Additional in-series compliance reduces muscle force summation and alters the time course of force relaxation during fixed-end contractions

Mayfield, Dean L.; Launikonis, Bradley S.; Cresswell, Adrian Ben; Lichtwark, Glen A.

doi:10.1242/jeb.143123

Cited by 15 publications

(16 citation statements)

References 78 publications

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“…Mdm muscles exhibited a longer electromechanical delay, decreased rate of force development, increased relaxation time, and decreased active stress. A decrease in series elastic stiffness by increased tendon length would be consistent with these results (Bahler et al, 1967;Mayfield et al, 2016). However, mdm muscle preparations in this study had little to no tendon, but do show an increase in endomysial and perimysial connective tissue (Lopez et al, 2008;Powers et al, 2017), and have altered elastic properties that are consistent with greater compliance of active muscle (Monroy et al, 2017).…”

Section: Isometric Force Characteristics Of Mdm Musclessupporting

confidence: 79%

Optimal length, calcium sensitivity, and twitch characteristics of skeletal muscles from mdm mice with a deletion in N2A titin

Hessel

Joumaa

Eck

et al. 2019

Journal of Experimental Biology

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During isometric contractions, the optimal length of skeletal muscles increases with decreasing activation. The underlying mechanism for this phenomenon is thought to be linked to length dependence of Ca 2+ sensitivity. Muscular dystrophy with myositis (mdm), a recessive titin mutation in mice, was used as a tool to study the role of titin in activation dependence of optimal length and length dependence of Ca 2+ sensitivity. We measured the shift in optimal length between tetanic and twitch stimulation in mdm and wild-type muscles, and the length dependence of Ca 2+ sensitivity at short and long sarcomere lengths in mdm and wild-type fiber bundles. The results indicate that the mdm mutation leads to a loss of activation dependence of optimal length without the expected change in length dependence of Ca 2+ sensitivity, demonstrating that these properties are not linked, as previously suggested. Furthermore, mdm muscles produced maximum tetanic stress during sub-optimal filament overlap at lengths similar to twitch contractions in both genotypes, but the difference explains less than half of the observed reduction in active force of mdm muscles. Mdm muscles also exhibited increased electromechanical delay, contraction and relaxation times, and decreased rate of force development in twitch contractions. We conclude that the small deletion in titin associated with mdm in skeletal muscles alters force production, suggesting an important regulatory role for titin in active force production. The molecular mechanisms for titin's role in regulating muscle force production remain to be elucidated.

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Section: Isometric Force Characteristics Of Mdm Musclessupporting

confidence: 79%

Optimal length, calcium sensitivity, and twitch characteristics of skeletal muscles from mdm mice with a deletion in N2A titin

Hessel

Joumaa

Eck

et al. 2019

Journal of Experimental Biology

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“…An important question is the selective advantage and function of long tendons in the nutritionally dilute lower-slope environment. Tendon function in movement has been examined mostly in leg muscles in a variety of tetrapods -frogs, turkeys, kangaroos, wallabies and primates including humans (Alexander, 2002;Biewener and Baudinette, 1995;Lichtwark and Barclay, 2010;Vereecke and Channon, 2013;Sawicki et al, 2015;Mayfield et al, 2016). Leg movement generally involves muscle contractions over a range of 0.2-11 Hz (Alexander, 2002), which would result in a volume velocity too low to produce audible sound.…”

Section: Discussionmentioning

confidence: 99%

Development and sexual dimorphism of the sonic system in three deep-sea neobythitine fishes and comparisons between upper mid and lower continental slope

