II acromioclavicular joint disruptions impair long-term shoulder function in about half of patients 10 years after injury [40].
- At 150 to 200 N of loading, coracoacromial ligament excision and acromioplasty increase the rotator cuff force required to maintain normal glenohumeral biomechanics by 25% to 30% [41].
- Centre of pressure measurement detected sensorimotor functional deficits following surgical treatment of the shoulder joint in patients with confirmed successful clinical and functional outcomes [42].
Classification
- A well-performed distal clavicle excision will likely perform better than a poorly performed one, regardless of whether an open or arthroscopic approach is chosen [1].
- Patients undergoing an arthroscopic procedure specifically through the direct approach can expect a faster return to activities while obtaining similar long-term outcomes compared with the open procedure [2].
- Arthroscopic distal clavicle resection has provided more 'good or excellent' results than has the open procedure, but this finding is comprised of low-level evidence [3].
- Simple excision of the outer end of the clavicle has yielded satisfactory results with no residual upward displacement disturbing the patients [4].
- Patients with displacement greater than 100% of the thickness of the distal clavicle had poorer postoperative clinical outcomes [5].
- Incomplete excision and regrowth of the distal clavicle are the most common causes of revision [6].
- Portal placement remains paramount in both facilitating surgery and avoiding injury to adjacent extra-articular structures regardless of the technique chosen for distal clavicle resection [7].
- In appropriately selected patients, open or arthroscopic distal clavicle resection is necessary to relieve symptoms [8].
- Distal clavicle excision with 2.5 mm of bone was successful in many specimens, but a 5 mm resection guaranteed no bone-to-bone abutment [9].
- Arthroscopic and open distal clavicle excisions both provide significant pain reduction at 1 year with no significant difference in outcome measures between groups, except for VAS pain score improvement [10].
- Horizontal instability of the clavicle is evident with distal clavicle resection of greater than 10 mm [11].
- The new operative procedure combines resection arthroplasty with fixation of the clavicle in an anatomical position [12].
- A records review found that 10 of 894 (1.1%) rotator cuff repairs underwent subsequent distal clavicle resection [23].
- The cross-sectional A-frame morphology of the superior cortex of the distal clavicle provides a reproducible landmark that is eliminated approximately 1.0 cm medial to the distal, lateral end of the clavicle, which can be used intraoperatively to determine when adequate resection has been completed [24].
- Severe chronic symptomatic AC joint separations (Rockwood types III through V) can be repaired entirely by arthroscopy safely and effectively by transferring the coracoacromial ligament with a bone block in the distal clavicle [47].
Clinical Presentation
- A well-performed distal clavicle excision will likely perform better than a poorly performed one, regardless of whether an open or arthroscopic approach is chosen [1].
- Patients having an arthroscopic procedure, specifically through the direct approach, can expect a faster return to activities while obtaining similar long-term outcomes compared with the open procedure [2].
- Arthroscopic distal clavicle resection has provided more 'good or excellent' results than has the open procedure, but is comprised of low-level evidence [3].
- Simple excision of the outer end of the clavicle has yielded satisfactory results in patients with complete dislocation and subluxation of the acromioclavicular joint, with no residual upward displacement disturbing the patients [4].
- Patients with displacement greater than 100% of the thickness of the distal clavicle had poorer postoperative clinical outcomes [5].
- Incomplete excision and regrowth of the distal clavicle are the most common causes of revision surgery [6].
- Portal placement remains paramount in both facilitating surgery and avoiding injury to adjacent extra-articular structures regardless of the technique chosen for distal clavicle resection [7].
- In appropriately selected patients, open or arthroscopic distal clavicle resection is necessary to relieve symptoms [8].
- Although distal clavicle excision with 2.5 mm of bone was successful in many specimens, a 5 mm resection guaranteed no bone-to-bone abutment [9].
- Arthroscopic and open distal clavicle excisions both provide significant pain reduction at 1 year with no significant difference in outcome measures between groups, except for VAS pain score improvement [10].
- Horizontal instability of the clavicle is evident with distal clavicle resection of greater than 10 mm [11].
- Late loss of reduction was common, and clavicular resection reliably produced significant improvement in patients with persistent pain or posttraumatic arthritis [13].
- In carefully selected patients with isolated ACJ pathology, arthroscopic distal clavicle excision results in statistically and clinically significant improvements in range of motion and patient-reported outcome measures [14].
