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Muscle contraction and force: The importance of an ancillary network, nutrient supply and waste removal

International Journal of Molecular Sciences (2008) 9(8) 1472-1488
DOI: 10.3390/ijms9081472
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Abstract

Muscle contraction studies often focus solely on myofibres and the proteins known to be involved in the processes of sarcomere shortening and cross-bridge cycling, but skeletal muscle also comprises a very elaborate ancillary network of capillaries, which not only play a vital role in terms of nutrient delivery and waste product removal, but are also tethered to surrounding fibres by collagen "wires". This paper therefore addresses aspects of the ancillary network of skeletal muscle at both a microscopic and functional level in order to better understand its role holistically as a considerable contributor to force transfer within muscular tissue. © 2008 by the authors; licensee Molecular Diversity Preservation International.

Figures

  • Figure 1. CLSM microscope image through a rat hind leg muscle, showing different hierarchies of vessels in the perimysium using anti–Laminin (green) and Phalloidin against F-Actin (blue) staining. Note the differences in composition of the walls of venules, arterioles and capillaries, as well as the differences in their diameter. Scale bar = 33 μm.
  • Figure 2. (A) Scanning electron microscope image of a muscle fibre bundle of M. biceps femoris of a rabbit, showing the orientation and tortuosity of branching vessels at different hierarchies. Scale bar = 10 µm. (B) Confocal laser scanning microscope image in combination with immuno-labeling for Collagen I and VI illustrating that the arteriole wall is comprised collagen type I (red) and VI (green). On the surface of the neighboring muscle fibres (blue) small reticulin fibres (red) can be distinguished using the collagen I label. Scale bar = 30 µm.
  • Figure 3. Simplified and schematic illustration of the effect of cooperative and noncooperative oxygen binding on oxygen pressure along the length of capillaries. The degree of oxygen saturation of haemoglobin, , is somewhat arbitrarily taken to be 0.75 and 0.25 for the blood entering and leaving the capillaries. The binding constant is taken to be a realistic value of 5.3 mm Hg . A) Cooperative binding with a realistic Hill coefficient of n= 2.2. The variation in oxygen pressure along the length of a stream of blood is relatively
  • Table 1); Controls ( ; n=8) or AKG treated rats ( ; n=4), respectively (see materials & methods for details of the AKG treatment). Isolated muscles were continuously stimulated at 40 Hz for a period of 60 seconds with 32 mA pulses of 1 ms duration, which represents supramaximal, constant-current field stimulation. Force recordings were made via a force transducer attached to an A/D converter at a sampling rate of 1000 samples per second. Each point represents mean ± SE. Significant differences between the muscles were found using a Mann-Whitney unpaired two-tailed test (P<0.05).

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CITATION STYLE

APA

Brüggemann, D. A., Risbo, J., Pierzynowski, S. G., & Harrison, A. P. (2008). Muscle contraction and force: The importance of an ancillary network, nutrient supply and waste removal. International Journal of Molecular Sciences, 9(8), 1472–1488. https://doi.org/10.3390/ijms9081472

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