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Items: 1 to 20 of 101

1.

Self-Regulated Force and Neuromuscular Responses During Fatiguing Isometric Leg Extensions Anchored to a Rating of Perceived Exertion.

Keller JL, Housh TJ, Hill EC, Smith CM, Schmidt RJ, Johnson GO.

Appl Psychophysiol Biofeedback. 2019 Sep 7. doi: 10.1007/s10484-019-09450-2. [Epub ahead of print]

PMID:
31494754
2.

Neuromuscular responses of recreationally active women during a sustained, submaximal isometric leg extension muscle action at a constant perception of effort.

Keller JL, Housh TJ, Hill EC, Smith CM, Schmidt RJ, Johnson GO.

Eur J Appl Physiol. 2018 Dec;118(12):2499-2508. doi: 10.1007/s00421-018-3976-y. Epub 2018 Aug 27.

PMID:
30151687
3.

Inter- and Intra-Individual Differences in EMG and MMG during Maximal, Bilateral, Dynamic Leg Extensions.

Anders JPV, Smith CM, Keller JL, Hill EC, Housh TJ, Schmidt RJ, Johnson GO.

Sports (Basel). 2019 Jul 18;7(7). pii: E175. doi: 10.3390/sports7070175.

4.

Development of muscle fatigue as assessed by electromyography and mechanomyography during continuous and intermittent low-force contractions: effects of the feedback mode.

Madeleine P, Jørgensen LV, Søgaard K, Arendt-Nielsen L, Sjøgaard G.

Eur J Appl Physiol. 2002 May;87(1):28-37. Epub 2002 Mar 13.

PMID:
12012073
5.

Effects of Velocity on Electromyographic, Mechanomyographic, and Torque Responses to Repeated Eccentric Muscle Actions.

Hill EC, Housh TJ, Camic CL, Smith CM, Cochrane KC, Jenkins ND, Cramer JT, Schmidt RJ, Johnson GO.

J Strength Cond Res. 2016 Jun;30(6):1743-51. doi: 10.1519/JSC.0000000000001266.

PMID:
26566165
6.

Inter-individual variability in the patterns of responses for electromyography and mechanomyography during cycle ergometry using an RPE-clamp model.

Cochrane-Snyman KC, Housh TJ, Smith CM, Hill EC, Jenkins ND, Schmidt RJ, Johnson GO.

Eur J Appl Physiol. 2016 Sep;116(9):1639-49. doi: 10.1007/s00421-016-3394-y. Epub 2016 Jun 20.

PMID:
27325528
7.

Electromyographic, mechanomyographic, and metabolic responses during cycle ergometry at a constant rating of perceived exertion.

Cochrane KC, Housh TJ, Jenkins ND, Bergstrom HC, Smith CM, Hill EC, Johnson GO, Schmidt RJ, Cramer JT.

Appl Physiol Nutr Metab. 2015 Nov;40(11):1178-85. doi: 10.1139/apnm-2015-0144. Epub 2015 Aug 4.

PMID:
26481288
8.

A mechanomyographic frequency-based fatigue threshold test.

Hendrix CR, Housh TJ, Zuniga JM, Camic CL, Mielke M, Johnson GO, Schmidt RJ.

J Neurosci Methods. 2010 Mar 15;187(1):1-7. doi: 10.1016/j.jneumeth.2009.11.019. Epub 2009 Nov 27.

PMID:
19945484
9.

Muscle- and Mode-Specific Responses of the Forearm Flexors to Fatiguing, Concentric Muscle Actions.

Hill E, Housh T, Smith C, Schmidt R, Johnson G.

Sports (Basel). 2016 Sep 30;4(4). pii: E47. doi: 10.3390/sports4040047.

10.

Sex-Related Differences in the Accuracy of Estimating Target Force Using Percentages of Maximal Voluntary Isometric Contractions vs. Ratings of Perceived Exertion During Isometric Muscle Actions.

Keller JL, Housh TJ, Smith CM, Hill EC, Schmidt RJ, Johnson GO.

J Strength Cond Res. 2018 Nov;32(11):3294-3300. doi: 10.1519/JSC.0000000000002210.

PMID:
29176386
11.

Mechanomyographic and electromyographic responses of the vastus medialis muscle during isometric and concentric muscle actions.

Coburn JW, Housh TJ, Cramer JT, Weir JP, Miller JM, Beck TW, Malek MH, Johnson GO.

J Strength Cond Res. 2005 May;19(2):412-20.

PMID:
15903384
12.

Combining regression and mean comparisons to identify the time course of changes in neuromuscular responses during the process of fatigue.

Smith CM, Housh TJ, Jenkins ND, Hill EC, Cochrane KC, Miramonti AA, Schmidt RJ, Johnson GO.

Physiol Meas. 2016 Nov;37(11):1993-2002. Epub 2016 Oct 18.

PMID:
27754975
13.

Electromyographic and mechanomyographic responses across repeated maximal isometric and concentric muscle actions of the leg extensors.

Camic CL, Housh TJ, Zuniga JM, Russell Hendrix C, Bergstrom HC, Traylor DA, Schmidt RJ, Johnson GO.

J Electromyogr Kinesiol. 2013 Apr;23(2):342-8. doi: 10.1016/j.jelekin.2012.09.010. Epub 2012 Oct 25.

PMID:
23102832
14.

Effect of sex on torque, recovery, EMG, and MMG responses to fatigue.

Hill EC, Housh TJ, Smith CM, Cochrane KC, Jenkins NDM, Cramer JT, Schmidt RJ, Johnson GO.

J Musculoskelet Neuronal Interact. 2016 Dec 14;16(4):310-317.

15.

A new EMG frequency-based fatigue threshold test.

Hendrix CR, Housh TJ, Johnson GO, Mielke M, Camic CL, Zuniga JM, Schmidt RJ.

J Neurosci Methods. 2009 Jun 30;181(1):45-51. doi: 10.1016/j.jneumeth.2009.04.011. Epub 2009 Apr 24.

PMID:
19394361
16.

Time course of changes in neuromuscular responses during rides to exhaustion above and below critical power.

Dinyer TK, Byrd MT, Cochrane-Snyman KC, Jenkins NΝ, Housh TJ, Schmidt RJ, Johnson GO, Bergstrom HC.

J Musculoskelet Neuronal Interact. 2019 Sep 1;19(3):266-275.

17.

The effect of epoch length on time and frequency domain parameters of electromyographic and mechanomyographic signals.

Keller JL, Housh TJ, Camic CL, Bergstrom HC, Smith DB, Smith CM, Hill EC, Schmidt RJ, Johnson GO, Zuniga JM.

J Electromyogr Kinesiol. 2018 Jun;40:88-94. doi: 10.1016/j.jelekin.2018.04.003. Epub 2018 Apr 22.

PMID:
29704787
18.

The influence of muscle fiber type composition on the patterns of responses for electromyographic and mechanomyographic amplitude and mean power frequency during a fatiguing submaximal isometric muscle action.

Beck TW, Housh TJ, Fry AC, Cramer JT, Weir JP, Schilling BK, Falvo MJ, Moore CA.

Electromyogr Clin Neurophysiol. 2007 Jul;47(4-5):221-32.

PMID:
17711040
19.
20.

Mechanomyographic and electromyographic responses to repeated concentric muscle actions of the quadriceps femoris.

Ebersole KT, O'Connor KM, Wier AP.

J Electromyogr Kinesiol. 2006 Apr;16(2):149-57. Epub 2005 Sep 1.

PMID:
16139522

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