【Abstract】 Objective To explore the effect of recurrent anterior shoulder dislocation on the secondary intra-articular injuries through analyzing the correlation between the number of dislocation, disease duration, and the secondary intra-articular injuries. Methods The clinical data were analyzed retrospectively from 59 patients with recurrent anterior shoulder dislocation who underwent arthroscopic Bankart reconstruction using suture anchor between January 2005 and June 2009. There were 48 males and 11 females, and the average age was 27.6 years (range, 15-42 years). The causes of first dislocation included contact sports (21 cases), non-contact sports (13 cases), daily activities (11 cases), and trauma (14 cases). The average number of preoperative dislocations was 10.6 times (range, 3-32 times). The time between first dislocation and surgery was 11 months to 12 years (median, 5.9 years). The results of apprehension test and relocation test were positive in all patients. The University of California Los Angeles (UCLA) score was 22.3 ± 2.4, and Constant-Murley score was 73.1 ± 5.8 preoperatively. According to the arthroscopic findings, the effect of recurrent anterior shoulder dislocation on the secondary intra-articular injuries was analyzed. Results All incisions healed by first intention, and no early complication occurred. All 59 patients were followed up 37.3 months on average (range, 16-58 months). At last follow-up, UCLA score was 34.6 ± 1.7 and Constant-Murley score was 86.7 ± 6.1, showing significant differences when compared with preoperative scores (P lt; 0.05). The number of preoperative dislocations was positively correlated with the severity of secondary articular cartilage injury (rs=0.345, P=0.007) and the severity of Hill-Sachs injury (rs=0.708, P=0.000). The time between first dislocation and surgery had a positive correlation with the severity of secondary articular cartilage injury (rs=0.498, P=0.000), but it had no correlation with the severity of Hill-Sachs injury (rs=0.021, P=0.874). Conclusion For patients with recurrent anterior shoulder dislocation, early Bankart reconstruction is benefit to functional recovery of shoulder and can avoid or delay the occurrence or development of secondary intra-articular injuries.
Objective To evaluate the role of glenoid osseous structure on anterior stabil ity of shoulder so as to provide the biomechanical basis for cl inical treatment. Methods Ten fresh shoulder joint-bone specimens were collected from10 adult males cadavers donated voluntarily, including 4 left sides and 6 right sides. The displacements of the specimens were measured at 0° and 90° abduction of shoulder joint by giving 50 N posterior-anterior load under the conditions as follows: intact shoulder joint, glenoid l ip defect, 10% of osseous defect, 20% of osseous defect, and repairing osseous defect. Results For intact shoulder joint, glenoid l i p defect, 10% of osseous defect, 20% of osseous defect, and repairing osseous defect, the displacements were (10.73 ± 2.93), (11.43 ± 3.98), (13.58 ± 4.86), (18.53 ± 3.07), and (12.77 ± 3.13) mm, respectively at 0° abduction of shoulder joint; the displacements were (8.41 ± 2.10), (8.55 ± 2.28), (9.06 ± 2.67), (12.49 ± 2.32), and (8.55 ± 2.15) mm, respectively at 90° abduction of shoulder joint. There was no significant difference between intact shoulder joint and others (P gt; 0.05) except between intact shoulder joint and 20% of osseous defect (P lt; 0.05). Conclusion When shoulder glenoid l ip defects or the glenoid osseous defect is less than 20%, the shoulder stabil ity does not decrease obviously, indicating articular l igament complex is not damaged or is repaired. When glenoid osseous defect is more than 20% , the shoulder stabil ity decreases obviously even if articular l igament complex is not damaged or is repaired. Simultaneous repair of glenoid osseous defect andarticular l igament complex can recover the anterior stabil ity of the shoulder.
Objective To review present situation and progress in cl inically treating floating shoulder injury. Methods Recent l iterature concerned treatment of floating shoulder injury was reviewed and analyzed in terms of anatomy, pathogenesis, diagnosis, and treatment. Results Conservative treatment and operative treatment can get good outcome. But the value of the results was l imited, because different evaluation criteria were used in the l iterature. Conclusion There is no uniform standards about the treatment of the floating shoulder injury. Both conservative treatment and operative treatment have advantages and disadvantages, which method will be used to treat the floating shoulder injury based on local damage and the patient’s general condition.
