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EMG Mapping References

1. Ahad, M.A.   Al Zaman, A.   Ferdjalllah, M.   Harris, G.F.   Multichannel grid electrode interface for EMG mapping, Circuits and Systems, 2005. 48th Midwest Symposium on Publication Date: 7-10 Aug. 2005 Dept. of Electr. & Comput. Eng., Tennessee Univ., Knoxville, TN, USA; On page(s): 1770- 1773 Vol. 2
2. F. Biedermann, a, c, N. P. Schumanna, M. S. Fischerb and H. Ch. Schollea Surface EMG-recordings using a miniaturised matrix electrode: a new technique for small animals Journal of Neuroscience Methods Volume 97, Issue 1, 1 April 2000, Pages 69-75
3. Blok JH, van Dijk JP, Drost G, Zwarts MJ, and Stegeman DF. A high-density multichannel surface electromyography system for the characterization of single motor units. Rev Sci Instrum 73: 1887–1897, 2002.
4. Braus H and Elze C. Anatomie des Menschen. Ein Lehrbuch fu¨r Studierende und A ¨ rzte. Bd.1 Bewegungsapparat. Berlin: Springer-Verlag, 1954. 5. Cole KJ, Konopacki RA, and Abbs JH. A miniature electrode for surface electromyography during speech. J Acoust Soc Am 74: 1362–1366, 1983.
5. Disselhorst-Klug C, Silny J, and Rau G. Improvement of spatial resolution in surface-EMG: a theoretical and experimental comparison of different spatial filters. IEEE Trans Biomed Eng 44: 567–574, 1997.
6. Drost G, Blok JH, Stegeman DF, van Dijk JP, van Engelen BG, and Zwarts MJ. Propagation disturbance of motor unit action potentials during transient paresis in generalized myotonia: a high-density surface EMG study. Brain 124: 352–360, 2001.
7. Drost G, Stegeman DF, Schillings ML, Horemans HL, Janssen HM, Massa M, Nollet F, Zwarts MJ. Motor unit characteristics in healthy subjects and those with postpoliomyelitis syndrome: a high-density surface EMG study. Muscle Nerve. 2004 Sep;30(3):269-76.
8. G Drost, DF Stegeman, ML Schillings, HL Horemans, HM Janssen, M Massa, F Nollet, MJ Zwarts Motor unit characteristics in healthy subjects and those with postpoliomyelitis syndrome: a high-density surface EMG study. Muscle Nerve, Vol. 30, No. 3. (September 2004), pp. 269-276.
9. Drost G, Kleine BU, Stegeman DF, van Engelen BG, Zwarts MJ Fasciculation Potentials in High-Density Surface EMG. J Clin Neurophysiol 2007 Jun; 24(3):301-7.
10. Falla D, Dall’Alba P, Rainoldi A, Merletti R, and Jull G. Location of innervation zones of sternocleidomastoid and scalene muscles—a basis for clinical and research electromyography applications. Clin Neurophysiol 113: 57–63, 2002.
11. Dario Farina,1 Ken Yoshida,1,2 Thomas Stieglitz,3,4 and Klaus Peter Koch3 Multichannel thin-film electrode for intramuscular electromyographic recordings J Appl Physiol 104: 821-827, 2008. First published November 29, 2007; doi:10.1152/japplphysiol.00788.2007
12. Farina D, Fortunato E, and Merletti R. Noninvasive estimation of motor unit conduction velocity distribution using linear electrode arrays. IEEE Trans Biomed Eng 47: 380–388, 2000.
13. D Farina, L Mesin, R Merletti Advances in surface EMG modeling: theory and applications J Electromyogr Kinesiol. 2007 Nov 29: 18061480 (P,S,E,B,D)
14. R Grassme, DF Stegeman, D Farina, NP Schumann, Ch Anders, D Arnold, JH Blok, H Ch Scholle Evaluation of surface-EMG-maps with filtered cross covariance functions and intramuscular coordination.
15. Huppertz HJ, Disselhorst-Klug C, Silny J, Rau G, and Heimann G. Diagnostic yield of noninvasive high spatial resolution electromyography in neuromuscular diseases. Muscle Nerve 20: 1360–1370, 1997.
16. M. Elise Johanson and Sandra A. Radtka Amplitude threshold criteria improve surface electrode specificity during walking and functional movements Gait & Posture, Volume 24, Issue 4, December 2006, Pages 429-434
17. Kleine BU, Blok JH, Oostenveld R, Praamstra P, and Stegeman DF. Magnetic stimulation-induced modulations of motor unit firings extracted from multi-channel surface EMG. Muscle Nerve 23: 1005–1015, 2000.
18. Kleine BU, Schumann NP, Stegeman DF, and Scholle HC. Surface EMG mapping of the human trapezius muscle: the topography of monopolar and bipolar surface EMG amplitude and spectrum parameters at varied forces and in fatigue. Clin Neurophysiol 111: 686–693, 2000
19. Kleine BU, van Dijk JP, Lapatki BG, Zwarts MJ, Stegeman DF Using two-dimensional spatial information in decomposition of surface EMG signals. J Electromyogr Kinesiol. 2007 Oct;17(5):535-48. Epub 2006 Aug 10.
