Larger interface area at the human myotendinous junction in type 1 compared to type 2 muscle fibers

Publikation: Bidrag til tidsskriftTidsskriftartikelForskningfagfællebedømt

Standard

Larger interface area at the human myotendinous junction in type 1 compared to type 2 muscle fibers. / Rithamer Jakobsen, Jens; Mackey, Abigail Louise; Koch, Manuel; Imhof, Thomas; Hannibal, Jens; Kjær, Michael; Rindom Krogsgaard, Michael.

I: Scandinavian Journal of Medicine & Science in Sports, Bind 33, Nr. 2, 2023, s. 136-145.

Publikation: Bidrag til tidsskriftTidsskriftartikelForskningfagfællebedømt

Harvard

Rithamer Jakobsen, J, Mackey, AL, Koch, M, Imhof, T, Hannibal, J, Kjær, M & Rindom Krogsgaard, M 2023, 'Larger interface area at the human myotendinous junction in type 1 compared to type 2 muscle fibers', Scandinavian Journal of Medicine & Science in Sports, bind 33, nr. 2, s. 136-145. https://doi.org/10.1111/sms.14246

APA

Rithamer Jakobsen, J., Mackey, A. L., Koch, M., Imhof, T., Hannibal, J., Kjær, M., & Rindom Krogsgaard, M. (2023). Larger interface area at the human myotendinous junction in type 1 compared to type 2 muscle fibers. Scandinavian Journal of Medicine & Science in Sports, 33(2), 136-145. https://doi.org/10.1111/sms.14246

Vancouver

Rithamer Jakobsen J, Mackey AL, Koch M, Imhof T, Hannibal J, Kjær M o.a. Larger interface area at the human myotendinous junction in type 1 compared to type 2 muscle fibers. Scandinavian Journal of Medicine & Science in Sports. 2023;33(2):136-145. https://doi.org/10.1111/sms.14246

Author

Rithamer Jakobsen, Jens ; Mackey, Abigail Louise ; Koch, Manuel ; Imhof, Thomas ; Hannibal, Jens ; Kjær, Michael ; Rindom Krogsgaard, Michael. / Larger interface area at the human myotendinous junction in type 1 compared to type 2 muscle fibers. I: Scandinavian Journal of Medicine & Science in Sports. 2023 ; Bind 33, Nr. 2. s. 136-145.

Bibtex

@article{04222fdb11ef4f5e8008a77adcb0e431,
title = "Larger interface area at the human myotendinous junction in type 1 compared to type 2 muscle fibers",
abstract = "The myotendinous junction (MTJ) is structurally specialized to transmit force. The highly folded muscle membrane at the MTJ increases the contact area between muscle and tendon and potentially the load tolerance of the MTJ. Muscles with a high content of type II fibers are more often subject to strain injury compared with muscles with type I fibers. It is hypothesized that this is explained by a smaller interface area of MTJ in type II compared with type I muscle fibers. The aim was to investigate by confocal microscopy whether there is difference in the surface area at the MTJ between type I and II muscle fibers. Individual muscle fibers with an intact MTJ were isolated by microscopic dissection in samples from human semitendinosus, and they were labeled with antibodies against collagen XXII (indicating MTJ) and type I myosin (MHCI). Using a spinning disc confocal microscope, the MTJ from each fiber was scanned and subsequently reconstructed to a 3D-model. The interface area between muscle and tendon was calculated in type I and II fibers from these reconstructions. The MTJ was analyzed in 314 muscle fibers. Type I muscle fibers had a 22% larger MTJ interface area compared with type II fibers (p < 0.05), also when the area was normalized to fiber diameter. By the new method, it was possible to analyze the structure of the MTJ from a large number of human muscle fibers. The finding that the interface area between muscle and tendon is higher in type I compared with type II fibers suggests that type II fibers are less resistant to strain and therefore more susceptible to injury.",
author = "{Rithamer Jakobsen}, Jens and Mackey, {Abigail Louise} and Manuel Koch and Thomas Imhof and Jens Hannibal and Michael Kj{\ae}r and {Rindom Krogsgaard}, Michael",
year = "2023",
doi = "10.1111/sms.14246",
language = "English",
volume = "33",
pages = "136--145",
journal = "Scandinavian Journal of Medicine & Science in Sports",
issn = "0905-7188",
publisher = "Wiley-Blackwell",
number = "2",

