Background In recent years, new arthroscopic techniques have been introduced to address the irreparable tears of the triangular fibrocartilage complex (TFCC) (Palmer type 1B, Atzei class 4) by replicating the standard Adams–Berger procedure. These techniques, however, show the same limitations of the open procedure in relation to the anatomically defective location of the radial origins of the radioulnar ligaments (RUL) and the risk of neurovascular and/or tendon injury. Aiming to improve the quality of reconstruction and reduce surgical morbidity, a novel arthroscopic technique was developed, with the advantages of reproducing the anatomical origins of the RUL ligaments and providing all-inside tendon graft (TG) deployment and fixation. Description of Technique The Allinside anatomic arthroscopic (3A) technique is indicated for TG reconstruction of irreparable TFCC tears in the absence of distal radioulnar joint (DRUJ) arthritis. Standard wrist arthroscopy portals are used. A small incision in the radial metaphyseal area and arthroscopic control are required to set a Wrist Drill Guide and create two converging tunnels, whose openings are at the radial anatomical origins of the RUL. An ulnar tunnel is drilled at the fovea from inside-out via the 6U portal. A 3-mm tendon strip, from the palmaris longus or extensor carpi radialis brevis, is woven through the tunnels and then secured into the ulnar tunnel with an interference screw. Postoperative immobilization with restricted forearm rotation is discontinued at 5 weeks, and then postoperative rehabilitation is started. Patients and Methods The 3A technique was applied on 5 patients (2 females and 3 males), with an average age 42 years. DRUJ stability, range of motion (ROM), pain (0–10 visual analogue scale [VAS]), grip strength, modified Mayo wrist score (MMWS), and patient satisfaction were used for evaluation before surgery and at follow-up. Results No intraoperative or early complications were registered. At a mean follow-up of 26 months, DRUJ was stable in all patients, which recovered 99% ROM. Pain VAS decreased from 7 to 0.6. Grip strength increased from 38 to 48.8 Kgs. There were 4 excellent results and 1 good result on MMWS. All patient showed high satisfaction. Conclusions Although the 3A technique requires dedicated instrumentation and arthroscopic expertise, it takes advantage of improved intra-articular vision and minimized surgical trauma to reduce the risk of complications and obtain promising functional results.
One of the options for performing a partial wrist arthrodesis is the arthroscopic technique. As a first advantage arthroscopy allows us to directly assess the state of the articular surface of the carpal bones and define the best surgical option during the salvage operation. Furthermore, it allows performance of the procedure with minimal ligament damage and minimal interference with the blood supply of the carpals. These will (presumably) entail less capsular scarring and more rapid healing. Lastly, there is cosmetic benefit by reducing the amount of external scarring. The procedure has a steep learning curve even for accomplished arthroscopists but can be performed in a competitive manner to the open procedure if the dry technique is used. The aim of this paper is to present the technical details, tricks and tips to make the procedure accessible to all hand specialists with an arthroscopic interest. As it is paramount that the surgeon is acquainted with the "dry" technique, some technical details about it will also be presented.
Trapezium fractures are unusual; however, they represent the third most frequent fracture of the carpal bones. As they usually follow a high-energy trauma, they are associated with distal radius, Bennett, or Rolando fractures in 80% of cases. Traditional treatment options include, closed reduction and percutaneous pinning, or open reduction and internal fixation. To minimize the additional surgical trauma, an arthroscopic technique has been developed for safe, minimally invasive management of complex injuries of the first carpo-metacarpal joint. Intra-articular dislocated fracture fragments are reduced under direct visualization and fixed through small incisions. Limiting additional surgical damage on the carpo-metacarpal joint ligaments, capsule, and other soft tissues around the fracture preserves the blood supply to fracture fragments and also the proprioceptive system, which is key for the dynamic stability of such a hypermobile joint. This report confirms that the procedure is feasible, and a complete functional recovery can be expected with reduced postoperative rehabilitation.
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