Objective To simulate anterosuperior instabil ity of the shoulder by a combination of massive irreparable rotator cuff tears and coracoacromial arch disruption in cadaveric specimens, use proximally based conjoined tendon transfer forcoracoacromial l igament (CAL) reconstruction to restrain against superior humeral subluxation, and investigate its feasibility and biomechanics property. Methods Nine donated male-adult and fresh-frozen cadaveric glenohumeral joints were applied to mimic a massive irreparable rotator cuff tear in each shoulder. The integrity of the rotator cuff tendons and morphology of the CAL were visually inspected in the course of specimen preparation. Cal ipers were used to measure the length of the CAL’s length of the medial and the lateral bands, the width of coracoid process and the acromion attachment, and the thickness in the middle, as well as the length, width and thickness of the conjoined tendon and the lateral half of the removed conjoined tendon. The glenohumeral joints were positioned in a combination of 30° extension, 0° abduction and 30° external rotation. The value of anterosuperior humeral head translation was measured after the appl ication of a 50 N axial compressive load to the humeral shaft under 4 sequential scenarios: intact CAL, subperiosteal CAL release, CAL anatomic reattachment, entire CAL excision after lateral half of the proximally based conjoined tendon transfer for CAL reconstruction. Results All specimens had an intact rotator cuff on gross inspection. CAL morphology revealed 1 Y-shaped, 4 quadrangular, and 4 broad l igaments. The length of the medial and lateral bands of the CAL was (28.91 ± 5.56) mm and (31.90 ± 4.21) mm, respectively; the width of coracoid process and acromion attachment of the CAL was (26.80 ± 10.24) mm and (15.86 ± 2.28) mm, respectively; and the thickness of middle part of the CAL was (1.61 ± 0.36) mm. The length, width, and thickness of the proximal part of the proximally based conjoined tendon was (84.91 ± 9.42), (19.74 ± 1.77), and (2.09 ± 0.45) mm, respectively. The length and width of the removed lateral half of the proximally conjoined tendon was (42.67 ± 3.10) mm and (9.89 ± 0.93) mm, respectively. The anterosuperior humeral head translation was intact CAL (8.13 ± 1.99) mm, subperiosteal CAL release (9.68 ± 1.97) mm, CAL anatomic reattachment (8.57 ± 1.97) mm, and the lateral half of the proximally conjoined tendon transfer for CAL reconstruction (8.59 ± 2.06) mm. A significant increase in anterosuperior migration was found after subperiosteal CAL release was compared with intact CAL (P lt; 0.05). The translation after CAL anatomic reattachment and lateral half of the proximally conjoined tendon transfer for CAL reconstruction increased over intact CAL, though no significance was found (P gt; 0.05); when they were compared with subperiosteal CAL release, the migration decreased significantly (P lt; 0.05). The translation of lateral half of the proximally conjoined tendon transfer for CAL reconstruction increased over CAL anatomic reattachment, but no significance was evident (P gt; 0.05). Conclusion The CAL should be preserved or reconstructed as far as possible during subacromial decompression, rotator cuff tears repair, and hemiarthroplasty for patients with massive rotator cuff deficiency. If preservation or the insertion reattachment after subperiosteal release from acromion of the CAL of the CAL is impossible, or CAL is entirely resected becauseof previous operation, the use of the lateral half of the proximally based conjoined tendon transfer for CAL reconstruction isfeasible.
