Does the frequency content of the surface mechanomyographic signal reflect motor unit firing rates? A brief review
The purpose of this review is to examine the literature that has investigated the potential relationship between mechanomyographic (MMG) frequency and motor unit firing rates. Several different experimental designs/methodologies have been used to address this issue, including: repetitive electrical...
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| Published in | Journal of electromyography and kinesiology Vol. 17; no. 1; pp. 1 - 13 |
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| Main Authors | , , , , , , |
| Format | Journal Article |
| Language | English |
| Published |
England
Elsevier Ltd
01.02.2007
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| Subjects | |
| Online Access | Get full text |
| ISSN | 1050-6411 |
| DOI | 10.1016/j.jelekin.2005.12.002 |
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| Abstract | The purpose of this review is to examine the literature that has investigated the potential relationship between mechanomyographic (MMG) frequency and motor unit firing rates. Several different experimental designs/methodologies have been used to address this issue, including: repetitive electrical stimulation, voluntary muscle actions in muscles with different fiber type compositions, fatiguing and non-fatiguing isometric or dynamic muscle actions, and voluntary muscle actions in young versus elderly subjects and healthy individuals versus subjects with a neuromuscular disease(s). Generally speaking, the results from these investigations have suggested that MMG frequency is related to the rate of motor unit activation and the contractile properties (contraction and relaxation times) of the muscle fibers. Other studies, however, have reported that MMG mean power frequency (MPF) does not always follow the expected pattern of firing rate modulation (e.g. motor unit firing rates generally increase with torque during isometric muscle actions, but MMG MPF may remain stable or even decrease). In addition, there are several factors that may affect the frequency content of the MMG signal during a voluntary muscle action (i.e. muscle stiffness, intramuscular fluid pressure, etc.), independent of changes in motor unit firing rates. Despite the potential influences of these factors, most of the evidence has suggested that the frequency domain of the MMG signal contains some information regarding motor unit firing rates. It is likely, however, that this information is qualitative, rather than quantitative in nature, and reflects the global motor unit firing rate, rather than the firing rates of a particular group of motor units. |
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| AbstractList | The purpose of this review is to examine the literature that has investigated the potential relationship between mechanomyographic (MMG) frequency and motor unit firing rates. Several different experimental designs/methodologies have been used to address this issue, including: repetitive electrical stimulation, voluntary muscle actions in muscles with different fiber type compositions, fatiguing and non-fatiguing isometric or dynamic muscle actions, and voluntary muscle actions in young versus elderly subjects and healthy individuals versus subjects with a neuromuscular disease(s). Generally speaking, the results from these investigations have suggested that MMG frequency is related to the rate of motor unit activation and the contractile properties (contraction and relaxation times) of the muscle fibers. Other studies, however, have reported that MMG mean power frequency (MPF) does not always follow the expected pattern of firing rate modulation (e.g. motor unit firing rates generally increase with torque during isometric muscle actions, but MMG MPF may remain stable or even decrease). In addition, there are several factors that may affect the frequency content of the MMG signal during a voluntary muscle action (i.e. muscle stiffness, intramuscular fluid pressure, etc.), independent of changes in motor unit firing rates. Despite the potential influences of these factors, most of the evidence has suggested that the frequency domain of the MMG signal contains some information regarding motor unit firing rates. It is likely, however, that this information is qualitative, rather than quantitative in nature, and reflects the global motor unit firing rate, rather than the firing rates of a particular group of motor units. Abstract The purpose of this review is to examine the literature that has investigated the potential relationship between mechanomyographic (MMG) frequency and motor unit firing rates. Several different experimental designs/methodologies have been used to address this issue, including: repetitive electrical stimulation, voluntary muscle actions in muscles with different fiber type compositions, fatiguing and non-fatiguing isometric or dynamic muscle actions, and voluntary muscle actions in young versus elderly subjects and healthy individuals versus subjects with a neuromuscular disease(s). Generally speaking, the results from these investigations have suggested that MMG frequency is related to the rate of motor unit activation and the contractile properties (contraction and relaxation times) of the muscle fibers. Other studies, however, have reported that MMG mean power frequency (MPF) does not always follow the expected pattern of firing rate modulation (e.g. motor unit firing rates generally increase with torque during isometric muscle actions, but MMG MPF may remain stable or even decrease). In addition, there are several factors that may affect the frequency content of the MMG signal during a voluntary muscle action (i.e. muscle stiffness, intramuscular fluid pressure, etc.), independent of changes in motor unit firing rates. Despite the potential influences of these factors, most of the evidence has suggested that the frequency domain of the MMG signal contains some information regarding motor unit firing rates. It is likely, however, that this information is qualitative, rather than quantitative in nature, and reflects the global motor unit firing rate, rather than the firing rates of a particular group of motor units. The purpose of this review is to examine the literature that has investigated the potential