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Effects of epimuscular myofascial force transmission on sensory level: experimental assessment by afferent signals received from frog lower leg muscles

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dc.contributor Graduate Program in Biomedical Engineering.
dc.contributor.advisor Yücesoy, Can A.
dc.contributor.author Arıkan, Önder Emre.
dc.date.accessioned 2023-03-16T13:12:12Z
dc.date.available 2023-03-16T13:12:12Z
dc.date.issued 2009.
dc.identifier.other BM 2009 A75
dc.identifier.uri http://digitalarchive.boun.edu.tr/handle/123456789/18786
dc.description.abstract It has shown that non-tendinous structures play a major role in force transmission: epimuscular myofascial force transmission. Such force transmission was shown to cause substantial stain distributions along muscle fibers indicating serial heterogeneity of sarcomere lengths. Recent studies showed evidence on sizable interantagonistic epimuscular myofascial force transmission. It is hypothesized in this study that epimuscular myofascial force transmission can play a role in afferent signals generated in muscle sensory organs. The goal of our present study was to test this hypothesis by measuring the afferent firing rates of antagonistic muscles of the lower leg. Gastronemius muscle of the frog (Rana ridibunda) was given 1-5 mm of ramp-and-hold stretch via a pulley mechanism connected to its distal tendon. Keeping the ankle and knee angles fixed (at 100 and 120 respectively), sensory unit recordings were taken from both tibial and peroneal branches of sciatic nerve simultaneously: afferent signals generated from both the lengthened gastrocnemius muscle and the restrained antagonistic muscles were recorded. Remarkably, imposing passive stretch resulted in a significant increase in the firing rates of the units of not only the lengthened muscle, but also of the restrained antagonists (p<0,05 n=12). This novel finding suggests that due to epimuscular myofascial force transmission, streching of the target muscle causes local length changes sensed by the sensory organs within the fibers of the antagonistic muscles, despite being restrained. Our results therefore provide a preliminary support to our hypothesis and are likely to have major implications on our understanding of the functioning of muscular mechanoreceptors.|Keywords: myofascial force transmission, muscle mechanoreceptors, extracellular afferent recordings.
dc.format.extent 30cm.
dc.publisher Thesis (M.S.)-Bogazici University. Institute of Biomedical Engineering, 2009.
dc.relation Includes appendices.
dc.relation Includes appendices.
dc.subject.lcsh Neuromuscular transmission.
dc.subject.lcsh Mechanoreceptors.
dc.title Effects of epimuscular myofascial force transmission on sensory level: experimental assessment by afferent signals received from frog lower leg muscles
dc.format.pages xii, 35 leaves;


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