Aims

Controversy about the use of an anatomical total shoulder arthroplasty (aTSA) in young arthritic patients relates to which is the ideal form of fixation for the glenoid component: cemented or cementless. This study aimed to evaluate implant survival of aTSA when used in patients aged < 60 years with primary glenohumeral osteoarthritis (OA), and to compare the survival of cemented all-polyethylene and cementless metal-backed glenoid components.

BACKGROUND:

Bony healing of tuberosities around shoulder prostheses is difficult to obtain in the elderly patient. We hypothesized that reattachment of the tuberosities, performed in combination with bone grafting, around a specific reverse shoulder fracture-prosthesis (RSFP) would favour improved tuberosity healing and shoulder mobility in elderly patients with displaced proximal humerus fractures.

Introduction:

Lateralization of reversed shoulder arthroplasty provides improvement in range of motion and decreases inferior scapular notching. The purpose of this study was to verify if the autologous cancelous bone graft harvested from the humeral head does heal constantly in a large cohort of patients followed for a long time

For any image guided surgery, independently of the technique which is used (navigation, templates, robotics), it is necessary to get a 3D bone surface model from CT or MR images. Such model is used for planning, registration and visualization. We report that graphical representation of patient bony structure and the surgical tools, inter-connectively with the tracking device and patient-to-image registration, are crucial components in such system. For Total Shoulder Arthroplasty (TSA), there are many challenges. The most of cases that we are working with are pathological cases such as rheumatoid arthritis, osteoarthritis disease. The CT images of these cases often show a fusion area between the glenoid cavity and the humeral head. They also show severe deformations of the humeral head surface that result in a loss of contours. These fusion area and image quality problems are also amplified by well-known CT-scan artefacts like beam-hardening or partial volume effects. The state of the art shows that several segmentation techniques, applied to CT-Scans of the shoulder, have already been disclosed. Unfortunately, their performances, when used on pathological data, are quite poor.

In severe cases, bone-on-bone arthritis may lead to erosion-wearing away of the bone. Shoulder replacement surgery, also called shoulder arthroplasty, is a successful, pain-relieving option for many people. During the procedure, the humeral head and the glenoid bone are replaced with metal and plastic components to alleviate pain and improve function. This surgical procedure is very difficult and limited to expert centres. The two main problems are the minimal surgical incision and limited access to the operated structures. The success of such procedure is related to optimal prosthesis positioning. For TSA, separating the humeral head in the 3D scanner images would allow enhancing the vision field for the surgeon on the glenoid surface. So far, none of the existing systems or software packages makes it possible to obtain such 3D surface model automatically from CT images and this is probably one of the reasons for very limited success of Computer Assisted Orthopaedic Surgery (CAOS) applications for shoulder surgery. This kind of application often has been limited due to CT-image segmentation for severe pathologic cases and patient to image registration.

The aim of this paper is to present a new image guided planning software based on CT scan of the patient and using bony structure recognition, morphological and anatomical analysis for the operated region. Volumetric preoperative CT datasets have been used to derive a surface model shape of the shoulder. The proposed planning software could be used with a conventional localisation system, which locates in 3D and in real time position and orientation for surgical tools using passive markers associated to rigid bodies that will be fixed on the patient bone and on the surgical instruments.

20 series of patients aged from 42 years to 91 years (mean age of 71 years) were analysed. The first step of this planning software is fully automatic segmentation method based on 3D shape recognition algorithms applied to each object detected in the volume. The second step is a specific processing that only treats the region between the humerus and the glenoid surface in order to separate possible contact areas. The third step is a full morphological analysis of anatomical structure of the bone. The glenoid surface and the glenoid vault are detected and a 3D version and inclination angle of the glenoid surface are computed. These parameters are very important to define an optimal path for drilling and reaming glenoid surface. The surgeon can easily modify the position of the implant in 3D aided by 3D and 2D view of the patient anatomy. The glenoid version/inclination angle and the glenoid vault are computed for each postion in real time to help the surgeon to evaluate the implant position and orientation.

