2021
DOI: 10.21203/rs.3.rs-591719/v1
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An In-Vivo Model For Overloading-Induced Soft Tissue Injury

Abstract: This proof-of-concept study demonstrates that repetitive loading to the pain threshold can safely recreate overloading-induced soft tissue damage and that localised tissue stiffening can be used as a marker for injury. This concept was demonstrated here for the soft tissue of the sole of the foot where it was found that repeated loading to the pain threshold led to long-lasting statistically significant stiffening in the areas where pressure was most intense. Loading at lower magnitudes did not have the same e… Show more

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“…ese soft tissue injuries (STIs) can easily lead to the reduction of soft tissue coverage and the destruction of local blood supply that adversely a ect fracture healing, resulting in some patients experiencing wound infection and necrosis due to wound contamination [5]. From an ergonomic point of view, the mechanical behavior of the whole tissue will change dramatically if the soft tissue is damaged, which in turn suggests that biomechanical changes caused by STIs can be used to detect the severity of the injury [6,7]. In any event, all kinds of STIs must be considered when detecting and treating TFs [8].…”
Section: Introductionmentioning
confidence: 99%
“…ese soft tissue injuries (STIs) can easily lead to the reduction of soft tissue coverage and the destruction of local blood supply that adversely a ect fracture healing, resulting in some patients experiencing wound infection and necrosis due to wound contamination [5]. From an ergonomic point of view, the mechanical behavior of the whole tissue will change dramatically if the soft tissue is damaged, which in turn suggests that biomechanical changes caused by STIs can be used to detect the severity of the injury [6,7]. In any event, all kinds of STIs must be considered when detecting and treating TFs [8].…”
Section: Introductionmentioning
confidence: 99%