Mechanomyogram
The mechanomyogram (MMG) is the mechanical signal observable from the surface of a muscle when the muscle is contracted. At the onset of muscle contraction, gross changes in the muscle shape cause a large peak in the MMG. Subsequent vibrations are due to oscillations of the muscle fibres at the resonance frequency of the muscle. The mechanomyogram is also known as the phonomyogram, acoustic myogram, sound myogram, vibromyogram or muscle sound.
Signal characteristics
The MMG is a low frequency vibration that may be observed when a muscle is contracted using suitable measuring techniques.[1]
Measurement techniques
It can be measured using an accelerometer or a microphone placed on the skin over the belly of the muscle. When measured using a microphone is may be termed the acoustic myogram.
Uses
The MMG may provide a useful alternative to the electromyogram (EMG) for monitoring muscle activity. It has a higher signal-to-noise ratio than the surface EMG and thus can be used to monitor muscle activity from deeper muscles without using invasive measurement techniques. It is currently the subject of research activity into prosthetic control and assistive technologies for the disabled.[2]
History
Muscle sounds were first described in print by the Jesuit scientist Francesco Maria Grimaldi[3] in a posthumous publication of 1665, which influenced the work of the English physician William Hyde Wollaston[4] and the German physicist Paul Erman.[5] The latter enlisted the aid of René Laennec. Mechanical amplification was first employed by Hermann von Helmholtz. The past two centuries of repeated rediscovery and neglect of the phenomenon were summarised by Stokes and Blythe[6] in 2001.
References
- Beck TW, Housh TJ, Cramer JT, Weir JP, Johnson GO, Coburn JW, et al. (December 2005). "Mechanomyographic amplitude and frequency responses during dynamic muscle actions: a comprehensive review". BioMedical Engineering OnLine. 4: 67. doi:10.1186/1475-925X-4-67. PMC 1343566. PMID 16364182.
- Krasoulis A, Kyranou I, Erden MS, Nazarpour K, Vijayakumar S (July 2017). "Improved prosthetic hand control with concurrent use of myoelectric and inertial measurements". Journal of Neuroengineering and Rehabilitation. 14 (1): 71. doi:10.1186/s12984-017-0284-4. PMC 5505040. PMID 28697795.
- Grimaldi FM (1665). Physico-mathesis de lumine, coloribus, et iride, aliisque adnexis libri duo. Bologna. p. 383.
- Wollaston WH (1810). "On the duration of muscle action". Philosophical Transactions of the Royal Society of London. 100: 1–5. doi:10.1098/rstl.1810.0002.
- Erman, P (1812). "Einige Bemerkungen uber Muscular-Contraction". Annalen der Physik. 40 (1): 1–30. Bibcode:1812AnP....40....1E. doi:10.1002/andp.18120400102.
- Stokes M, Blythe M (2001). Muscle Sounds in physiology, sports science and clinical investigation. Oxford: Medintel. ISBN 978-0-9540572-0-6.