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Researchers from the University of Zurich have now studied in detail what sportsmen and women know from experience: The head plays a key role in tiring endurance performances. They have discovered a mechanism in the brain that triggers a reduction in muscle performance during tiring activities and ensures that one’s own physiological limits are not exceeded. For the first time, the study demonstrates empirically that muscle fatigue and changes in the interaction between neuronal structures are linked.
The extent to which we are able to activate our muscles voluntarily depends on motivation and will power or the physical condition and level of fatigue of the muscles, for instance. The latter particularly leads to noticeable and measurable performance impairments. For a long time, the research on muscle fatigue was largely confined to changes in the muscle itself. Now, a joint research project between the University of Zurich and ETH Zurich has shifted the focus to brain research. Headed by neuro-psychologist Kai Lutz from the University of Zurich in collaboration with Urs Boutellier from the Institute of Human Movement Sciences and Sport at ETH Zurich, the researchers discovered neuronal processes for the first time that are responsible for reducing muscle activity during muscle-fatiguing exercise. The third and final part of this series of experiments, which was conducted by Lea Hilty as part of her doctoral thesis, has now been published in the “European Journal of Neuroscience”.
Muscle’s nerve impulses inhibit motoric area in the brain
In the initial study, the researchers showed that nerve impulses from the muscle – much like pain information – inhibit the primary motoric area during a tiring, energy-demanding exercise. They were able to prove this using measurements in which study participants repeated thigh contractions until they could no longer attain the force required. If the same exercise was conducted under narcotization of the spinal chord (spinal anesthesia), thus interrupting the response from the muscle to the primary motoric area, the corresponding fatigue-related inhibition processes became significantly weaker than when the muscle information was intact.
In a second step, using functional magnetic resonance imaging, the researchers were able to localize the brain regions that exhibit an increase in activity shortly before the interruption of a tiring, energy-demanding activity and are thus involved in signalizing the interruption: the thalamus and the insular cortex – both areas which analyze information that indicates a threat to the organism, such as pain or hunger.
Neuronal system has regulating effect on muscle performance
The third study has now shown that the inhibitory influences on motoric activity are actually mediated via the insular cortex: In tests using a bicycle ergometer, the researchers determined that the communication between the insular cortex and the primary motoric area became more intensive as the fatigue progressed. “This can be regarded as evidence that the neuronal system found not only informs the brain, but also actually has a regulating effect on motoric activity,” says Lea Hilty, summing up the current result. And Kai Lutz points to the new research field that now opens up with these results: “The findings are an important step in discovering the role the brain plays in muscle fatigue. Based on these studies, it won’t just be possible to develop strategies to optimize muscular performance, but also specifically investigate reasons for reduced muscular performance in various diseases.” Prolonged reduced physical performance is a symptom that is frequently observed in daily clinical practice. It can also appear as a side effect of certain medication. However, so-called chronic fatigue syndrome is often diagnosed without any apparent cause.
Literature:
Lea Hilty, Lutz Jäncke, Roger Luechinger, Urs Boutellier, and Kai Lutz. Limitation of Physical Performance in a Muscle Fatiguing Handgrip Exercise Is Mediated by Thalamo-Insular Activity. Human Brain Mapping. December 10, 2010. doi: 10.1002/hbm.21177
Lea Hilty, Kai Lutz, Konrad Maurer, Tobias Rodenkirch, Christina M. Spengler, Urs Boutellier, Lutz Jäncke, and Markus Amann. Spinal opioid receptor-sensitive muscle afferents contribute to the fatigue-induced increase in intracortical inhibition in healthy humans. Experimental Physiology. February 11, 2011. doi: 10.1113/expphysiol.2010.056226
Lea Hilty, Nicolas Langer, Roberto Pascual-Marqui, Urs Boutellier, and Kai Lutz. Fatigue-induced increase in intracortical communication between mid ⁄anterior insular and motor cortex during cycling exercise. European Journal of Neuroscience. November 21, 2011. doi: 10.1111/j.1460-9568.2011.07909.x
Contact:
Dr. Kai Lutz
Department of Psychology
Chair for Neuropsychology
University of Zurich
Tel.: +41 44 635 73 95
E-Mail: Kai.Lutz@uzh.ch
http://www.mediadesk.uzh.ch/articles/2011/wie-muskelermuedung-im-kopf-entsteht_e... – News release of the University of Zurich in English
http://www.mediadesk.uzh.ch/articles/2011/wie-muskelermuedung-im-kopf-entsteht.h... – News release of the University of Zurich in German
Test on the bicycle ergometer with the measurement of brain activity
photo: University of Zurich
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Biology, Energy, Medicine, Psychology, Sport science
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Research results, Scientific Publications
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