In summary, preoperative planning, 3D CT modelling and intraoperative tracking produced improved accuracy of glenoid implantation. The current paper has presented new planning software in the world of image guided surgery focused on shoulder arthroplasty. Within our approach, we propose, to use pattern recognition instead of manual picking of landmarks to avoid user intervention, in addition to potentially reducing the procedure time. A very important role is played by 3D data sets to visualise specific anatomical structures of the patient. The automatic segmentation of arthritic joints with bone recognition is intended to form a solid basis for the registration. The results of this methodology were tested on arthritic patients to prove that it is not just easy and fast to perform but also very accurate so it realises all conditions for the clinical use in OR.

Purpose of the study: The purpose of this retrospective work was to analyse a series of ten patients (11 osteotomies) who underwent closed rotation osteotomy of the femur performed with an endomedullary saw and stabilized with a centromedullar locked nail. We identified the proper indications, technical aspects, clinical and radiological outcome and describe the complications of this surgical technique.

Material and method: The 11 osteotomies were performed in ten patients from January 1999 to July 2007 for post-trauma rotation defects or congenital deformity. On average the rotation defect was 33.5 (range 24–52), mainly internal rotation (10 cases versus 1 with external rotation). One female patient required a bilateral procedure in a context of congenital bilateral trochlea dysplasia. For two other patients the corrective osteotomy was associated with a lengthening procedure performed during the same operative time (totally closed operation). Clinical and radiological follow-up was available to 4 years 9 months on average (range 26–104 months). The angle corrections were determined on bone tomographs.

Results: Ten of the 11 osteotomies yielded correction to ±4° physiological values (or controlateral values if the other side was healthy) for anteversion of the femoral neck. There were no infections (bone, joint, skin, soft tissue) and not late healing or non-union. There was one transient neurological complication involving the pudendal nerve during a rotation-lengthening procedure and one bilateral fracture of the femur during a bilateral osteotomy. All patients healed within 3 to 5 months. Subjective outcome was satisfactory very satisfactory for 8 of 9 patients (one lost to follow-up) in terms of functional recovery and aesthetic aspect of the scars.

Discussion: The closed procedure for rotation osteotomy of the adult femur is a reliable, effective, safe and reproducible technique for the correction of rotation defects of the femur resulting from trauma or congenital disorders. These results can be obtained only with rigorous technique requiring experience and skill with centromedullary nailing.

Purpose of the study: The purpose of this study was to determine the feasibility and reproducibility of a new arthroscopic procedure combining a Bristow-Latarjet lock with Bankart reinsertion of the lambrum.

Material and methods: Forty-seven consecutive patients with significant bone defects in the glenoid and a deficient capsule were treated arthroscopically: arthroscopic Bankart had failed in six. The procedure was performed exclusively arthroscopically using a special instrumentation: after its osteotomy and identification of the axiallary nerve, the coracoids was passed through the subcapular muscle with its tendon; the block was fixed on the scapular neck after 90° lateral rotation so as to prolong the natural concavity of the glenoid. Anchors and sutures were then used to refix the capsule and the labrum onto the glenoid border, leaving the block in an extra-articular position. Follow-up included a physical examination and standard x-rays at 45, 90 and 180 days; 31 patients had a postoperative scan. Three independent operators read the images.

Results: The procedure was completed arthroscopically in 41 of 47 patients (8%); conversion to a deltopectoral approach was required for six patients (12%). The axillary nerve was successfully identified in all shoulders. The block had a subequatorial position in 98% (46/47 shoulders) and equatorial in one. The block was tangent to the surface of the glenoid in 92% (43/47), lateral in one (2%) and too medial (> 5mm) in three (6%). One patient presented an early fracture of the block and five patients exhibited block migration; there was a partial lysis of the block in two patients. The final rate of nonunion of the block was 13% (6/47). Fractures, migrations and non-unions were related to technical errors: screws too short (unicortical) and/or poorly centred in the block.

Conclusion: Our results show that arthroscopic transfer of the coracoids to the scapular neck is a safe and successful operation. The rate of correctly positioned healed blocks was equivalent or superior to conventional techniques. The complications observed show that the arthroscopic block technique is difficult with a long learning curve.

