Lunate or perilunate dislocations are common carpal injuries. Current treatment of these injuries by repair or reconstruction of intra-carpal ligaments is largely based on Mayfield's description of sequential failure of these ligaments. We do treat significant number of these injuries. We have observed that dorsal wrist capsule is attached to dorsal aspect of proximal carpal row and its interosseous ligaments by vertically oriented identifiable fibres. This can be seen as carpal bones suspended from dorsal capsule, akin to cloths suspended from a washing line. We have also observed that in lunate or perilunate dislocations, dorsal capsule is peeled off from the dorsal aspect of lunate and distal radius, similar to a Bankart lesion in the shoulder. We believe that dorsal capsule plays a bigger role in the stabilising mechanism of carpal bone than the intercarpal ligaments. It has not been described before. We dissected three cadaveric wrists and found vertical fibres running from dorsal wrist capsule/ligaments to the dorsal components of the scapholunate and lunotriquetralinterosseous ligaments. We have modified the Mayo approach to dorsal wrist capsule and use suture anchors to attach dorsal capsule/ligaments to scaphoid, lunate and triquetrum rather than repairing intra-carpal ligament. We have used this technique in 26 patients so far. Follow up for more than 4 years have shown satisfactory results and no significant recurrence of instability. We present a novel, so far unreported, method of repairing the intracarpal injuries, using the dorsal capsule/ligaments, based on anatomic and intra-operative observations

Complex carpal injuries can be difficult to assess and manage. They usually occur following high energy injuries to the wrist. Imaging in the form of traction views and a CT scan can help understand the detail of the fracture dislocation pattern. Perilunate dislocations and perilunate fracture dislocations are commonly managed with a dorsal approach to provide an anatomic reduction. A volar approach can be used is median nerve entrapment and allows a surgical repair of the volar aspect of the lunotriquetral ligament. Perilunate dislocations are often classified into greater and lesser arc injuries. The greater arc injuries include fractures which go through the radial styloid, scaphoid, capitate or triquetrum. Lesser arc injuries are through the scapholunate ligament and lunotriquetral ligament. It is common for there to be a combination of greater and lesser arc injuries. We have also identified a complex injury which is a lunate intra-arc injury. This is a fracture through the lunate. With this translunate perilunate dislocation it is important to stabilise the lunate prior to stabilising the remainder of the carpus. The authors have reviewed a series of complex injuries and developed a classification system based on the above findings. In complex cases where reconstruction is difficult then salvage procedures can be performed. SLAC wrist procedure, proximal row carpectomy and full wrist fusion can be performed particularly in highly comminuted cases or cases with a delayed presentation

Aims: To assess the usefulness of wrist arthroscopy in the assessment of symptomatic scaphoid non-unions and associated injuries and to evaluate the implications on the definitive treatment. Methods: A prospective cohort study of patients undergoing wrist arthroscopy with established scaphoid non-union was performed between January 2006 and April 2009. This study included 17 men and 6 women with a mean age of 39 years. Results: Majority of the study population (61%) had normal radiocarpal articular cartilage. Articular cartilage wear was mostly limited to the radial styloid and could be effectively debrided. Injuries to the TFCC (39%) followed by the LT joint (35%) and the SL joint (26%) were the most common arthroscopic findings. Other identified pathologies included: Loose bodies, protruding Herbert screw from previous fixation, Chondrocalcinosis, Distal Radio-ulnar joint (DRUJ) instability, Capitohamate (CH) instability and Ulnar styloid fracture non-union. Assessment of the state of the fracture union was best done from the mid carpal joint rather than the radiocarpal joint due to a more prominent fibrocartilage covering of the fracture site from the radiocarpal side Concomitant procedures performed during the wrist arthroscopy included debridement of synovitis (48%) and TFCC repair (4%). Post wrist arthroscopy 6 patients (26%) required a further course of conservative treatment (Physiotherapy +/− local anaesthetic and steroid injection) prior to discharge. In the remaining patients, based upon clinical and arthroscopic findings, a range of other therapeutic and salvage procedures were performed. Conclusion: This study demonstrates an important role for the wrist arthroscopy in patients with symptomatic scaphoid non-union and in assessing the true extent of the articular cartilage wear and associated carpal injuries. Further it helped in most cases with the decision making in choosing the appropriate definitive surgical option when required