relationship between mechanomyographic (MMG) frequency and motor unit firing rates. Several different experimental designs/methodologies have been used to address this issue, including: repetitive electrical stimulation, voluntary muscle actions in muscles with different fiber type compositions, fatiguing and non-fatiguing isometric or dynamic muscle actions, and voluntary muscle actions in young versus elderly subjects and healthy individuals versus subjects with a neuromuscular disease(s). Generally speaking, the results from these investigations have suggested that MMG frequency is related to the rate of motor unit activation and the contractile properties (contraction and relaxation times) of the muscle fibers. Other studies, however, have reported that MMG mean power frequency (MPF) does not always follow the expected pattern of firing rate modulation (e.g. motor unit firing rates generally increase with torque during isometric muscle actions, but MMG MPF may remain stable or even decrease). In addition, there are several factors that may affect the frequency content of the MMG signal during a voluntary muscle action (i.e. muscle stiffness, intramuscular fluid pressure, etc.), independent of changes in motor unit firing rates. Despite the potential influences of these factors, most of the evidence has suggested that the frequency domain of the MMG signal contains some information regarding motor unit firing rates. It is likely, however, that this information is qualitative, rather than quantitative in nature, and reflects the global motor unit firing rate, rather than the firing rates of a particular group of motor units.The purpose of this review is to examine the literature that has investigated the potential relationship between mechanomyographic (MMG) frequency and motor unit firing rates. Several different experimental designs/methodologies have been used to address this issue, including: repetitive electrical stimulation, voluntary muscle actions in muscles with different fiber type compositions, fatiguing and non-fatiguing isometric or dynamic muscle actions, and voluntary muscle actions in young versus elderly subjects and healthy individuals versus subjects with a neuromuscular disease(s). Generally speaking, the results from these investigations have suggested that MMG frequency is related to the rate of motor unit activation and the contractile properties (contraction and relaxation times) of the muscle fibers. Other studies, however, have reported that MMG mean power frequency (MPF) does not always follow the expected pattern of firing rate modulation (e.g. motor unit firing rates generally increase with torque during isometric muscle actions, but MMG MPF may remain stable or even decrease). In addition, there are several factors that may affect the frequency content of the MMG signal during a voluntary muscle action (i.e. muscle stiffness, intramuscular fluid pressure, etc.), independent of changes in motor unit firing rates. Despite the potential influences of these factors, most of the evidence has suggested that the frequency domain of the MMG signal contains some information regarding motor unit firing rates. It is likely, however, that this information is qualitative, rather than quantitative in nature, and reflects the global motor unit firing rate, rather than the firing rates of a particular group of motor units. |
| Author | Beck, Travis W. Weir, Joseph P. Malek, Moh H. Housh, Terry J. Cramer, Joel T. Coburn, Jared W. Johnson, Glen O. |
| Author_xml | – sequence: 1 givenname: Travis W. surname: Beck fullname: Beck, Travis W. email: tbeck@unlserve.unl.edu organization: Department of Nutrition and Health Sciences, Human Performance Laboratory, University of Nebraska-Lincoln, 104K Ruth Leverton Hall, Lincoln, NE 68583-0806, United States – sequence: 2 givenname: Terry J. surname: Housh fullname: Housh, Terry J. organization: Department of Nutrition and Health Sciences, Human Performance Laboratory, University of Nebraska-Lincoln, 104K Ruth Leverton Hall, Lincoln, NE 68583-0806, United States – sequence: 3 givenname: Glen O. surname: Johnson fullname: Johnson, Glen O. organization: Department of Nutrition and Health Sciences, Human Performance Laboratory, University of Nebraska-Lincoln, 104K Ruth Leverton Hall, Lincoln, NE 68583-0806, United States – sequence: 4 givenname: Joel T. surname: Cramer fullname: Cramer, Joel T. organization: Department of Health and Exercise Science, University of Oklahoma, Norman, OK 73019, United States – sequence: 5 givenname: Joseph P. surname: Weir fullname: Weir, Joseph P. organization: Applied Physiology Laboratory, Division of Physical Therapy, Des Moines University Osteopathic Medical Center, Des Moines, IA 50312, United States – sequence: 6 givenname: Jared W. surname: Coburn fullname: Coburn, Jared W. organization: Department of Nutrition and Health Sciences, Human Performance Laboratory, University of Nebraska-Lincoln, 104K Ruth Leverton Hall, Lincoln, NE 68583-0806, United States – sequence: 7 givenname: Moh H. surname: Malek fullname: Malek, Moh H. organization: Department of Nutrition and Health Sciences, Human Performance Laboratory, University of Nebraska-Lincoln, 104K Ruth Leverton Hall, Lincoln, NE 68583-0806, United States |
| BackLink | https://www.ncbi.nlm.nih.gov/pubmed/16497517$$D View this record in MEDLINE/PubMed |
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| Snippet | The purpose of this review is to examine the literature that has investigated the potential relationship between mechanomyographic (MMG) frequency and motor... Abstract The purpose of this review is to examine the literature that has investigated the potential relationship between mechanomyographic (MMG) frequency and... |
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| SubjectTerms | Action Potentials - physiology Biomechanical Phenomena - methods Electromyography - methods Humans Mechanomyography Motor control strategies Motor Neurons - physiology Motor unit firing rates Muscle Contraction - physiology Muscle, Skeletal - innervation Muscle, Skeletal - physiology Neuromuscular Junction - physiology Physical Medicine and Rehabilitation |
| Title | Does the frequency content of the surface mechanomyographic signal reflect motor unit firing rates? A brief review |
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