25 research outputs found

    Biceps Femoris Compensates for Semitendinosus After Anterior Cruciate Ligament Reconstruction With a Hamstring Autograft: A Muscle Functional Magnetic Resonance Imaging Study in Male Soccer Players

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    Background: Rates of reinjury, return to play (RTP) at the preinjury level, and hamstring strain injuries in male soccer players after anterior cruciate ligament reconstruction (ACLR) remain unsatisfactory, due to multifactorial causes. Recent insights on intramuscular hamstring coordination revealed the semitendinosus (ST) to be of crucial importance for hamstring functioning, especially during heavy eccentric hamstring loading. Scientific evidence on the consequences of ST tendon harvest for ACLR is scarce and inconsistent. This study intended to investigate the repercussions of ST harvest for ACLR on hamstring muscle function. Hypothesis: Harvest of the ST tendon for ACLR was expected to have a significant influence on hamstring muscle activation patterns during eccentric exercises, evaluated at RTP in a population of male soccer athletes. Study Design: Controlled laboratory study. Methods: A total of 30 male soccer players with a history of ACLR who were cleared for RTP and 30 healthy controls were allocated to this study during the 2018-2019 soccer season. The influence of ACLR on hamstring muscle activation patterns was assessed by comparing the change in T2 relaxation times [ΔT2 (%) = [Formula: see text]] of the hamstring muscle tissue before and after an eccentric hamstring loading task between athletes with and without a recent history of ACLR through use of muscle functional magnetic resonance imaging, induced by an eccentric hamstring loading task between scans. Results: Significantly higher exercise-related activity was observed in the biceps femoris (BF) of athletes after ACLR compared with uninjured control athletes (13.92% vs 8.48%; P = .003), whereas the ST had significantly lower activity (19.97% vs 25.32%; P = .049). Significant differences were also established in a within-group comparison of the operated versus the contralateral leg in the ACLR group (operated vs nonoperated leg: 14.54% vs 11.63% for BF [ P = .000], 17.31% vs 22.37% for ST [ P = .000], and 15.64% vs 13.54% for semimembranosus [SM] [ P = .014]). Neither the muscle activity of SM and gracilis muscles nor total posterior thigh muscle activity (sum of exercise-related ΔT2 of the BF, ST, and SM muscles) presented any differences in individuals who had undergone ACLR with an ST tendon autograft compared with healthy controls. Conclusion: These findings indicate that ACLR with a ST tendon autograft might notably influence the function of the hamstring muscles and, in particular, their hierarchic dimensions under fatiguing loading circumstances, with increases in relative BF activity contribution and decreases in relative ST activity after ACLR. This between-group difference in hamstring muscle activation pattern suggests that the BF partly compensates for deficient ST function in eccentric loading. These alterations might have implications for athletic performance and injury risk and should probably be considered in rehabilitation and hamstring injury prevention after ACLR with a ST tendon autograft. </jats:sec

    Robot-assistance in total knee arthroplasty : what a surgeon needs to know

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    Custom TKA : what to expect and where do we stand today?

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    Introduction The concept of custom total knee arthroplasty (TKA) is explored with specifc attention to current limitations. Arguments in favor of custom TKA are the anatomic and functional variability we encounter in our patients. The biggest conceptual challenge is to marry the need for correction of deformity with the ambition to stay as close as possible to original anatomy. Materials and methods A Pubmed search was performed on the following terms: ‘patient specifc implant’, ‘custom made implant’, ‘custom implant’, ‘total knee arthroplasty’ and ‘total knee replacement’. These studies were evaluated for the following intra- and post-operative variables: blood loss, hospital stay, range of motion, patient-reported outcome measures, limb and implant alignment, implant ft, tibiofemoral kinematics, complications and revision rates. Results Out of 1117 studies found with the initial search, a total of 17 articles were included in the fnal analysis. In eight out of the 17 (47%) studies, either the research was commercially funded or one of the authors had a confict of interest related to the work. 11 out of 17 studies included a control group in their study setup. Of those studies that included a control group, both superior and inferior results compared to of-the-shelf implants have been reported. Conclusion Custom knee implants are the next step in matching the geometric features of the prosthesis to the anatomy of the individual patient, after several iterations that added asymmetry and sizes in the existing implants. Several companies have proven that it is feasible to produce these implants in a safe way. An overview of current literature reveals the lack of strong methodological studies that prove the value of this new technology. Custom knee implants face conceptual and practical difculties, some of which might be overcome with technological advances, such as robotics and artifcial intelligence

    Can robot-assisted total knee arthroplasty be a cost-effective procedure? A Markov decision analysis

