FRINK Linked Data Fragments server

Matches in SemOpenAlex for { <https://semopenalex.org/work/W2079105154> ?p ?o ?g. }

• W2079105154 endingPage "1651" @default.
• W2079105154 startingPage "1645" @default.
• W2079105154 abstract "Purpose Tissue edema contributes to resistance to motion of flexor tendons during postsurgical exercises. We assessed edema formation and resistance of injured subcutaneous tissue and sheath to motion of the digital flexor tendon in a chicken model. Methods Ninety-four toes of 47 white Leghorn chickens were divided into 6 surgical groups and 1 nonsurgical control. Subcutaneous tissue and the sheath were incised, and the skin incision and the subcutaneous tissue were closed surgically. The toes were evaluated morphologically for severity of edema and tested for the force and work required to move the tendon. The evaluation time points were 1, 2, 3, 4, 5, and 7 days after surgery. Edema in the toes was scored according to severity and extent. The force and energy required to move the tendon were measured at the first and sixth cycles after cyclic loading in a testing machine with customized software and were statistically analyzed. Results The force and work increased progressively for the first 4 days, and were relatively consistent from days 4 to 7. The severity of edema peaked at the third and fourth days. At each postsurgical day, edema scores corresponded to increases in the force and work. The force and work were reduced drastically (30%–50%) after the first 6 cycles of toe motion. Conclusions Resistance to tendon motion increased for the initial 4 days after surgery and remained comparatively consistent from the fourth to the seventh days. The severity of digital edema peaks at the third and fourth postoperative days. Motion of the digits for several cycles greatly reduces the resistance to the subsequent movement. We believe that tendon mobilization should not necessarily be started within the initial postoperative days, the optimum time to begin probably is the period from the fourth to the seventh day after surgery, and that judgment of edema helps to determine how aggressive exercise should be. Tissue edema contributes to resistance to motion of flexor tendons during postsurgical exercises. We assessed edema formation and resistance of injured subcutaneous tissue and sheath to motion of the digital flexor tendon in a chicken model. Ninety-four toes of 47 white Leghorn chickens were divided into 6 surgical groups and 1 nonsurgical control. Subcutaneous tissue and the sheath were incised, and the skin incision and the subcutaneous tissue were closed surgically. The toes were evaluated morphologically for severity of edema and tested for the force and work required to move the tendon. The evaluation time points were 1, 2, 3, 4, 5, and 7 days after surgery. Edema in the toes was scored according to severity and extent. The force and energy required to move the tendon were measured at the first and sixth cycles after cyclic loading in a testing machine with customized software and were statistically analyzed. The force and work increased progressively for the first 4 days, and were relatively consistent from days 4 to 7. The severity of edema peaked at the third and fourth days. At each postsurgical day, edema scores corresponded to increases in the force and work. The force and work were reduced drastically (30%–50%) after the first 6 cycles of toe motion. Resistance to tendon motion increased for the initial 4 days after surgery and remained comparatively consistent from the fourth to the seventh days. The severity of digital edema peaks at the third and fourth postoperative days. Motion of the digits for several cycles greatly reduces the resistance to the subsequent movement. We believe that tendon mobilization should not necessarily be started within the initial postoperative days, the optimum time to begin probably is the period from the fourth to the seventh day after surgery, and that judgment of edema helps to determine how aggressive exercise should be." @default.
• W2079105154 created "2016-06-24" @default.
• W2079105154 creator A5042726750 @default.
• W2079105154 creator A5048803866 @default.
• W2079105154 date "2006-12-01" @default.
• W2079105154 modified "2023-09-26" @default.
• W2079105154 title "Resistance to Motion of Flexor Tendons and Digital Edema: An In Vivo Study in a Chicken Model" @default.
• W2079105154 cites W1964108622 @default.
• W2079105154 cites W1964362104 @default.
• W2079105154 cites W1966925669 @default.
• W2079105154 cites W1969552805 @default.
• W2079105154 cites W1970512798 @default.