- Excision of the outer end of the clavicle is preferred for old dislocations, while open reduction and internal fixation are not recommended due to complications and poor functional results [15].
- Methods to diagnose both superior and posterior translation of the clavicle need further debate [17].
- Clinical examination and surgical treatment should address anatomic restoration of individual structures to optimize the mechanical capability of the claviscapular segment [18].
- For chronic symptomatic injuries, partial claviculectomy is believed to be the best procedure, offering negligible morbidity and rapid return to function [19].
- Operation should be considered only in thin patients with a prominent clavicle, those doing heavy work, or those whose work requires frequent shoulder abduction and flexion [20].
- Older patients and females were more likely to experience postoperative complications requiring reoperations, including revision ACJR, distal clavicle excision, and irrigation and debridement [21].
- Excellent clinical results were achieved with acromioclavicular joint reconstruction with coracoacromial ligament transfer using the docking technique, decreasing the risk of recurrent distal clavicle instability [46].
Investigations
- A well-performed distal clavicle excision will likely perform better than a poorly performed one, regardless of whether an open or arthroscopic approach is chosen [1].
- Patients having an arthroscopic procedure, specifically through the direct approach, can expect a faster return to activities while obtaining similar long-term outcomes compared with the open procedure [2].
- Arthroscopic distal clavicle resection has provided more 'good or excellent' results than has the open procedure, but is comprised of low-level evidence [3].
- Simple excision of the outer end of the clavicle has yielded satisfactory results in this group of patients, with no residual upward displacement disturbing the patients [4].
- Patients with displacement greater than 100% of the thickness of the distal clavicle had poorer postoperative clinical outcomes [5].
- Incomplete excision and regrowth of the distal clavicle are the most common causes of revision [6].
- Portal placement remains paramount in both facilitating surgery and avoiding injury to adjacent extra-articular structures regardless of the technique chosen for distal clavicle resection [7].
- In appropriately selected patients, open or arthroscopic distal clavicle resection is necessary to relieve symptoms [8].
- Distal clavicle excision with 2.5 mm of bone was successful in many specimens, but a 5 mm resection guaranteed no bone-to-bone abutment [9].
- Horizontal instability of the clavicle is evident with distal clavicle resection of greater than 10 mm [11].
- The new operative procedure combines resection arthroplasty with fixation of the clavicle in an anatomical position [12].
- In carefully selected patients with isolated ACJ pathology, arthroscopic distal clavicle excision results in statistically and clinically significant improvements in range of motion and patient-reported outcome measures [14].
- Methods to diagnose both superior and posterior translation of the clavicle need further debate [17].
- Clinical examination and surgical treatment should address anatomic restoration of individual structures to optimize the mechanical capability of the claviscapular segment [18].
- A 5-mm distal clavicle resection guaranteed no abutment but decreased joint stiffness [22].
- The cross-sectional A-frame morphology of the superior cortex of the distal clavicle provides a reproducible landmark that is eliminated approximately 1.0 cm medial to the distal, lateral end of the clavicle, which can be used intraoperatively to determine when adequate resection has been completed [24].
- Weighted stress radiographs significantly increased the measured elevation of the clavicle and the coracoclavicular distance compared to non-weighted views [54].
- There was no significant difference between open or arthroscopic distal clavicle excision (DCE) [55].
- Although radiological assessment showed a statistically significant immediate superior clavicular displacement after hardware removal following ACJ stabilization, with an increased incidence in the first year following stabilization, this may not negatively influence the results of ACJ stabilization in a clinically relevant way [56].
- Fifteen years postoperatively, good clinical results persisted and anatomic reduction was overall maintained, often with asymptomatic ossification of the coracoclavicular ligaments [57].
Treatment
- A well-performed distal clavicle excision will likely perform better than a poorly performed one, regardless of whether an open or arthroscopic approach is chosen [1].
- Patients undergoing arthroscopic distal clavicle excision via the direct approach can expect a faster return to activities compared with the open procedure while obtaining similar long-term outcomes [2].
- Arthroscopic distal clavicle resection has provided more 'good or excellent' results than the open procedure, though this is based on low-level evidence [3].
- Simple excision of the outer end of the clavicle has yielded satisfactory results with no residual upward displacement disturbing patients [4].
