OBJECTIVE: To assess the diagnostic validity of an isokinetic testing to detect partial injuries on the anterior cruciate ligament (ACL). DESIGN: Prospective diagnostic study. SETTINGS: Orthopedic clinic, physiotherapy clinic, orthopedic hospital, and diagnostic/image clinic. PARTICIPANTS: Consecutive patients (n = 29) with unilateral knee complaint submitted to physical examination, magnetic resonance images (MRIs), and isokinetic testing prior to surgery of ACL reconstruction. INTERVENTIONS: Not applicable. MAIN OUTCOME MEASURES: The isokinetic torque curves data from extensor and flexor muscles were converted to frequency domain by fast Fourier transformation and compared with healthy contralateral limb. Differences were categorized as unstable knees and these conclusions were compared with patient's physical examinations (doctor's conclusion on ACL integrity) and MRIs (as the radiologist conclusions on ACL integrity). After surgery, all intraoperatively confirmed partial injured patient's data were collected. The diagnostic accuracy measures to compare the conclusions of all 3 professionals included sensitivity, specificity, positive predictive value, negative predictive value, disease prevalence, positive likelihood ratio, and accuracy-all using a confidence interval of 95%. RESULTS: Compared with MRI, the sensitivity of isokinetic test for an ACL partial injury was 90.00%, specificity 83.33%, positive predictive value 52.94%, negative predictive value 97.56%, and accuracy 84.48%. Compared with physical examination, the sensitivity of isokinetic test for an ACL partial injury was 85.71%, specificity 78.43%, positive predictive value 35.29%, negative predictive value 97.56%, and accuracy 79.31%. CONCLUSIONS: This method of isokinetic data analysis through fast Fourier transformation can be used to improve diagnostic accuracy of a difficult detection injury. Even present, a partial ACL injury can produce a stable knee during isokinetic testing and could be used to detect candidates for conservative treatment based on strengthening exercises, reducing surgery risks, and financial and social impact on patient's life.
OBJECTIVE: To assess the diagnostic validity of an isokinetic testing to detect partial injuries on the anterior cruciate ligament (ACL). DESIGN: Prospective diagnostic study. SETTINGS: Orthopedic clinic, physiotherapy clinic, orthopedic hospital, and diagnostic/image clinic. PARTICIPANTS: Consecutive patients (n = 29) with unilateral knee complaint submitted to physical examination, magnetic resonance images (MRIs), and isokinetic testing prior to surgery of ACL reconstruction. INTERVENTIONS: Not applicable. MAIN OUTCOME MEASURES: The isokinetic torque curves data from extensor and flexor muscles were converted to frequency domain by fast Fourier transformation and compared with healthy contralateral limb. Differences were categorized as unstable knees and these conclusions were compared with patient's physical examinations (doctor's conclusion on ACL integrity) and MRIs (as the radiologist conclusions on ACL integrity). After surgery, all intraoperatively confirmed partial injured patient's data were collected. The diagnostic accuracy measures to compare the conclusions of all 3 professionals included sensitivity, specificity, positive predictive value, negative predictive value, disease prevalence, positive likelihood ratio, and accuracy-all using a confidence interval of 95%. RESULTS: Compared with MRI, the sensitivity of isokinetic test for an ACL partial injury was 90.00%, specificity 83.33%, positive predictive value 52.94%, negative predictive value 97.56%, and accuracy 84.48%. Compared with physical examination, the sensitivity of isokinetic test for an ACL partial injury was 85.71%, specificity 78.43%, positive predictive value 35.29%, negative predictive value 97.56%, and accuracy 79.31%. CONCLUSIONS: This method of isokinetic data analysis through fast Fourier transformation can be used to improve diagnostic accuracy of a difficult detection injury. Even present, a partial ACL injury can produce a stable knee during isokinetic testing and could be used to detect candidates for conservative treatment based on strengthening exercises, reducing surgery risks, and financial and social impact on patient's life.
Authors: Robson Dias Scoz; Bruno Mazziotti Oliveira Alves; Ricardo Lima Burigo; Edgar Ramos Vieira; Luciano Maia Alves Ferreira; Rubens Alexandre da Silva; Rogerio Pessoto Hirata; Cesar Ferreira Amorim Journal: BMJ Open Sport Exerc Med Date: 2021-03-05
Authors: Zeng Li; Mengyuan Li; Yan Du; Mo Zhang; Hai Jiang; Ruiying Zhang; Yuanchen Ma; Qiujian Zheng Journal: BMC Sports Sci Med Rehabil Date: 2022-04-13
Authors: Bruno Mazziotti Oliveira Alves; Robson Dias Scoz; Ricardo Lima Burigo; Isabella Christina Ferreira; Ana Paula Silveira Ramos; Jose Joao Baltazar Mendes; Luciano Maia Alves Ferreira; Cesar Ferreira Amorim Journal: J Funct Morphol Kinesiol Date: 2022-02-25