Fine

Ali

Nguyen

et al. 2018

Deep Sea Research Part I: Oceanographic Research Papers

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Based on morphology, NB Marshall identified cusk-eels (family Ophidiidae) as one of the chief sound-producing groups on the continental slope. Due to food scarcity, we hypothesized that sonic systems will be reduced at great depths despite their potential importance in sexual reproduction. We examined this hypothesis in the cuskeel subfamily Neobythitinae by comparing sonic morphology in Atlantic species from the upper-mid (Dicrolene intronigra) and deeper continental slope (Porogadus miles and Bathyonus pectoralis) with three Taiwanese species previously described from the upper slope (Hoplobrotula armatus, Neobythites longipes and N. unimaculatus). In all six species, medial muscles are heavier in males than in females. Dicrolene has four pairs of sonic muscles similar to the shallow Pacific species, suggesting neobythitine sonic anatomy is conservative and sufficient food exists to maintain a well-developed system at depths exceeding 1 km. The sonic system in Porogadus and Bathyonus was reduced to a single pair of ventral medial muscles that connects to a smaller and thinner swimbladder via a long tendon. Small muscle fiber diameters, a likely indicator of rapid contraction, were present in males of five of the species. However, in Bathyonus, the deepest species (pale coloration, reduced eye size, shorter sonic muscles and longer tendons), muscle fibers were larger suggesting an adaptation to facilitate rapid bladder movement for sound production while using slower contractions and less metabolic energy. The six species separate into three groups in length-weight regressions: the three upper slope species have the greatest weights per unit length, Dicrolene is lower, and the two deep species are further reduced consistent with the hypothesis that food limitation affects sonic anatomy at great depths.

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“…18 These improvements in performance are achieved with higher stiffness since stiffness has been suggested to lead to higher maximum force and a higher rate of force development. 19 The above is supported by several authors who have demonstrated that elite athletes of several sports have stiffer tendon and muscles than amateurs, 16,20,21 since their joints tend to move less (i.e. they are more stable), especially when they meet the ground when jumping and running.…”

Section: Introductionmentioning

confidence: 88%

Reduced muscle contractile function in elite young soccer players after a short-congested fixture period

Rojas-Valverde

Gutiérrez-Vargas

Rodríguez-Montero

et al. 2018

Proceedings of the Institution of Mechanical Engineers, Part P:

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Soccer is a very popular sport, which has been widely investigated. However, little is known about the effects of congested fixture periods on muscle mechanical responses since access to elite teams during competitive periods is highly restricted. Thus, the goal of this study was to describe the effects of a short-congested fixture period on the neuromechanical parameters related to fatigue and stiffness of elite young soccer players. Nineteen young elite male soccer players (age 17.13 6 0.51 years, body mass 69.00 6 1.22 kg, and height 174.09 6 0.84 cm) participated in the study. The players took part in a preparatory tournament for the FIFA Ò U-17 World Cup, composed of a total of six matches in 1 week. Pre-and post-tensiomyographic changes were assessed by means of the normalized response speed (V rn) and other tensiomyographic markers related to muscle fatigue (i.e. maximum radial muscle displacement (Dm) and velocities of contraction at 10% and 90% (V 10 and V 90) of both legs in two muscles (biceps femoris and rectus femoris). The players presented a possible to likely impairment in Dm, V 10 , and V 90 of both legs and muscles, with the exception of the nondominant biceps femoris. V rn did not vary in any condition, although it presented a slight tendency to decrease. The data demonstrated impairments in the tensiomyographic markers in both legs and muscles, with the exception of the nondominant biceps femoris. A short-congested fixture period in young soccer players leads to a decrease in muscle stiffness due to cumulative fatigue and lack of muscle recovery, this despite the efforts made by the medical staff to counteract the fatigue caused by the games. The use of tensiomyographic markers could be advantageous for rapidly monitoring neuromechanical muscle impairments throughout competitive soccer periods.

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Additional in-series compliance reduces muscle force summation and alters the time course of force relaxation during fixed-end contractions

Cited by 15 publications

References 78 publications

Optimal length, calcium sensitivity, and twitch characteristics of skeletal muscles from mdm mice with a deletion in N2A titin

Optimal length, calcium sensitivity, and twitch characteristics of skeletal muscles from mdm mice with a deletion in N2A titin

Development and sexual dimorphism of the sonic system in three deep-sea neobythitine fishes and comparisons between upper mid and lower continental slope

Reduced muscle contractile function in elite young soccer players after a short-congested fixture period

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