The chioce of the graft and its fixation in LCA reconstruction is basic for the outcome of the surgical procedure. Several solutions have been proposed; each of them had advantages and disavantages. The choice of the graft and the surgical technique is often due to surgeon’s opinion. The goal of the fixation is stability which allowes incorporation of the graft in the bone tunnels. Bone-patellar tendon-bone graf has the advantage of bone to bone fixation which is impossible using tendon grafts. Femoral fixation techniques for hamstrings can be classified in: compression tecniques, expansion tecniques and suspension tecniques (cortical or canellous). TTS (Top Traction System) is a new tecnique for femoral fixation using hamstrings. The fixation is achieved by a retrograde screw that allowes fixation to the antero-lateral cortex of the femur. A ring is fixed to the screw to allow tendons passing. The screw is sefl-threading, its lenght is 28 millimeters and its diameter is 6,5 millimeter; its pull-out strenght is 1350 N. The screw is built in titanium alloy and only one size. Surgical technique is simple an reproducible and the instruments are easy to use. The positioning of the screw is fully guided by instruments that minimize errors. This fixation device allowes further graft traction after tibial fixation without twisting hamstrings. Results after 5 years are good but we need long term follow-up for final opinion.
The success of total knee replacement depends on several factors, however, surgical technique is particularly important. In fact mistakes in alignment of prosthtic components are common causes of aseptic loosening. Serious improper alignment (more than 3°) was found out, according to several papers, in about 10% of the implants; this appears not correlated with surgeon’s experience when they use mechanical alignment devices either extra medullary or intra medullary. The development of computer-based systems to achieve correct prosthetic components alignement has the purpose to solve the problems of traditional mechanical alignement systems. At present computer-assisted navigation systems, either they areimage-free or imege-based, are widely empolied while robotic systems are not so commonly used. The Authors describe in this paper the features of the computer-assisted navigation system they at present employ. They moreover emphasize its precision and the reproducibility of the results they can achive. The features of this system (it is based on an image-free navigation method; it allows quantification of the kinematics of the knee; it allows the use of either specially designed cutting bolcks or standar instruments), are an intresting evolution of computer-assisted navigation systems for knee replacement.
The degenerative processes of the glenohumeral joint can be derived from primitive glenohumeral arethrosis, post traumatic arthrosis, neurogenic arthropaty and rotator-cuff arthropaty with inveterate cuff tears. These conditions have shared characteristics but the arthropaty from an inveterate tear of the rotator cuff estabilishes a characteristic connected to the distinctive lesions that culminate in the well-known radiologic imaging of ace-tabularization. Our experience of prothesization of the shoulder referring to this final result, with wich we previously tented toward using a bipolar endoprothesis, often with comforting but at time also decidedly disappointing results. Overall, our dissatifaction was attributed to the insufficient mobility regained with modest remaining muscle-tendons available, and to the anterior instability of the implant if not contained in a valid coracoacromiale arch. For this reason we are tending toward ageo-metric inverse prothesis with the supposition of intrinsic stability and a lever arm favorable to the contraction of slight muscolar recruitment. The inverse Delta prothesis provide an innovative therapeutic option for many patients with serious glenohumerale arthrosis associated with massive tear of the rotator cuff with the rising up of the humeral head. Our work intends to show which are the advantages and the limits, including surgical ones, of using the result of the prothesization of eight specially selected patients treated with the Delta prothesis. Without doubt the innovative architecture and the recent modification ofthe prothesis become clear; it becomes possible to do certain manouvers very easily which in the past were more complicated; also highlighted is the immediate symptomatic benefit that the patient obtain from the joint-substitution operation with this type of prothesis. On the other hand, it is therefore fundamental to select the patients in a very precise way who can undergo this operation, to have a notable improvement in their lifestyle. The modest but significant esperience derived from these first cases treated with the geometri inverse prothesis have introduced us to a relative simple prosthetic system, but just a bit more invasive than the endoprosthetic surgery; it is stable and well-tolerated, able to adequately satisfy the modest functional request permitted by the residual anatomic substratum. The autors, based on this limited but significant experience, intented tomention same technological problems inherent to the various od the implantation including the dif-ficulties occasionally met and resolved.
Graft fixation in anterior cruciate ligament reconstruction is a basic criterion for the outcome of the surgical procedure. Several solutions have been proposed; each of them had advantages and disadvantages, and the choice of a surgical technique often represents the surgeon’s opinion. The goal of the fixation is stability and incorporation of the graft in the bone tunnels. Bone-patellar tendon-bone graft has the advantage of bone to bone fixation, which is impossible using tendon grafts. Femoral fixation techniques for hamstrings can be classified as follows: compression techniques, expansion techniques and suspension techniques (cortical or cancellous). Top Traction System (TTS) is a new technique for femoral fixation using hamstrings. Here, a retrograde screw is fixed to the anterolateral cortex of the femur. A ring is fixed to the screw to pass the tendons.The screw is self-threading, 28 mm long and 6.5 mm in diagmeter; its pull-out strength is 1350 N. The screw is made from a titanium alloy and only available in one size. Surgical technique is simple and reproducible and the instruments are easy to use. The positioning of the screw is fully guided by instruments that minimise errors. With this fixation device further graft traction is possible after tibial fixation without twisting the hamstrings. Results are good at the short-term evalutation but a long-term follow-up is required before a final recommendation can be made.