- Patients with displacement greater than 100% of the thickness of the distal clavicle had poorer postoperative clinical outcomes [5].
- Incomplete excision and regrowth of the distal clavicle are the most common causes of revision surgery [6].
- Portal placement remains paramount in facilitating surgery and avoiding injury to adjacent extra-articular structures regardless of the technique chosen for distal clavicle resection [7].
- In appropriately selected patients, open or arthroscopic distal clavicle resection is necessary to relieve symptoms [8].
- Distal clavicle excision with 2.5 mm of bone was successful in many specimens, but a 5 mm resection guaranteed no bone-to-bone abutment [9].
- Arthroscopic and open distal clavicle excisions both provide significant pain reduction at 1 year with no significant difference in outcome measures between groups, except for VAS pain score improvement [10].
- Horizontal instability of the clavicle is evident with distal clavicle resection of greater than 10 mm [11].
- Late loss of reduction was common, and clavicular resection reliably produced significant improvement in patients with persistent pain or posttraumatic arthritis [13].
- Excision of the outer end of the clavicle is preferred for old dislocations, while open reduction and internal fixation are not recommended due to complications and poor functional results [15].
- Both the direct superior approach and the indirect subacromial approach to arthroscopic distal clavicle resection result in successful clinical outcomes with clinically insignificant difference at final follow-up [16].
- A 5-mm distal clavicle resection guaranteed no abutment but decreased joint stiffness [22].
- Surgical treatment may offer early benefits in pain relief and coracoclavicular distance improvement but does not enhance long-term functional outcomes and is associated with higher specific complication rates [49].
- The slight increase in the in situ graft force only in the posterosuperior and posterior direction after distal clavicle excision suggests only a marginal protective role of the acromioclavicular articulation [50].
- A bone anchor system for distal fixation in the base of the coracoid process and a medialized hole in the clavicle restored anatomy best [52].
Complications
- A well-performed distal clavicle excision performs better than a poorly performed one, regardless of whether an open or arthroscopic approach is chosen [1].
- Incomplete excision and regrowth of the distal clavicle are the most common causes of revision surgery [6].
- Portal placement is paramount in facilitating surgery and avoiding injury to adjacent extra-articular structures [7].
- Distal clavicle excision with 2.5 mm of bone was successful in many specimens, but a 5 mm resection guaranteed no bone-to-bone abutment [9].
- Horizontal instability of the clavicle is evident with distal clavicle resection of greater than 10 mm [11].
- Patients with displacement greater than 100% of the thickness of the distal clavicle had poorer postoperative clinical outcomes [5].
- Older patients and females were more likely to experience postoperative complications requiring reoperations, including revision ACJR, distal clavicle excision, and irrigation and debridement [21].
- The incidence of complications in operative acromioclavicular joint separations in an active population was 1.35 per 100 person-years [59].
- Clavicle and coracoid fractures occurred in 1.9 out of 100 cases of operative acromioclavicular joint separations [59].
- Fracture of the distal clavicle or coracoid process after CC ligament repair or reconstruction is a rare but serious complication that can occur independent of bone tunnels created during the index procedure [62].
- Coracoclavicular ligament reconstruction is an effective surgical approach for decreasing the incidence of subacromial osteolysis [60].
- Excellent results can be obtained with coracoacromial ligament transfer using the docking technique, decreasing the risk of recurrent distal clavicle instability [61].
Recovery
- A well-performed distal clavicle excision will likely perform better than a poorly performed one, regardless of whether an open or arthroscopic approach is chosen [1].
- Patients undergoing an arthroscopic procedure, specifically through the direct approach, can expect a faster return to activities compared with the open procedure while obtaining similar long-term outcomes [2].
- Arthroscopic distal clavicle resection has provided more 'good or excellent' results than has the open procedure, though this is comprised of low-level evidence [3].
- Simple excision of the outer end of the clavicle has yielded satisfactory results with no residual upward displacement disturbing the patients [4].
- Patients with displacement greater than 100% of the thickness of the distal clavicle had poorer postoperative clinical outcomes [5].
- Incomplete excision and regrowth of the distal clavicle are the most common causes of revision [6].
- Arthroscopic and open distal clavicle excisions both provide significant pain reduction at 1 year with no significant difference in outcome measures between groups, except for VAS pain score improvement [10].