ObjectiveTo evaluate three commonly used internal fixations for general floating shoulder injury by biomechanical testing, in order to provide biomechanics basis for surgical choices. MethodsThe superior shoulder suspensory complex (SSSC) was anatomized from 7 cases of antisepsis cadaveric specimens including collarbone and scapula. In the man-made damage models, 4 statuses including prefixation, pure acromioclavicular joint fixation, acromioclavicular joint fixation with scapula neck single plate fixation, and acromioclavicular joint fixation with scapula neck double plate fixation were tested to measure the range of motion (ROM) and neutral zone (NZ) of scapula neck under different statuses by spinal motion analysis system, and stabilizing function of different fixations for instable SSSC were compared. ResultsThe biomechanical testing showed that the NZs of acromioclavicular joint fixation with scapula neck double plate fixation were respectively flexion-extension (3.88±1.71)°, lateral-bending (1.89±0.21)°, and axial-torque (3.13±1.37)°, and the ROMs were respectively flexion-extension (12.91±4.82)°, lateral-bending (18.44±4.43)°, and axial-torque (11.27±4.41)°, which decreased more evidently than other fixation groups (P<0.05). ConclusionAcromioclavicular joint fixation with scapula neck double plate fixation is the best treatment for floating shoulder injury, which can restore the stability of the shoulder effectively.
We developed a three-dimensional finite element model of the shoulder glenohumeral joint after shoulder arthroplasty including humerus shaft, scapular, scapular cartilage and eight muscles, while each of the muscles was simulated with 50 spring elements. To reduce the element number and improve the analytical precision, we used mixed tetrahedral and hexahedral elements in the model. We then used the model to calculate the biomechanics of the shoulder glenohumeral joint after hemiarthroplasty during humeral external rotation. Results showed that the maximum joint reaction force was 374.72 N and the maximum contact stress was 6.573 MPa together with the contact areas at 40° external rotation. These might be one of the reasons for prosthetic disarticulation, and would provide theoretical bases to prosthetic design.
ObjectiveTo investigate the cl inical characteristics of Eyres type V coracoid fracture combined with superior shoulder suspensory complex (SSSC) injuries, and the effectiveness of open reduction and fixation. MethodsBetween March 2004 and July 2012, 13 patients with Eyres type V coracoid fracture and SSSC injuries were treated. There were 10 males and 3 females with an average age of 41 years (range, 23-59 years). Injury was caused by fall ing from height in 4 cases, by traffic accident in 6 cases, and by impact of the heavy weight in 3 cases. The interval from injury to operation was 3-10 days (mean, 5.2 days). SSSC injuries included 9 cases of acromioclavicular joint dislocation, 5 cases of clavicular fractures, and 4 cases of acromion fractures. The coracoid fractures were fixed with cannulated screws; the acromioclavicular joint dislocations were fixed with hook plate (6 cases) or Kirschner wires (2 case) except 1 untreated case; the clavicular fractures were fixed with anatomical locking plate (3 cases) and hook plate (2 cases); the acromion fractures were fixed with cannulated screws (1 case), Kirschner wires (2 cases), or both of them (1 case). ResultsThe mean operation time was 158.0 minutes (range, 100-270 minutes), and the mean intraoperative blood loss was 207.7 mL (range, 150-300 mL). The other patients obtained primary healing of incision except 1 patient who had inflammation around incision, which was cured after change dressing. All patients were followed up for 22.6 months on average (range, 17-35 months). All fractures achieved union at a mean time of 3.6 months (range, 2-6 months). No nerve injury and implant fixation failure complications were observed. At last follow-up, the Constant score and the disabil ity of the arm, shoulder, and hand (DASH) score had a significant improvement when compared with scores at pre-operation (P<0.05). The shoulder range of motion in flexion, abduction, and external rotation at last follow-up were significantly higher than those at pre-operation (P<0.05). ConclusionEyres type V coracoid fracture associated with SSSC injuries usually results in the instabil ity of the shoulder. With individual surgical treatment, the satisfactory function and good effectiveness can be obtained.
