posted on 2013-10-15, 14:58authored byJan M. Ache, Thomas Matheson
Background: Limb movements are generally driven by active muscular contractions working with and against passive forces arising in muscles and other structures. In relatively heavy limbs, the effects of gravity and inertia predominate, whereas in lighter limbs, passive forces intrinsic to the limb are of greater consequence. The roles of passive forces generated by muscles and tendons are well understood, but there has been little recognition that forces originating within joints themselves may also be important, and less still that these joint forces may be adapted through evolution to complement active muscle forces acting at the same joint.
Results: We examined the roles of passive joint forces in insect legs with different arrangements of antagonist muscles. We first show that passive forces modify actively generated movements of a joint across its working range, and that they can be sufficiently strong to generate completely passive movements that are faster than active movements observed in natural behaviors. We further demonstrate that some of these forces originate within the joint itself. In legs of different species adapted to different uses (walking, jumping), these passive joint forces complement the balance of strength of the antagonist muscles acting on the joint. We show that passive joint forces are stronger where they assist the weaker of two antagonist muscles.
Conclusions: In limbs where the dictates of a key behaviour produce asymmetry in muscle forces, passive joint forces can be coadapted to provide the balance needed for the effective generation of other behaviors.
Funding
This work was funded by a stipend from the Heinrich Hertz Foundation, Ministry of Innovation, Science and Research of the German State of North Rhine-Westphalia to J.M.A. and by grants from the BBSRC (BB/H014047/1 and BB/I019065/1) and Royal Society (IJP 2006/R3) to T.M.
History
Citation
Current Biology, 2013, 23 (15), pp. 1418-1426
Author affiliation
/Organisation/COLLEGE OF MEDICINE, BIOLOGICAL SCIENCES AND PSYCHOLOGY/School of Biological Sciences/Department of Biology