Browsing by Author "Guiloff, Rodrigo"
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Item Comparison of Muscular Power Between Dominant and Nondominant Legs in Healthy Young Adults Associated With Single-Leg-Dominant Sports(2017) Vaisman, Alex; Guiloff, Rodrigo; Rojas, Juan; Delgado, Iris; Figueroa, David; Calvo, RafaelBackground: Achieving a symmetrical power performance (difference <15%) between lower limbs is generally recommended during sports rehabilitation. However, athletes in single-leg-dominant sports, such as professional soccer players, could develop significant asymmetry between their dominant and nondominant legs, such that symmetry does not act as a viable comparison. Purpose: To (1) compare maximal muscular power between the dominant and nondominant legs in healthy young adults, (2) evaluate the effect of a single-leg-dominant sport activity performed at the professional level, and (3) propose a parameter of normality for maximal power difference in the lower limbs of this young adult population. Study Design: Controlled laboratory study. Methods: A total of 78 healthy, male, young adults were divided into 2 groups according to sport activity level. Group 1 consisted of 51 nonathletes (mean ± SD age, 20.8 ± 1.5 ears; weight, 71.9 ± 10.5 kg) who participated in less than 8 hours a week of recreational physical activity with nonspecific training; group 2 consisted of 27 single-leg-dominant professional soccer players (age, 18.4 ± 0.6 years; weight, 70.1 ± 7.5 kg) who specifically trained and competed at their particular activity 8 hours or more a week. For assessment of maximal leg power, both groups completed the single-leg squat jump test. Dominance was determined when participants completed 2 of 3 specific tests with the same extremity. Statistical analysis included the Student t test. Results: No statistical difference was found for maximal power between dominant and nondominant legs for nonathletes (t ¼ –1.01, P ¼ .316) or single-leg-dominant professional soccer players (t ¼ –1.10, P ¼ .281). A majority (95%) of participants studied showed a power difference of less than 15% between their lower extremities. Conclusion: Among young healthy adults, symmetrical power performance is expected between lower extremities independent of the existence of dominance and difference in sport activity level. A less than 15% difference in power seems to be a proper parameter to define symmetrical power performance assessed by vertical single-leg jump tests.Publication Knee Iliotibial Band Z-Plasty Lengthening and Bursectomy Technique(2022) Vaisman, Alex; Guiloff, Rodrigo; Andreani, DomingoMultiple surgical techniques have been described to treat refractory iliotibial band syndrome. However, there is lacking evidence demonstrating superiority of one technique over the other and limited audiovisual resources. Most surgical procedures aim to release the iliotibial band; nevertheless, few focus on reducing concomitant inflammation. The present article illustrates a Z-plasty lengthening technique associated with local bursectomy for treating iliotibial band syndrome refractory to conservative treatment.Item Ligament Lesions: Biologics(2022) Figueroa, David; Guiloff, Rodrigo; Figueroa, FranciscoIn terms of the latest clinical evidence, the use of PRP for ligament injuries remains controversial. There is insufficient evidence to recommend the use of PRP in ACL-R for improving graft maturation and donor site morbidity or improving functional outcomes. The use of PRP injections for the treatment of partial ACL injuries, MCL injuries, and ankle sprains cannot be recommended. Finally, there is no reported clinical evidence of the use of PRP in other knee ligament injuries such as posterior cruciate ligament, lateral collateral ligament, and posterolateral cornerItem Navigation in anterior cruciate ligament reconstruction: State of the art(2023) Figueroa, Francisco; Figueroa, David; Guiloff, Rodrigo; Putnis, Sven; Fritsch, Brett; Itriago, MinervaComputer navigation (CN) for anterior cruciate ligament (ACL) surgery has been used mainly for two purposes: to enhance the accuracy of tunnel position and to evaluate the kinematics of the ACL reconstruction (ACLR) and the stability achieved bydifferent surgical techniques.Many studies have shownthatnavigationmay improve the accuracy of anatomical tunnel orientation and position during ACL reconstructive surgery compared with normal arthroscopic tunnel placement, especially regarding the femoral side. At the same time, it has become the gold-standardmethod for intraoperative knee kinematic assessment, as it permits a quantitative multidirectional knee joint laxity evaluation. CN in ACL surgery has been associated with diverse problems. First, in most optic systems additional skin incisions and drill holes in the femoral bone are required for fixation of a reference frame to the femur. Second, additional radiation exposure and extra medical cost to the patient for preoperative planning are usually needed. Third, CN, due to additional steps, has more opportunities for error during preoperative planning, intraoperative registration, and operation. Fourth, soft tissues, including the skin and subcutaneous tissues, are usually not considered during the preoperative planning, which can be a problem for kinematic and stability assessment. Many studies have concluded that ACLR using a CN system is more expensive than conventional surgery, it adds extra time to the surgery and it is not mitigated by better clinical outcomes. This, combined with costs and invasiveness, has limited the use of CN to research-related cases. Future technology should prioritize less invasive intra-operative surgical navigationItem Posterolateral corner knee injuries: a narrative review(2021) Figueroa, Francisco; Figueroa, David; Putnis, Sven; Guiloff, Rodrigo; Caro, Patricio; Espregueira-Mendes, João; Clinica Alemana-Universidad del Desarrollo, Santiago, ChileLimited knowledge of the anatomy and biomechanics of the posterolateral corner (PLC) of the knee, coupled with poor patient outcomes with non-operative management, resulted in the PLC often being labelled as the ‘dark side’ of the knee. In the last two decades, extensive research has resulted in a better understanding of the anatomy and function of the PLC, and has led to the development of anatomic reconstructions that have resulted in improved patient outcomes. Despite considerable attention in the clinical orthopaedic literature (nearly 400 articles published in the last decade), a standardized algorithm for the diagnosis and treatment of the PLC is still lacking, and much controversy remains. Considering the literature review, there is not a reconstruction technique that clearly prevails over the others. As anatomic, biomechanical, and clinical knowledge of PLC injuries continues to progress, finding the balance between re-creating native anatomy and safely performing PLC reconstruction provides a big challenge. Treatment decisions should be made on a case-by-case basis.