20. Terry K.K. Koo and Arthur F.T. Mak Feasibility of using EMG driven neuromusculoskeletal model for prediction of dynamic movement of the elbow Journal of Electromyography and Kinesiology, Volume 15, Issue 1, February 2005, Pages 12-26
21. Kumagai K and Yamada M. The clinical use of multichannel surface electromyography. Acta Paediatr Jpn 33: 228–237, 1991.
22. Komei Kumagai M.D., Ph.D., Masafumi Yamada M.E. (1991) The Clinical Use of Multichannel Surface Electromyography Pediatrics International 33 (2) , 228–237 doi:10.1111/j.1442-200X.1991.tb01548.x
23. Lapatki BG, Stegeman DF, and Jonas IE. A surface EMG electrode for the simultaneous observation of multiple facial muscles. J Neurosci Methods 123: 117–128, 2003.
24. Masuda T and Sadoyama T. Skeletal muscles from which the propagation of motor unit action potentials is detectable with a surface electrode array. Electroencephalogr Clin Neurophysiol 67: 421–427, 1987.
25. Masuda T and Sadoyama T. Topographical map of innervation zones within single motor units measured with a grid surface electrode. IEEE Trans Biomed Eng 35: 623–628, 1988.
26. Ohyama M, Obata E, Furuta KS, Sakamoto K, Ohbori Y, and Iwabuchi Y. Face EMG topographic analysis of mimetic movements in patients with Bell’s Palsy. Acta Otolaryngol Suppl (Stockh) 446: 47–56, 1988.
27. H. Onishi, R. Yagi, K. Akasaka, K. Momose, K. Ihashi and Y. Handa Relationship between EMG signals and force in human vastus lateralis muscle using multiple bipolar wire electrodes Journal of Electromyography and Kinesiology, Volume 10, Issue 1, February 2000, Pages 59-67
28. Pascal Madeleinea  Fredéric Leclercab, Lars Arendt-Nielsena, Philippe Ravierb, Dario Farinaa      Experimental muscle pain changes the spatial distribution of upper trapezius muscle activity during sustained contractionVolume 117, Issue 11, Pages 2436-2445 (November 2006
29. Prutchi D. A high-resolution large array (HRLA) surface EMG system.
30. Med Eng Phys 17: 442–454, 1995.
31. Reucher H, Rau G, and Silny J. Spatial filtering of noninvasive multielectrode EMG. Part I. Introduction to measuring technique and applications. IEEE Trans Biomed Eng 34: 98–105, 1987.
32. Schumann NP, Scholle HC, Anders C, and Mey E. A topographical analysis of spectral electromyographic data of the human masseter muscle under different functional conditions in healthy subjects. Arch Oral Biol 39: 369–377, 1994.
33. Stegeman DF, Roeleveld K, and Blok JH. EMG topography as an instrument in clinical neurophysiology: a unipolar recording approach. In: Proceedings First General Workshop European concerted action (SENIAM, BIOMED II), edited by Hermens HJ, Merletti R, and Freriks B. Enschede, The Netherlands: Roessingh, 1996, p. 73–76.
34. Tassinary LG, Cacioppo JT, and Geen TR. A psychometric study of surface electrode placements for facial electromyographic recording: I. The brow and cheek muscle regions. Psychophysiology 26: 1–16, 1989.
35. Tassinary LG, Geen TR, Cacioppo JT, and Edelberg R. Issues in biometrics: offset potentials and the electrical stability of Ag/AgCl electrodes. Psychophysiology 27: 236–242, 1990.
36. Theis H. J. M. Gootzen, PhD 1, Dick J. M. Vingerhoets, MD 2, Dick F. Stegeman, PhD 2 * A study of motor unit structure by means of scanning EMG Muscle & Nerve Volume 15, Issue 3 , Pages 349 – 357 Muscle Nerve. 1992 Mar;15(3):349-57
37. Wood SM, Jarratt JA, Barker AT, and Brown BH. Surface electromyography using electrode arrays: a study of motor neuron disease. Muscle Nerve 24: 223–230, 2001.
38. J.P. van Dijk, D. Kusters, N. van Alfen, M.J. Zwarts, D.F. Stegeman, G. Drost Using high-density surface electromyography (HD-sEMG) in detecting neuromuscular disorders in children Volume 117, Issue null, Pages 1-2 (September 2006) FC7.2
39. Yamada M, Kumagai K, and Uchiyama A. The distribution and propagation pattern of motor unit action potentials studied by multi-channel surface EMG. Electroencephalogr Clin Neurophysiol 67: 395–401, 1987.
40. Daniel Zennaro, Thomas Läubli, Peter Wellig, Denise Krebs, Michael Schnoz, Andreas Klipstein and Helmut Krueger A method to test reliability and accuracy of the decomposition of multi-channel long-term intramuscular EMG signal recordings International Journal of Industrial Ergonomics, Volume 30, Issues 4-5, October-November 2002, Pages 211-224
41. Zwarts MJ and van Dijk JP. Methods to determine muscle fiber conduction velocity. In: State of the Art on Modelling Methods for Surface Electromyography, European Concerted Action (BIOMED II, SENIAM), edited by Hermens HJ, Stegeman D, Blok JH, and Freriks B. Enschede, The Netherlands: Roessingh, 1998, p. 85–89.
42. Zwarts MJ, Drost G, and Stegeman DF. Recent progress in the diagnostic use of surface EMG for neurological diseases. J Electromyogr Kinesiol 10: 287–291, 2000.
   
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