- Clavicular resection reliably produced significant improvement in patients with persistent pain or posttraumatic arthritis, although late loss of reduction was common [13].
- For chronic symptomatic injuries, partial claviculectomy is believed to be the best procedure, offering negligible morbidity and rapid return to function [19].
- Operation should be considered only in thin patients with a prominent clavicle, those doing heavy work, or those whose work requires frequent shoulder abduction and flexion [20].
- More than 90% of patients manage to return to driving within 4 weeks and to work within 6 weeks following arthroscopic subacromial decompression and acromio-clavicular joint excision [38].
- Late reconstruction of the ligaments in young patients with complete acromioclavicular separations can yield better results than excision of the lateral clavicle, allowing patients to return to strenuous sports or heavy labor [43].
- The described single-tunnel technique for coracoclavicular and acromioclavicular ligament reconstruction results in satisfactory objective and patient-reported outcomes and return to sports while avoiding coracoid and clavicle fractures [44].
- The anatomic reconstruction complex could withstand early rehabilitation, but the decrease in the structural properties and stiffness of the clavicle should be considered in optimizing the anatomic reconstruction technique [45].
- Satisfactory outcome depends upon restoring the stability of the clavicle as well as the acromioclavicular joint [53].
- The arthroscopic partial distal clavicle beveling procedure for nonincarcerated type IV AC separations resulted in a significant reduction in pain, improved daily function, and early return to sport [58].
Key Evidence
- [L5] A well-performed distal clavicle excision will likely perform better than a poorly performed one, regardless of whether an open or arthroscopic approach is chosen. [1] (10.1016/j.arthro.2018.03.004)
- [L3] Among patients undergoing distal clavicle excision for acromioclavicular joint pathology, those having an arthroscopic procedure, specifically through the direct approach, can expect a faster return to activities while obtaining similar long-term outcomes compared with the open procedure. [2] (10.1016/j.arthro.2009.12.007)
- [L3] Arthroscopic distal clavicle resection has provided more 'good or excellent' results than has the open procedure, but is comprised of low-level evidence. [3] (10.1097/blo.0b013e31802f5450)
- [L3] Patients with displacement greater than 100% of the thickness of the distal clavicle had poorer postoperative clinical outcomes. [5] (10.1186/s12891-025-09190-x)
- [L4] Incomplete excision and regrowth of the distal clavicle are the most common causes of revision. [6] (10.1016/j.arthro.2009.06.010)
- [Case_report] Regardless of the technique chosen for distal clavicle resection, portal placement remains paramount in both facilitating surgery and avoiding injury to adjacent extra-articular structures. [7] (10.1016/j.jse.2010.08.032)
- [L5] In appropriately selected patients, open or arthroscopic distal clavicle resection is necessary to relieve symptoms. [8] (10.5435/00124635-199905000-00004)
- [Abstract] Although distal clavicle excision with 2.5 mm of bone was successful in many specimens, a 5 mm resection guaranteed no bone-to-bone abutment. [9] (10.1016/j.jse.2007.02.105)
- [L1] Arthroscopic and open distal clavicle excisions both provide significant pain reduction at 1 year with no significant difference in outcome measures between groups, except for VAS pain score improvement. [10] (10.1016/j.jse.2006.10.006)
- [L4] Horizontal instability of the clavicle is evident with distal clavicle resection of greater than 10 mm. [11] (10.1016/j.xrrt.2021.05.003)
- [L4] The new operative procedure combines resection arthroplasty with fixation of the clavicle in an anatomical position. [12] (10.2106/00004623-197254060-00005)
- [L3] Late loss of reduction was common, and clavicular resection reliably produced significant improvement in patients with persistent pain or posttraumatic arthritis. [13] (10.2106/00004623-198769070-00013)
- [L4] In carefully selected patients with isolated ACJ pathology, arthroscopic distal clavicle excision results in statistically and clinically significant improvements in range of motion and patient-reported outcome measures. [14] (10.1016/j.jseint.2023.07.014)
- [L4] Excision of the outer end of the clavicle is preferred for old dislocations, while open reduction and internal fixation are not recommended due to complications and poor functional results. [15] (10.2106/00004623-196345080-00024)