Purpose of the study: Optimal management of proximal fractures of the humerus remains a subject of debate. We conducted a prospective epidemiological study to identify injuries encountered, determine the reproducibility of reference classifications and their pertinence for therapeutic decision making.

Material and methods: All patients presenting a proximal fracture of the humerus admitted to a teaching hospital from November 2007 to November 2008 were included using a standardised computer form. A CT-scan was obtained if necessary. Fractures were classified by three senior observers (CP, GM, AR) according to the Neer and AO classifications.

Results: Two hundred forty-seven fractures were collected in 75 men (30%) and 172 women (70%), mean age 66 years (18–97). There were 112 fractures on the dominant side (45%). Two patients had vessel injury and one an associated injury of the brachial plexus. One patient had an isolated injury to the axillary nerve. According to the Neer classification which describes 15 types of fractures, there was little or no displacement or 38% of the fractures and 97.5% of the fractures were classified within six groups: little or no displacement, surgical neck, trochiter fracture alone or with anterior dislocation, 3 or 4 fragment fractures. Using the nine subtypes of the AO classification, there were 58 A1, 55 A2, 42 A3, 43 B1, 9 B2, 5 B3, 14 C1, 18 C2 and 3 C3. Groups A and B included 88% of the fractures. Regarding the CT-scan, obtained in 40% of patients, changed the radiographic interpretation in six cases. Interobserver reproducibility was good. Orthopaedic treatment was given for 203 patients (82%). Operations were: fixation of the tuberosities (n=7), anterograde nailing (n=29), hemiarthroplasty (n=6), reversed prosthesis (n=2).

Discussion: This distribution of fractures of the proximal humerus corresponds well with data in the literature. Good quality x-rays can provide adequate classification without a CT-scan for the majority of patients. The classification systems currently used are quite exhaustive although the distribution in the subgroups is not homogeneous.

Purpose: The Sauvé-Kapandji procedure is often performed for the treatment of posttraumatic degeneration of the distal radioulnar joint. Few studies have been devoted specifically to the proximal stump of the ulnar after this procedure. The aim of our study was to conduct a radioclinical evaluation of the dynamics of the proximal ulnar stump.

Material and methods: This retrospective analysis involved fourteen patients (four women and ten men), mean age 48 years who underwent the procedure between January 1991 and March 2002. All presented posttraumatic degradation of the distal radioulnar joint. The operation took place twelve months after trauma on average. Mean ulnar resection was 11 mm, performed as distally as possible. The pronator quadratus was not advanced into the false joint. Pronation-supination rehabilitation exercises were instituted shortly after surgery. A static and dynamic x-rays protocol was designed for analysis.

Results: Patients were reviewed at five years two months on average. There were two complications: fusion of the intentional ulnar pseudarthrosis and one pseudarthrosis of the distal radioulnar joint. Time to resumption of former activity was nine months on average. Two patients could not resume their former activity. Seven patients complained of mechanical pain at the ulnar resection. Three patients reported cracking sounds along the ulnar border of the wrist and two patients presented an objective snap during pronosupination. Clinically, the ulnar stump was unstable in the sagittal plan in all cases. Radiographs confirmed this instability. Clinically, there was also an instability in the frontal plane in three patients. The dynamic films did not confirm frontal instability.

Discussion: Although less so than after the Darrach procedure, the proximal ulnar stump is the principle complication of the Savué-Kapandji procedure. Preservation of the structures stabilising the distal ulnar stump is crucial: periosteum, interosseous membrane, ulnar extensor of the carpus, pronator quadratus. Our use of a shorter resection made as distally as possible was only able to avoid a certain degree of instability which was nevertheless well tolerated.

Conclusion: The Sauvé-Kapandji procedure provides very satisfactory results for pain and motion. All patients appeared to have some degree of distal ulnar stump instability which was as a rule well tolerated. Nevertheless, one patient required a revision for stabilisation. This instability remains an unsolved problem which apparently cannot be prevented even with a very rigorous technique.