Athletes are more prone to injury because of their prolonged training, dedication and body contact, and the injuries they sustain, with some unusual exceptions, are the same as those occurring in the general population but there is more pressure to return the athlete to their chosen sport with some times, little concern for the future. Australia, and South Australia in particular, enjoys a wonderful climate that allows year round outdoor activities with a consequent potential increase in the risk of injury. The history and clinical examination remain the mainstay of diagnosis and coupled with the knowledge of the type and extent of injury, sport involved and level of competition, appropriate investigation can be arranged leading to a conclusive diagnosis and a positive therapeutic approach. Injuries to the wrist and hand vary from overuse type tenosynovitis through to major carpal injuries with possible neurological and vascular compromise. and as well as helping the athlete return to sport as effectively and quickly as possible, it is also important to consider the implications for the patient in the future, once he or she has retired from competitive involvement. This aspect is further accentuated by monetary gain which may influence the athlete, coaches, etc. As well as discussing management of selected injuries to the wrist and hand, several more unusual “sporting injuries” will be addressed

Aims

The sensitivity and specificity of electrodiagnostic parameters in diagnosing carpal tunnel syndrome (CTS) have been reported differently, and this study aims to address this gap.

Introduction: Wrist injuries are common presentations at Accidents and Emergencies. Distal radius fractures are by far the most common. Scaphoid injuries constitute about 60% of carpal injuries. 35% occult wrist fractures are undiagnosed on 2nd visit radiography (50% distal radius/ulna). Moreover 30% patients with significant soft tissue injuries not diagnosed. Aim: To compare the MRI (magnetic resonance imaging) and bone scans in the diagnosis of X-Ray negative wrist injuries. To functionally score these wrist at the end of 1-year to assess the outcome. Materials and methods: A prospective study was done in 33 wrists that did not have a fracture wrist detectable on plain X-ray. The MRI and bone scan were done on the same day within 5-7 days after the injury. PD Fat Saturation Axial and Coronal images were undertaken with MRI. Clinical scoring was done after 1 year after the injury to assess the outcome of these injuries. Results: We detected fractures in 10 wrists on bone scans and 8 fractures on MRI scans. There was a correlation between MRI and bone scan in 5 Cases. We noted 9% (3/33) of false positive cases with bone scan. Bone scans correlated with the site of injury in 10% of cases. 1 fracture was missed in both MRI and bone scan. MRI identified 4 significant soft tissue injuries and capsular edema in 29/33 cases, which were not identified on bone scans. MRI findings showed superior correlation than bone scans with clinical findings on re-examination, which was done following the scans. PRWE (patient rated wrist evaluation) was used to score the outcome of the wrists at the end of 1 year. The patients who had soft tissue or bony damage detected on MRI had significantly higher scores at 1 year of follow-up. Conclusion: Though bone scan has high sensitivity in diagnosis of fracture, significant soft tissue injuries will be missed. On the other hand, MRI had a high sensitivity and specificity in diagnosis of a fracture and soft tissue injuries. MRI can differentiate between a bone edema and a fracture. MRI has a disadvantage of limited exposure. Clinicians must be aware of the limitations of both investigations. Though majority of these injuries do not active intervention apart from plaster or splinting, detection of these injuries is essential to prognosticate the outcome

Objectives

Little is known about tissue changes underlying bone marrow lesions (BMLs) in non-weight-bearing joints with osteoarthritis (OA). Our aim was to characterize BMLs in OA of the hand using dynamic histomorphometry. We therefore quantified bone turnover and angiogenesis in subchondral bone at the base of the thumb, and compared the findings with control bone from hip OA.