- [L2] Both the direct superior approach and the indirect subacromial approach to the arthroscopic distal clavicle resection result in successful clinical outcome with clinically insignificant difference at final follow-up. [16] (10.1177/0363546506294855)
- [L4] Methods to diagnose both superior and posterior translation of the clavicle need further debate. [17] (10.1016/j.jseint.2019.11.006)
- [L5] Clinical examination and surgical treatment should address anatomic restoration of individual structures to optimize the mechanical capability of the claviscapular segment. [18] (10.5435/jaaos-d-24-00360)
- [L1] Operation should be considered only in thin patients with a prominent clavicle, those doing heavy work, or those whose work requires frequent shoulder abduction and flexion. [20] (10.2106/00004623-198668040-00011)
- [L4] Older patients and females were more likely to experience postoperative complications requiring reoperations, including revision ACJR, distal clavicle excision, and irrigation and debridement. [21] (10.1007/s00167-016-4206-y)
- [L5] A 5-mm distal clavicle resection guaranteed no abutment but decreased joint stiffness. [22] (10.1016/j.arthro.2007.07.004)
- [L3] This records review found that 10 of 894 (1.1%) rotator cuff repairs underwent subsequent distal clavicle resection. [23] (10.1177/2325967119844295)
- [L5] The cross-sectional A-frame morphology of the superior cortex of the distal clavicle provides a reproducible landmark that is eliminated approximately 1.0 cm medial to the distal, lateral end of the clavicle, which can be used intraoperatively to determine when adequate resection has been completed. [24] (10.1016/j.jse.2021.10.013)
- [L5] Despite technology innovations, a precise, easy to use and low-cost non-invasive method able to draw and analyze the kinematics of the shoulder complex has not been developed yet. [25] (10.1177/17585732221090226)
- [L5] This study provided normative kinematic values of scapulothoracic movements in the shoulder girdle. [26] (10.1016/j.jseint.2022.09.014)
- [L5] Although each technique was able to restore different elements of the joint kinematics, none of the strategies completely restored the shoulder girdle to its preinjured state. [27] (10.1177/03635465221095231)
- [L5] The trapezoid and conoid ligaments have unique functions in normal shoulder kinematics because of their anatomic attachments. [28] (10.1016/j.arthro.2009.12.031)
- [L5] The kinematic changes could be a potential source of pain and dysfunction in the shoulder with AC joint dislocation. [29] (10.1177/0363546512458571)
- [L5] Scapular and clavicular kinematics were affected in AC separation models. [30] (10.1016/j.jse.2013.01.004)
- [L5] A comprehensive clinical approach emphasizing the evaluation of the extent of the anatomic injury and understanding its mechanical consequences regarding shoulder and arm function is a key in the development of guidelines for developing operative or non-operative treatment protocols and for establishing outcomes of the treatment protocols. [31] (10.1177/17585732221122335)
- [L4] The inconsistency of AC joint testing parameters and the lack of thorough translation studies indicate a necessity for increased attention in the overall assessment of shoulder stability to close the gap in the foundational biomechanical research. [32] (10.1016/j.xrrt.2024.06.009)
- [L5] Anatomically, it provides sufficient tissue length, excursion, and width, and biomechanically, it is as strong as the coracoacromial ligament. [33] (10.1016/j.jse.2006.09.007)
- [L5] No significant biomechanical differences in displacement or stiffness were seen between the anatomical landmark technique and the coracoid-based landmarks technique. [34] (10.1177/23259671221132541)
- [L5] New surgical techniques continue to evolve as more biomechanical data emerge and kinematic understanding improves. [35] (10.5435/jaaos-d-16-00776)
- [L5] By exploring emerging concepts and strategies regarding horizontal and rotational instability and scapular biomechanics, the article aims to lay the foundation for future studies aimed at improving treatment outcomes and patient management. [36] (10.1016/j.jseint.2023.11.018)
- [L4] Preliminary findings revealed no detectable differences between surgically reconstructed and uninjured sides in ACJ biomechanics, range of motion, and isometric strength, while nonoperatively treated shoulders showed increased internal rotation, upward rotation, and posterior tilting. [37] (10.1177/23259671241274707)
- [L3] The results obtained in the present study suggest that more than 90% of the patients manage to return to driving within 4 weeks and to work within 6 weeks following arthroscopic subacromial decompression and acromio-clavicular joint excision. [38] (10.1111/j.1758-5740.2010.00048.x)