• W2079105154 cites W1971959577 @default.
• W2079105154 cites W1985146790 @default.
• W2079105154 cites W1987372502 @default.
• W2079105154 cites W1989365822 @default.
• W2079105154 cites W1999334083 @default.
• W2079105154 cites W1999735810 @default.
• W2079105154 cites W2002110008 @default.
• W2079105154 cites W2019839960 @default.
• W2079105154 cites W2020397865 @default.
• W2079105154 cites W2027283708 @default.
• W2079105154 cites W2032503842 @default.
• W2079105154 cites W2052419887 @default.
• W2079105154 cites W2064072903 @default.
• W2079105154 cites W2068199021 @default.
• W2079105154 cites W2073800699 @default.
• W2079105154 cites W2084737914 @default.
• W2079105154 cites W2087565634 @default.
• W2079105154 cites W2091197223 @default.
• W2079105154 cites W2139784287 @default.
• W2079105154 cites W2203333719 @default.
• W2079105154 doi "https://doi.org/10.1016/j.jhsa.2006.08.001" @default.
• W2079105154 hasPubMedId "https://pubmed.ncbi.nlm.nih.gov/17145386" @default.
• W2079105154 hasPublicationYear "2006" @default.
• W2079105154 type Work @default.
• W2079105154 sameAs 2079105154 @default.
• W2079105154 citedByCount "29" @default.
• W2079105154 countsByYear W20791051542012 @default.
• W2079105154 countsByYear W20791051542013 @default.
• W2079105154 countsByYear W20791051542014 @default.
• W2079105154 countsByYear W20791051542015 @default.
• W2079105154 countsByYear W20791051542016 @default.
• W2079105154 countsByYear W20791051542017 @default.
• W2079105154 countsByYear W20791051542018 @default.
• W2079105154 countsByYear W20791051542022 @default.
• W2079105154 crossrefType "journal-article" @default.
• W2079105154 hasAuthorship W2079105154A5042726750 @default.
• W2079105154 hasAuthorship W2079105154A5048803866 @default.
• W2079105154 hasConcept C105702510 @default.
• W2079105154 hasConcept C141071460 @default.
• W2079105154 hasConcept C2777300098 @default.
• W2079105154 hasConcept C2780105995 @default.
• W2079105154 hasConcept C2780886150 @default.
• W2079105154 hasConcept C71924100 @default.
• W2079105154 hasConceptScore W2079105154C105702510 @default.
• W2079105154 hasConceptScore W2079105154C141071460 @default.
• W2079105154 hasConceptScore W2079105154C2777300098 @default.
• W2079105154 hasConceptScore W2079105154C2780105995 @default.
• W2079105154 hasConceptScore W2079105154C2780886150 @default.
• W2079105154 hasConceptScore W2079105154C71924100 @default.
• W2079105154 hasIssue "10" @default.
• W2079105154 hasLocation W20791051541 @default.
• W2079105154 hasLocation W20791051542 @default.
• W2079105154 hasOpenAccess W2079105154 @default.
• W2079105154 hasPrimaryLocation W20791051541 @default.
• W2079105154 hasRelatedWork W1586374228 @default.
• W2079105154 hasRelatedWork W2003938723 @default.
• W2079105154 hasRelatedWork W2047967234 @default.
• W2079105154 hasRelatedWork W2089201504 @default.
• W2079105154 hasRelatedWork W2118496982 @default.
• W2079105154 hasRelatedWork W2364998975 @default.
• W2079105154 hasRelatedWork W2369162477 @default.
• W2079105154 hasRelatedWork W2439875401 @default.
• W2079105154 hasRelatedWork W4238867864 @default.
• W2079105154 hasRelatedWork W2525756941 @default.
• W2079105154 hasVolume "31" @default.
• W2079105154 isParatext "false" @default.
• W2079105154 isRetracted "false" @default.
• W2079105154 magId "2079105154" @default.
• W2079105154 workType "article" @default.