FRINK Linked Data Fragments server

Matches in SemOpenAlex for { <https://semopenalex.org/work/W2474415987> ?p ?o ?g. }

• W2474415987 endingPage "232596711665515" @default.
• W2474415987 startingPage "232596711665515" @default.
• W2474415987 abstract "Background: Double-leg forward or drop-jump landing activities are typically used to screen for high-risk movement strategies and to determine the success of neuromuscular injury prevention programs. However, research suggests that these tasks that occur primarily in the sagittal plane may not adequately represent the lower extremity biomechanics that occur during unilateral foot contact or non–sagittal plane movements that are characteristic of many multidirectional sports. Purpose: To examine the extent to which lower extremity biomechanics measured during a jump landing on a double leg (DL) after a sagittal plane (SAG) movement is representative of biomechanics measured during single-leg (SL) or frontal plane (FRONT) jump landing tasks. Study Design: Controlled laboratory study. Methods: Lower extremity biomechanics were measured in 15 recreationally active females (mean age [±SD], 19.4 ± 2.1 years; mean height, 163.3 ± 5.9 cm; mean weight, 61.1 ± 7.1 kg) while performing SAG DL , SAG SL , FRONT DL , and FRONT SL jump landing tasks. Repeated-measures analyses of variance examined differences in lower extremity biomechanics between the 4 tasks, and linear regressions examined the extent to which an individual’s biomechanics during SAG DL were representative of their biomechanics during SAG SL , FRONT DL , and FRONT SL . Results: Lower extremity kinematics and kinetics differed by condition, with the SAG DL task generally eliciting greater hip and knee flexion angles and lower hip and knee forces than the other tasks ( P < .05). Although biomechanics during the SAG DL task were strongly associated with those during the FRONT DL task ( R 2 , 0.41-0.82), weaker associations were observed between SAG DL and single-leg tasks for hip kinematics ( R 2 , 0.03-0.25) and kinetics ( R 2 , 0.05-0.20) and knee abduction moments ( R 2 , 0.06-0.18) ( P < .05). Conclusion: Standard double-leg sagittal plane jump landing tasks used to screen for ACL injury risk and the effectiveness of ACL injury prevention programs may not adequately represent the lower extremity biomechanics that occur during single-leg activities. Clinical Relevance: These results support further investigation of single-leg multidirectional landings to identify high-risk movement strategies in female athletes playing multidirectional sports." @default.
• W2474415987 created "2016-07-22" @default.
• W2474415987 creator A5013375265 @default.
• W2474415987 creator A5037806797 @default.
• W2474415987 creator A5048137824 @default.
• W2474415987 creator A5090468558 @default.
• W2474415987 date "2016-06-01" @default.
• W2474415987 modified "2023-10-16" @default.
• W2474415987 title "Biomechanical Comparison of Single- and Double-Leg Jump Landings in the Sagittal and Frontal Plane" @default.
• W2474415987 cites W1534887799 @default.
• W2474415987 cites W1553446344 @default.
• W2474415987 cites W181468102 @default.
• W2474415987 cites W1836216503 @default.
• W2474415987 cites W1966342034 @default.
• W2474415987 cites W1975679084 @default.
• W2474415987 cites W1995264378 @default.
• W2474415987 cites W1997629798 @default.
• W2474415987 cites W2000430009 @default.
• W2474415987 cites W2009718418 @default.
• W2474415987 cites W2013083050 @default.
• W2474415987 cites W2016913132 @default.
• W2474415987 cites W2023939656 @default.
• W2474415987 cites W2024591168 @default.
• W2474415987 cites W2034075702 @default.
