Search
Search results
94 results found
Lorem ipsum dolor sit amet, consectetur adipiscing elit, sed do eiusmod tempor incididunt ut labore et dolore magna aliqua.
Doe, Jane, John Smith, Stephanie Black, and Mark White. 2020. “Lorem Ipsum Dolor Sit Amet, Consectetur Adipiscing Elit, Sed Do Eiusmod Tempor Incididunt Ut Labore et Dolore Magna Aliqua.”. Ut Sem Viverra Aliquet Eget Sit Amet Tellus. 32 (7): 1789-1804.
Interoceptive posture awareness and accuracy: a novel photographic strategy towards making posture actionable.
Weiniger, Steven P, and Nathan D Schilaty. 2024. “Interoceptive Posture Awareness and Accuracy: A Novel Photographic Strategy towards Making Posture Actionable.”. Frontiers in Neuroscience 18: 1359594.
Acute effects of an isometric neck warm-up programme on neck performance characteristics and ultrasound-based morphology.
Nagai, Takashi, Nathan D Schilaty, Hanwen Wong, Valerie C Keller, Sean T Stiennon, Ryan W B Chang, Michael J Stuart, and David A Krause. 2023. “Acute Effects of an Isometric Neck Warm-up Programme on Neck Performance Characteristics and Ultrasound-Based Morphology.”. Annals of Medicine 55 (2): 2295402.
Commentary on "The deterministic condition for the ground reaction force acting point on the combined knee valgus and tibial internal rotation moments in the early phase of cutting maneuvers in female athletes".
Schilaty, Nathan D, and Nathaniel A Bates. 2023. “Commentary on ‘The Deterministic Condition for the Ground Reaction Force Acting Point on the Combined Knee Valgus and Tibial Internal Rotation Moments in the Early Phase of Cutting Maneuvers in Female Athletes’.”. Journal of Sport and Health Science.
Differences in psychological readiness for return to sport after anterior cruciate ligament injury is evident in thigh musculature motor unit characteristics.
Schilaty, Nathan D, April L McPherson, Takashi Nagai, and Nathaniel A Bates. 2023. “Differences in Psychological Readiness for Return to Sport After Anterior Cruciate Ligament Injury Is Evident in Thigh Musculature Motor Unit Characteristics.”. BMJ Open Sport & Exercise Medicine 9 (3): e001609.
Recurrence quantification analysis of isokinetic strength tests: A comparison of the anterior cruciate ligament reconstructed and the uninjured limb.
Chaney, Grace K, David A Krause, John H Hollman, Vanessa A Anderson, Sarah E Heider, Sean Thomez, Shaelyn N Vaughn, and Nathan D Schilaty. 2023. “Recurrence Quantification Analysis of Isokinetic Strength Tests: A Comparison of the Anterior Cruciate Ligament Reconstructed and the Uninjured Limb.”. Clinical Biomechanics (Bristol, Avon) 104: 105929.
Arthrogenic muscle inhibition after anterior cruciate ligament injury: Injured and uninjured limb recovery over time.
McPherson, April L, Nathan D Schilaty, Sarah Anderson, Takashi Nagai, and Nathaniel A Bates. 2023. “Arthrogenic Muscle Inhibition After Anterior Cruciate Ligament Injury: Injured and Uninjured Limb Recovery over Time.”. Frontiers in Sports and Active Living 5: 1143376.
Altered neuromuscular control in the vastus medialis following anterior cruciate ligament injury: A recurrence quantification analysis of electromyogram recruitment.
Hollman, John H, Natalie G Buenger, Sarah G DeSautel, Vikki C Chen, Lauren R Koehler, and Nathan D Schilaty. 2022. “Altered Neuromuscular Control in the Vastus Medialis Following Anterior Cruciate Ligament Injury: A Recurrence Quantification Analysis of Electromyogram Recruitment.”. Clinical Biomechanics (Bristol, Avon) 100: 105798.
Biomechanical muscle stiffness measures of extensor digitorum explain potential mechanism of McArdle sign.
Schilaty, Nathan D, Filippo Savoldi, Zahra Nasr, Adriana M Delgado, Lawrence J Berglund, and Brian G Weinshenker. 2021. “Biomechanical Muscle Stiffness Measures of Extensor Digitorum Explain Potential Mechanism of McArdle Sign.”. Clinical Biomechanics (Bristol, Avon) 82: 105277.