}

RIS

TY - JOUR

T1 - Larger interface area at the human myotendinous junction in type 1 compared to type 2 muscle fibers

AU - Rithamer Jakobsen, Jens

AU - Mackey, Abigail Louise

AU - Koch, Manuel

AU - Imhof, Thomas

AU - Hannibal, Jens

AU - Kjær, Michael

AU - Rindom Krogsgaard, Michael

PY - 2023

Y1 - 2023

N2 - The myotendinous junction (MTJ) is structurally specialized to transmit force. The highly folded muscle membrane at the MTJ increases the contact area between muscle and tendon and potentially the load tolerance of the MTJ. Muscles with a high content of type II fibers are more often subject to strain injury compared with muscles with type I fibers. It is hypothesized that this is explained by a smaller interface area of MTJ in type II compared with type I muscle fibers. The aim was to investigate by confocal microscopy whether there is difference in the surface area at the MTJ between type I and II muscle fibers. Individual muscle fibers with an intact MTJ were isolated by microscopic dissection in samples from human semitendinosus, and they were labeled with antibodies against collagen XXII (indicating MTJ) and type I myosin (MHCI). Using a spinning disc confocal microscope, the MTJ from each fiber was scanned and subsequently reconstructed to a 3D-model. The interface area between muscle and tendon was calculated in type I and II fibers from these reconstructions. The MTJ was analyzed in 314 muscle fibers. Type I muscle fibers had a 22% larger MTJ interface area compared with type II fibers (p < 0.05), also when the area was normalized to fiber diameter. By the new method, it was possible to analyze the structure of the MTJ from a large number of human muscle fibers. The finding that the interface area between muscle and tendon is higher in type I compared with type II fibers suggests that type II fibers are less resistant to strain and therefore more susceptible to injury.

AB - The myotendinous junction (MTJ) is structurally specialized to transmit force. The highly folded muscle membrane at the MTJ increases the contact area between muscle and tendon and potentially the load tolerance of the MTJ. Muscles with a high content of type II fibers are more often subject to strain injury compared with muscles with type I fibers. It is hypothesized that this is explained by a smaller interface area of MTJ in type II compared with type I muscle fibers. The aim was to investigate by confocal microscopy whether there is difference in the surface area at the MTJ between type I and II muscle fibers. Individual muscle fibers with an intact MTJ were isolated by microscopic dissection in samples from human semitendinosus, and they were labeled with antibodies against collagen XXII (indicating MTJ) and type I myosin (MHCI). Using a spinning disc confocal microscope, the MTJ from each fiber was scanned and subsequently reconstructed to a 3D-model. The interface area between muscle and tendon was calculated in type I and II fibers from these reconstructions. The MTJ was analyzed in 314 muscle fibers. Type I muscle fibers had a 22% larger MTJ interface area compared with type II fibers (p < 0.05), also when the area was normalized to fiber diameter. By the new method, it was possible to analyze the structure of the MTJ from a large number of human muscle fibers. The finding that the interface area between muscle and tendon is higher in type I compared with type II fibers suggests that type II fibers are less resistant to strain and therefore more susceptible to injury.

U2 - 10.1111/sms.14246

DO - 10.1111/sms.14246

M3 - Journal article

C2 - 36226768

VL - 33

SP - 136

EP - 145

JO - Scandinavian Journal of Medicine & Science in Sports

JF - Scandinavian Journal of Medicine & Science in Sports

SN - 0905-7188

IS - 2

ER -

ID: 322210382