ObjectiveTo investigate the surgical treatment and effectiveness of senile chronic shoulder dislocation. MethodsBetween October 2011 and April 2014, 7 elderly patients with chronic shoulder dislocation were treated. There were 2 males and 5 females with an average age of 74 years (range, 61-83 years). The causes of injuries were falling injury in 6 patients and traffic accident injury in 1 patient. The interval between injury and confirmed diagnosis was 4-12 weeks (mean, 6.7 weeks). Preoperative apprehension test and Dugas sign of the shoulder joint were positive. Before operation, the forward elevation, abduction, and external rotation were (50.7±8.4), (44.5±3.3), and (35.8±4.8)°, respectively; and internal rotation reached T6, T11, L4 in 1 case and reached T10, T12 in 2 cases separately. The Constant-Murley score and Neer score were 51.2±8.3 and 45.4±7.3, respectively. ResultsAll the incisions healed by first intention, and no complication of fracture or neurovascular injuries occurred. Seven patients were followed up 12-18 months (mean, 16 months), and no re-dislocation happened. At last follow-up, apprehension test and Dugas sign of the shoulder joint were negative. The forward elevation, abduction, and external rotation were significantly improved to (117.5±13.1), (72.0±4.6), and (39.0±3.4)° (t=-33.746, P=0.000; t=-30.614, P=0.000; t=-2.802, P=0.031); and internal rotation reached T6, T10, T12, and L3 in 1 case respectively, and T11 in 3 cases, showing no significant difference when compared with preoperative values (Ζ=-1.732, P=0.083). The Constant-Murley score and Neer score were significantly improved to 85.4±4.3 and 84.0±4.8 when compared with preoperative score (t=-21.016, P=0.000; t=-29.518, P=0.000). ConclusionSurgical treatment of senile chronic shoulder dislocation can improve the range of motion and function of the shoulder joint obviously.
ObjectiveTo investigate the development and clinical application of the reverse total shoulder arthroplasty. MethodsThe relative publications on reverse total shoulder arthroplasties were extensively reviewed and analyzed. ResultsReverse total shoulder arthroplasty has extensive indications, especially for pseudoparalysis caused by irrepairable rotator cuff tears with forward or upper shift of the humeral head and intact function of deltoid. The clinical research results indicate that the short-term results are satisfactory, but there are some special complications, such as scapular nothching, instability and limities of internal and external rotation. While performing this kind of operation, the selection of the approach, the determination of the prosthetic rotation center should be considered well, and the bone graft should be paid attention to when the bony defect of the glenoid and proximal humerus exists. ConclusionThe using time of the reverse total shoulder arthroplasty is short, so the long-term results should be observed. The development of computer assisted technique is hopeful to be improve the results of the reverse total shoulder arthroplasty.
Objective To assess the effectiveness of arthroscopic capsular release to treat primary severe frozen shoulder through trans cuff portal. Methods Between June 2012 and January 2015, 28 patients with primary severe frozen shoulder were enrolled in the study. There were 8 males and 20 females with an average age of 57 years (range, 42-81 years). The left shoulder was involved in 16 cases and the right one in 12 cases. The mean disease duration was 11 months (range, 7-21 months). Six patients had diabetes. All patients underwent arthroscopic capsular release by trans cuff portal. The range of motion (ROM) of the shoulder were measured at preoperation and at 6 weeks and 24 months after operation; the scores of American Shoulder and Elbow Surgeons (ASES) and visual analogue scale (VAS) were used to evaluate the shoulder function and pain. Results Primary healing of incision was obtained, and no complications of infection, shoulder instability, and nerve injury were found. All patients were followed up 24 months. Pain of the shoulder was obviously relieved; VAS score was significantly lower at 6 weeks and 24 months after operation than preoperation (P<0.05), and at 24 months than 6 weeks (P<0.05). ROM of the shoulder and ASES score at 6 weeks and 24 months after operation were significantly increased when compared with preoperative ones (P<0.05); significant difference was found in ROM of forward flexion and external rotation and the ASES score between at 6 weeks and 24 months (P<0.05). And internal rotation in-creased from trochanter (9 cases), hip (6 cases), sacrum (7 cases), and L4 vertebral level (6 cases) before operation to the T12-T6 vertebral level at 6 weeks and 24 months after operation, which were close to normal side. Conclusion Arthroscopic capsular release through trans cuff portal is an effective and safe management for primary severe frozen shoulder.