Investigation of supraspinatus muscle architecture following concentric and eccentric training

To investigate the effects of concentric or eccentric abduction strength training on supraspinatus fiber bundle architecture and strength. A pre–post single-subject design. Thirteen participants were randomized to concentric (n=6) or eccentric (n=7) training groups. Participants completed an eight w...

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Published in	Journal of science and medicine in sport Vol. 18; no. 4; pp. 378 - 382
Main Authors	Kim, Soo Y., Ko, Jong Bum, Farthing, Jonathan P., Butcher, Scotty J.
Format	Journal Article
Language	English
Published	Australia Elsevier Ltd 01.07.2015 Elsevier Limited
Subjects	Adult Data collection Exercise Female Fiber bundle Humans Isometric Contraction Load Male Muscle Strength Organ Size Physical Medicine and Rehabilitation Rehabilitation Resistance Training - methods Rotator cuff Rotator Cuff - anatomy & histology Rotator Cuff - diagnostic imaging Rotator Cuff - physiology Shoulder Sports Medicine Sports training Studies Torque Ultrasonic imaging Ultrasonography Weightlifting Young Adult Torque Exercise Rehabilitation Fiber bundle Shoulder Rotator cuff
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ISSN	1440-2440 1878-1861 1878-1861
DOI	10.1016/j.jsams.2014.05.007

