One of the disadvantages of lateral decubitus position during arthroscopic rotator cuff repair is the difficulty to control arm rotation intraoperatively making it necessary to create additional portals for anchor placement or an additional scrubbed assistant to control arm rotation. We describe the use of commercially available TRIMANO® support arm from Arthrex as an easy device for secure positioning during arthroscopic rotator cuff repair in lateral decubitus position. Though initially marketed to be used for shoulder arthroplasties performed in beach chair position, the senior author has used TRIMANO® to perform arthroscopic rotator cuff repair in lateral decubitus position. The device is easily connected to the operating table side rail while the affected side forearm of the patient is placed in a disposable sterile foam arm holder and attached to the TRIMANO® arm. The “Click and Move” system of the TRIMANO® allows freedom to move the arm in any direction and also provides traction to distract the joint if needed.Introduction
Methods & Technique
Accurate implant size estimation for internal fixation of long bone fractures can reduce intra-operative errors, operative time and radiation exposure. With the advent of pre-packed sterile implants, the exponential increase in the number of internal fixation devices and the lack of standard templates for them on PACS systems, templating has become increasingly difficult. This often results in the opening up of wrong implants leading to increased costs both in terms of increased operative time and additional implants. We describe a technique to determine implant size preoperatively using sterile implant boxes. Post anaesthesia and positioning, the pre packed implant box of approximate size is placed over the limb across the fracture site. An X-ray is then taken using the C-arm. In case of a plate, the number of holes desired on either side of the fracture, the shape of the implant and planned placement of screws are seen. Different implant boxes with the contained implant are placed and once the most appropriate implant for the particular fracture is reached, the box is opened and implant is kept ready for insertion. This technique has been found to be accurate, easy, reproducible and effective for estimating the implant size thereby decreasing the chances of opening wrong implants and saving the intra operative time substantially.
It is not uncommon to encounter patients with atypical hip or lower extremity pain, ill-defined clinico-radiological features and concomitant hip and lumbar spine arthritis. It has been hypothesized that an anaesthetic hip arthrogram can help identify the source of pain in these cases. The purpose of this study is to analyze our experience with this technique in order to verify its accuracy. We undertook a retrospective analysis of 204 patients who underwent a hip anesthetic-steroid arthrogram for diagnostic purposes matching our inclusion criteria. Patient charts were scrutinized carefully for outcomes of arthrogram and treatment. Harris Hip Score was used to quantify outcome.Introduction
Methods