• W2474415987 cites W2062565241 @default.
• W2474415987 cites W2063110859 @default.
• W2474415987 cites W2072916153 @default.
• W2474415987 cites W2082634225 @default.
• W2474415987 cites W2084203213 @default.
• W2474415987 cites W2086656914 @default.
• W2474415987 cites W2095175256 @default.
• W2474415987 cites W2101530041 @default.
• W2474415987 cites W2104863608 @default.
• W2474415987 cites W2105154637 @default.
• W2474415987 cites W2108598605 @default.
• W2474415987 cites W2109349228 @default.
• W2474415987 cites W2111454286 @default.
• W2474415987 cites W2113025384 @default.
• W2474415987 cites W2116004321 @default.
• W2474415987 cites W2119345663 @default.
• W2474415987 cites W2124647884 @default.
• W2474415987 cites W2127617757 @default.
• W2474415987 cites W2134090469 @default.
• W2474415987 cites W2134110849 @default.
• W2474415987 cites W2136353528 @default.
• W2474415987 cites W2139301287 @default.
• W2474415987 cites W2143060406 @default.
• W2474415987 cites W2144473619 @default.
• W2474415987 cites W2152301397 @default.
• W2474415987 cites W2152513460 @default.
• W2474415987 cites W2154062345 @default.
• W2474415987 cites W2320670839 @default.
• W2474415987 doi "https://doi.org/10.1177/2325967116655158" @default.
• W2474415987 hasPubMedCentralId "https://www.ncbi.nlm.nih.gov/pmc/articles/4954550" @default.
• W2474415987 hasPubMedId "https://pubmed.ncbi.nlm.nih.gov/27482527" @default.
• W2474415987 hasPublicationYear "2016" @default.
• W2474415987 type Work @default.
• W2474415987 sameAs 2474415987 @default.
• W2474415987 citedByCount "59" @default.
• W2474415987 countsByYear W24744159872017 @default.
• W2474415987 countsByYear W24744159872018 @default.
• W2474415987 countsByYear W24744159872019 @default.
• W2474415987 countsByYear W24744159872020 @default.
• W2474415987 countsByYear W24744159872021 @default.
• W2474415987 countsByYear W24744159872022 @default.
• W2474415987 countsByYear W24744159872023 @default.
• W2474415987 crossrefType "journal-article" @default.
• W2474415987 hasAuthorship W2474415987A5013375265 @default.
• W2474415987 hasAuthorship W2474415987A5037806797 @default.
• W2474415987 hasAuthorship W2474415987A5048137824 @default.
• W2474415987 hasAuthorship W2474415987A5090468558 @default.
• W2474415987 hasBestOaLocation W24744159871 @default.
• W2474415987 hasConcept C105702510 @default.
• W2474415987 hasConcept C121332964 @default.
• W2474415987 hasConcept C13483470 @default.
• W2474415987 hasConcept C170700871 @default.
• W2474415987 hasConcept C178910020 @default.
• W2474415987 hasConcept C2780695682 @default.
• W2474415987 hasConcept C29694066 @default.
• W2474415987 hasConcept C39920418 @default.
• W2474415987 hasConcept C62520636 @default.
• W2474415987 hasConcept C71924100 @default.
• W2474415987 hasConcept C74650414 @default.
• W2474415987 hasConcept C7625042 @default.
• W2474415987 hasConcept C99508421 @default.
• W2474415987 hasConceptScore W2474415987C105702510 @default.
• W2474415987 hasConceptScore W2474415987C121332964 @default.
• W2474415987 hasConceptScore W2474415987C13483470 @default.
• W2474415987 hasConceptScore W2474415987C170700871 @default.
• W2474415987 hasConceptScore W2474415987C178910020 @default.
• W2474415987 hasConceptScore W2474415987C2780695682 @default.
• W2474415987 hasConceptScore W2474415987C29694066 @default.
• W2474415987 hasConceptScore W2474415987C39920418 @default.
• W2474415987 hasConceptScore W2474415987C62520636 @default.
• W2474415987 hasConceptScore W2474415987C71924100 @default.
• W2474415987 hasConceptScore W2474415987C74650414 @default.
• W2474415987 hasConceptScore W2474415987C7625042 @default.
• W2474415987 hasConceptScore W2474415987C99508421 @default.

• next