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    Background Total knee arthroplasty (TKA) is a frequently and increasingly performed surgery in the treatment of disabling knee osteoarthritis. The rising number of procedures and related revisions pose an increasing economic burden on health care systems. In an attempt to lower the revision rate due to component malalignment and soft tissue imbalance in TKA, robotic assistance (RA) has been introduced in the operating theatre. The primary objective of this study is to provide the results of a theoretical, preliminary cost-effectiveness analysis of RA TKA. Methods A Markov state-transition model was designed to model the health status of sixty-seven-year-old patients in need of TKA due to primary osteoarthritis over a twenty-year period following their knee joint replacement. Transitional probabilities and independent variables were extracted from existing literature. Results The value attributed to the utility both for primary and revision surgery has the biggest impact on the ICER, followed by the rate of successful primary surgery and the cost of RA-technology. Only 2.18% of the samples yielded from the probabilistic sensitivity analysis proved to be cost-effective (threshold set at $50000/QALY). A calculated surgical volume of at least 253 cases per robot per year is needed to prove cost-effective taking the predetermined parameter values into account. Conclusion Based upon transitional probabilities and independent variables derived from existing studies, RA TKA may be cost-effective at a surgical volume of 253 cases per robot per year when compared to conventional TKA

    Equal bony resection of distal and posterior femur will lead to flexion/extension gap inequality in robot-assisted cruciate-retaining TKA

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    PURPOSE Joint imbalance has become one of the main reasons for early revision after total knee arthroplasty (TKA) and it is directly related to the surgical technique. Therefore, a better understanding of how much bone has to be removed in order to obtain a balanced flexion/extension gap could improve current practice. The primary objective of this study was to analyse the amount of bone that needed to be removed from the distal and posterior femoral joint surfaces in order to obtain an equal flexion/extension gap in robot-assisted TKA. The second objective of this study was to evaluate whether the size of the knee joint influenced the amount of bony resection needed to achieve an equal flexion/extension gap in robot-assisted TKA. METHODS A retrospective analysis was performed on all patients receiving a robot-assisted TKA (Cruciate Retaining (n=268)) by six surgeons from April 2018 to September 2019. The robot was used consecutively when available in all patients receiving Cruciate Retaining TKA. Gap assessment, bony resections, femoral implant size and hip-knee-ankle angle were evaluated with the robot. Femoral implant size was categorized into small (Size 1-2), medium (Size 3-5) and large (Size 6-8). RESULTS The difference between the posterior and distal resection needed to obtain equal flexion and extension gap was on average 2.0 mm (SD 1.6) and 1.5 mm (SD 2.2) for the medial and lateral compartment respectively. The discrepancy was smaller in the large implant group compared to the small implant group (p<.05 medial and lateral) and medium implant group (p<.05 medial). Varus knees required a larger differential resection compared to neutral and valgus knees on the lateral compartment and the contrary on the medial compartment (medial compartment: p < .05 (varus-neutral), p = .051 (varus-valgus); lateral compartment: p < .05 (varus-neutral and varus-valgus)). CONCLUSION Removing an equal amount of bone from the distal and posterior femur will lead to flexion/extension gap imbalance in TKA. It was required to remove 1.5-2 mm more bone from the posterior femur compared to the distal femur to equalize flexion and extension gap. This effect was size dependent: in larger knees, the discrepancy between the distal and posterior resections was smaller

    Which fracture types are associated with widening of the scapholunate distance? A CT-scan study of acute intraarticular distal radius fractures

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    Background: Scapholunate injuries in distal radius fractures may frequently be overlooked. The aims of this study were to measure the scapholunate distance in intraarticular distal radius fractures and to find out which fracture types were associated with an increased scapholunate width. Methods: Measurements of the scapholunate distance were performed on computed tomography scans of 143 intraarticular distal radius fractures in 140 patients. The fractures were classified according to the AO classification. The morphology of AO type B fractures was further analysed according to the Bain classification. Results: In 43 AO type B fractures mean scapholunate distance measured 2.1 mm and in 100 type C fractures 1.6 mm. The difference between partial and complete intraarticular fractures was significant. A trend towards a greater scapholunate distance was found in AO type B1 and radial styloid oblique fractures. Conclusions: In this study, partial intraarticular distal radius fractures, especially with a sagittal split, had a greater scapholunate distance and may be at risk for ligamentous injury

    Knee joint laxity is restored in a bi-cruciate retaining TKA-design

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    Purpose The goal is to evaluate the passive stability of a bicruciate retaining, cruciate retaining and bicruciate substituting TKA design in relation to the native knee stability in terms of the laxity envelope. A bicruciate retaining knee prosthesis was hypothesized to offer a closer to normal knee stability in vitro. Methods Fourteen cadaveric knee specimens have been tested under passive conditions with and without external loads, involving a varus/valgus and an external/internal rotational torque, distraction/compression force and an anteroposterior shear force. Subsequently, the native knee, bicruciate retaining, cruciate retaining and finally a bicruciate substituting total knee arthroplasty were tested. Results Through the range of motion, the width of the varus/valgus and internal/external laxity envelope for the native knee and the bicruciate retaining knee were almost equivalent, whereas the cruciate retaining and the bicruciate substituting knee displayed less laxity and more joint distraction. In all prosthetic knees, an equal anteroposterior laxity was seen for the lateral and medial side whereas in the native knee, a difference in laxity was seen between the stable medial side and the more mobile lateral side. Conclusion Bicruciate retaining knee prostheses can restore normal laxity and thus have the potential to offer more normal knee function. Restoration of natural peri-articular soft-tissue tension is clinically important because of its obvious effects on joint stability and range of motion. Furthermore, the results of this study could help to establish the ideal ligament tension and laxity in more conventional implants by approaching the normal values for passive knee evaluation as presented here
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