LEANDRO EJNISMAN

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Lattes
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Instituto de Ortopedia e Traumatologia, Hospital das Clínicas, Faculdade de Medicina - Médico
LIM/41 - Laboratório de Investigação Médica do Sistema Músculoesquelético, Hospital das Clínicas, Faculdade de Medicina

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Revista / Livro: American Journal of Sports Medicine ×

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  • article 3 Citação(ões) na Scopus
    Effectiveness of Nonoperative Management of Hip Microinstability
    (2022) EJNISMAN, Leandro; ELISMAN, Katerina; SAFRAN, Marc R.
    Background: Hip microinstability has recently gained acceptance as a cause of hip pain. In this condition, the femoral head demonstrates increased motion relative to the acetabulum, which may lead to chondrolabral damage. Even though patients are initially prescribed a trial of nonoperative treatment, the success rates of rehabilitation are unknown. Purpose: To determine the success rate of nonoperative treatment of hip microinstability. Study Design: Case series; Methods: After institutional review board approval was obtained, a retrospective chart review was performed on patients at a university sports medicine practice between January 2013 and July 2016. All patients older than 18 years presenting with hip microinstability who were initially recommended for treatment with physical therapy were enrolled in this study. Formal physical therapy sessions focused on strengthening the hip and core muscles. These sessions took place twice a week for a minimum of 6 weeks in conjunction with a home exercise program. The number of patients who eventually underwent surgical treatment and the clinical scores for the cohort (modified Harris Hip Score [mHHS] and 33-item International Hip Outcome Tool) were recorded. Results: A total of 64 patients (63 female, 1 male), with a mean +/- SD age of 32.2 +/- 10.5 years, were identified and studied. Onset of symptoms was insidious (n = 45; 70.3%), acute atraumatic (n = 12; 18.8%), and traumatic (n = 7; 10.9%). A total of 9 (14.1%) patients were high-level athletes. After a follow-up of 45.7 +/- 14.6 months, 14 (29.8%) patients eventually underwent hip arthroscopy for persistent hip pain. Capsular plication was performed in all surgical cases. High-level athletes were not more likely to need surgery (50% vs 26.8%; P = .34). The mHHS was available in 24 patients who were treated nonoperatively, and it improved from 67.4 to 85.0 (P < .01). Conclusion: More than two-thirds of patients treated for hip microinstability were able to avoid surgery; they were successfully treated nonoperatively with physical therapy and a home exercise program and demonstrated improved clinical outcome scores.
  • article 39 Citação(ões) na Scopus
    The Role of Anterior Capsular Laxity in Hip Microinstability A Novel Biomechanical Model
    (2019) JOHANNSEN, Adam M.; BEHN, Anthony W.; SHIBATA, Kotaro; EJNISMAN, Leandro; THIO, Timothy; SAFRAN, Marc R.
    Background: Hip microinstability is an increasingly recognized source of hip pain and disability. Although the clinical entity has been well described, the pathomechanics of this disease remain poorly understood. Purpose/Hypothesis: The purpose of this study was to determine the role of capsular laxity in atraumatic hip microinstability. Our hypothesis was that cyclic stretching of the anterior hip capsule would result in increased hip range of motion and femoral head displacement. Study Design: Controlled laboratory study. Methods: In this study, 7 hip specimens met inclusion criteria (age, 18-46 years). Specimens were stripped of all soft tissue, aligned, cut, and potted by use of a custom jig. A materials testing system was used to cyclically stretch the anterior hip capsule in extension and external rotation while rotating about the mechanical axis of the hip. A motion tracking system was used to record hip rotation and displacement of the femoral head relative to the acetabulum in the anterior-posterior, medial-lateral, and superior-inferior directions. Testing was conducted at baseline, after venting, and after capsular stretching. Results: With the hip in anatomic neutral alignment, cyclic stretching of the anterior hip capsule resulted in increased hip rotation (P < .01). Femoral head displacement significantly increased relative to the vented state in the medial-lateral (P\. 001), anterior-posterior (P=.013), and superior-inferior (P=.036) planes after cyclic stretching of the anterior hip capsule. Conclusion: The anterior hip capsule plays an important role in controlling hip rotation and femoral head displacement. This study is the first to display significant increases in femoral head displacement through a controlled cyclic stretching protocol of the anterior hip capsule. Clinical Relevance: This study is directly applicable to the treatment of atraumatic hip microinstability. The results quantitatively define the relative importance of the hip capsule in controlling femoral head motion. This allows for a better understanding of the pathophysiological process of hip microinstability and serves as a platform to develop effective surgical techniques for treatment of this disease.