- [L4] Type I and II acromioclavicular joint disruptions impair long-term shoulder function in about half of patients 10 years after injury. [40] (10.1177/0363546508319047)
- [L5] At 150 to 200 N of loading, CAL excision and acromioplasty increase the rotator cuff force required to maintain normal glenohumeral biomechanics by 25% to 30%. [41] (10.1016/j.jse.2015.10.022)
- [L3] Centre of pressure measurement detected sensorimotor functional deficits following surgical treatment of the shoulder joint in patients with confirmed successful clinical and functional outcomes. [42] (10.1007/s00167-021-06751-0)
- [L4] Late reconstruction of the ligaments in young patients with complete acromioclavicular separations can yield better results than excision of the lateral clavicle, allowing patients to return to strenuous sports or heavy labor. [43] (10.2106/00004623-197658060-00008)
- [L4] The described technique results in satisfactory objective and patient-reported outcomes and return to sports while avoiding coracoid and clavicle fractures. [44] (10.1016/j.jse.2017.11.032)
- [L5] The low level of permanent elongation after cyclic loading suggests that the anatomic reconstruction complex could withstand early rehabilitation; however, the decrease in the structural properties and stiffness of the clavicle should be considered in optimizing the anatomic reconstruction technique. [45] (10.1177/0363546504264637)
- [L4] Excellent clinical results were achieved, decreasing the risk of recurrent distal clavicle instability. [46] (10.1186/1471-2474-10-6)
- [L4] Severe chronic symptomatic AC joint separations (Rockwood types III through V) can be repaired entirely by arthroscopy safely and effectively by transferring the coracoacromial ligament with a bone block in the distal clavicle. [47] (10.1016/j.arthro.2009.08.008)
- [L1] Surgical treatment may offer early benefits in pain relief and coracoclavicular distance improvement but does not enhance long-term functional outcomes and is associated with higher specific complication rates. [49] (10.1186/s12891-024-08100-x)
- [L5] The slight increase in the in situ graft force only in the posterosuperior and posterior direction after distal clavicle excision suggests only a marginal protective role of the acromioclavicular articulation. [50] (10.1177/0363546510374447)
- [L5] A bone anchor system for distal fixation in the base of the coracoid process and a medialized hole in the clavicle restored anatomy best. [52] (10.1007/s001670050182)
- [L4] Satisfactory outcome depends upon restoring the stability of the clavicle as well as the acromioclavicular joint. [53] (10.1111/j.1758-5740.2010.00102.x)
- [L4] Weighted stress radiographs significantly increased the measured elevation of the clavicle and the coracoclavicular distance compared to non-weighted views. [54] (10.1016/j.jseint.2023.06.011)
- [L4] There was no significant difference between open or arthroscopic distal clavicle excision (DCE). [55] (10.1177/17585732231157090)
- [L4] Although radiological assessment showed a statistically significant immediate superior clavicular displacement after this rarely required procedure, with an increased incidence in the first year following stabilization, this may not negatively influence the results of ACJ stabilization in a clinically relevant way. [56] (10.1007/s00167-022-06978-5)
- [L3] Fifteen years postoperatively, good clinical results persisted and anatomic reduction was overall maintained, often with asymptomatic ossification of the coracoclavicular ligaments. [57] (10.1177/03635465251355958)
- [L4] The arthroscopic partial distal clavicle beveling procedure for nonincarcerated type IV AC separations resulted in a significant reduction in pain, improved daily function, and early return to sport. [58] (10.1016/j.arthro.2016.06.013)
- [L3] This review demonstrated an incidence of 1.35 complications per 100 person-years, with clavicle and coracoid fractures occurring in 1.9 out of 100 cases. [59] (10.1177/2325967121s00330)
- [L1] The current analysis suggests coracoclavicular ligament reconstruction as an effective surgical approach for decreasing the incidence of subacromial osteolysis. [60] (10.1016/j.jse.2024.03.018)
- [Abstract] Excellent results can be obtained with this technique, decreasing the risk of recurrent distal clavicle instability. [61] (10.1016/j.jse.2007.02.104)
- [L4] Fracture of the distal clavicle or coracoid process after CC ligament repair or reconstruction is a rare but serious complication that can occur independent of bone tunnels created during the index procedure. [62] (10.1177/03635465211036713)
References
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