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Abstract	To investigate the effects of concentric or eccentric abduction strength training on supraspinatus fiber bundle architecture and strength. A pre–post single-subject design. Thirteen participants were randomized to concentric (n=6) or eccentric (n=7) training groups. Participants completed an eight week shoulder abduction training program in the scapular plane using an isokinetic dynamometer. Resistance training, requiring maximal effort on contraction, consisted of 4 sets of 8 reps at 60°/s in weeks 1–4, and 6 sets of 6 reps at 60°/s in weeks 5–8 with a frequency of 3×/week. Primary outcome measures included fiber bundle length, pennation angle, and muscle thickness of supraspinatus and these were quantified using ultrasound. Secondary outcome measures included isometric, eccentric and concentric abduction strength and these were evaluated using the isokinetic dynamometer. Mean fiber bundle length in the relaxed (p=0.033) and contracted (p=0.036) states significantly decreased with concentric training but remained unchanged with eccentric training. A significant increase in pennation angle, muscle thickness, and peak torque were found with training but no significant differences were detected between concentric and eccentric groups. Training mode has a significant impact on fiber bundle length changes of the supraspinatus. Eccentric training of shoulder abduction leads to similar strength gains as concentric, but it may also have the added advantages of maintaining fiber bundle lengths and promoting tendon healing. Study is needed to confirm fiber bundle changes in a clinical population which would further support the use of eccentric abduction strength training in rehabilitation settings.
AbstractList	To investigate the effects of concentric or eccentric abduction strength training on supraspinatus fiber bundle architecture and strength.OBJECTIVESTo investigate the effects of concentric or eccentric abduction strength training on supraspinatus fiber bundle architecture and strength.A pre-post single-subject design.DESIGNA pre-post single-subject design.Thirteen participants were randomized to concentric (n=6) or eccentric (n=7) training groups. Participants completed an eight week shoulder abduction training program in the scapular plane using an isokinetic dynamometer. Resistance training, requiring maximal effort on contraction, consisted of 4 sets of 8 reps at 60°/s in weeks 1-4, and 6 sets of 6 reps at 60°/s in weeks 5-8 with a frequency of 3×/week. Primary outcome measures included fiber bundle length, pennation angle, and muscle thickness of supraspinatus and these were quantified using ultrasound. Secondary outcome measures included isometric, eccentric and concentric abduction strength and these were evaluated using the isokinetic dynamometer.METHODSThirteen participants were randomized to concentric (n=6) or eccentric (n=7) training groups. Participants completed an eight week shoulder abduction training program in the scapular plane using an isokinetic dynamometer. Resistance training, requiring maximal effort on contraction, consisted of 4 sets of 8 reps at 60°/s in weeks 1-4, and 6 sets of 6 reps at 60°/s in weeks 5-8 with a frequency of 3×/week. Primary outcome measures included fiber bundle length, pennation angle, and muscle thickness of supraspinatus and these were quantified using ultrasound. Secondary outcome measures included isometric, eccentric and concentric abduction strength and these were evaluated using the isokinetic dynamometer.Mean fiber bundle length in the relaxed (p=0.033) and contracted (p=0.036) states significantly decreased with concentric training but remained unchanged with eccentric training. A significant increase in pennation angle, muscle thickness, and peak torque were found with training but no significant differences were detected between concentric and eccentric groups.RESULTSMean fiber bundle length in the relaxed (p=0.033) and contracted (p=0.036) states significantly decreased with concentric training but remained unchanged with eccentric training. A significant increase in pennation angle, muscle thickness, and peak torque were found with training but no significant differences were detected between concentric and eccentric groups.Training mode has a significant impact on fiber bundle length changes of the supraspinatus. Eccentric training of shoulder abduction leads to similar strength gains as concentric, but it may also have the added advantages of maintaining fiber bundle lengths and promoting tendon healing. Study is needed to confirm fiber bundle changes in a clinical population which would further support the use of eccentric abduction strength training in rehabilitation settings.CONCLUSIONSTraining mode has a significant impact on fiber bundle length changes of the supraspinatus. Eccentric training of shoulder abduction leads to similar strength gains as concentric, but it may also have the added advantages of maintaining fiber bundle lengths and promoting tendon healing. Study is needed to confirm fiber bundle changes in a clinical population which would further support the use of eccentric abduction strength training in rehabilitation settings. To investigate the effects of concentric or eccentric abduction strength training on supraspinatus fiber bundle architecture and strength. A pre–post single-subject design. Thirteen participants were randomized to concentric (n=6) or eccentric (n=7) training groups. Participants completed an eight week shoulder abduction training program in the scapular plane using an isokinetic dynamometer. Resistance training, requiring maximal effort on contraction, consisted of 4 sets of 8 reps at 60°/s in weeks 1–4, and 6 sets of 6 reps at 60°/s in weeks 5–8 with a frequency of 3×/week. Primary outcome measures included fiber bundle length, pennation angle, and muscle thickness of supraspinatus and these were quantified using ultrasound. Secondary outcome measures included isometric, eccentric and concentric abduction strength and these were evaluated using the isokinetic dynamometer. Mean fiber bundle length in the relaxed (p=0.033) and contracted (p=0.036) states significantly decreased with concentric training but remained unchanged with eccentric training. A significant increase in pennation angle, muscle thickness, and peak torque were found with training but no significant differences were detected between concentric and eccentric groups. Training mode has a significant impact on fiber bundle length changes of the supraspinatus. Eccentric training of shoulder abduction leads to similar strength gains as concentric, but it may also have the added advantages of maintaining fiber bundle lengths and promoting tendon healing. Study is needed to confirm fiber bundle changes in a clinical population which would further support the use of eccentric abduction strength training in rehabilitation settings. To investigate the effects of concentric or eccentric abduction strength training on supraspinatus fiber bundle architecture and strength. A pre-post single-subject design. Thirteen participants were randomized to concentric (n = 6) or eccentric (n = 7) training groups. Participants completed an eight week shoulder abduction training program in the scapular plane using an isokinetic dynamometer. Resistance training, requiring maximal effort on contraction, consisted of 4 sets of 8 reps at 60°/s in weeks 1-4, and 6 sets of 6 reps at 60°/s in weeks 5-8 with a frequency of 3×/week. Primary outcome measures included fiber bundle length, pennation angle, and muscle thickness of supraspinatus and these were quantified using ultrasound. Secondary outcome measures included isometric, eccentric and concentric abduction strength and these were evaluated using the isokinetic dynamometer. Mean fiber bundle length in the relaxed (p=0.033) and contracted (p=0.036) states significantly decreased with concentric training but remained unchanged with eccentric training. A significant increase in pennation angle, muscle thickness, and peak torque were found with training but no significant differences were detected between concentric and eccentric groups. Training mode has a significant impact on fiber bundle length changes of the supraspinatus. Eccentric training of shoulder abduction leads to similar strength gains as concentric, but it may also have the added advantages of maintaining fiber bundle lengths and promoting tendon healing. Study is needed to confirm fiber bundle changes in a clinical population which would further support the use of eccentric abduction strength training in rehabilitation settings. Abstract Objectives To investigate the effects of concentric or eccentric abduction strength training on supraspinatus fiber bundle architecture and strength. Design A pre–post single-subject design. Methods Thirteen participants were randomized to concentric ( n = 6) or eccentric ( n = 7) training groups. Participants completed an eight week shoulder abduction training program in the scapular plane using an isokinetic dynamometer. Resistance training, requiring maximal effort on contraction, consisted of 4 sets of 8 reps at 60°/s in weeks 1–4, and 6 sets of 6 reps at 60°/s in weeks 5–8 with a frequency of 3×/week. Primary outcome measures included fiber bundle length, pennation angle, and muscle thickness of supraspinatus and these were quantified using ultrasound. Secondary outcome measures included isometric, eccentric and concentric abduction strength and these were evaluated using the isokinetic dynamometer. Results Mean fiber bundle length in the relaxed ( p = 0.033) and contracted ( p = 0.036) states significantly decreased with concentric training but remained unchanged with eccentric training. A significant increase in pennation angle, muscle thickness, and peak torque were found with training but no significant differences were detected between concentric and eccentric groups. Conclusions Training mode has a significant impact on fiber bundle length changes of the supraspinatus. Eccentric training of shoulder abduction leads to similar strength gains as concentric, but it may also have the added advantages of maintaining fiber bundle lengths and promoting tendon healing. Study is needed to confirm fiber bundle changes in a clinical population which would further support the use of eccentric abduction strength training in rehabilitation settings.
Author	Kim, Soo Y. Butcher, Scotty J. Ko, Jong Bum Farthing, Jonathan P.
Author_xml	– sequence: 1 givenname: Soo Y. surname: Kim fullname: Kim, Soo Y. email: soo.kim@usask.ca organization: School of Physical Therapy, University of Saskatchewan, Canada – sequence: 2 givenname: Jong Bum surname: Ko fullname: Ko, Jong Bum organization: Department of Physiology, University of Saskatchewan, Canada1 – sequence: 3 givenname: Jonathan P. surname: Farthing fullname: Farthing, Jonathan P. organization: College of Kinesiology, University of Saskatchewan, Canada – sequence: 4 givenname: Scotty J. surname: Butcher fullname: Butcher, Scotty J. organization: School of Physical Therapy, University of Saskatchewan, Canada
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Snippet	To investigate the effects of concentric or eccentric abduction strength training on supraspinatus fiber bundle architecture and strength. A pre–post... Abstract Objectives To investigate the effects of concentric or eccentric abduction strength training on supraspinatus fiber bundle architecture and strength.... To investigate the effects of concentric or eccentric abduction strength training on supraspinatus fiber bundle architecture and strength. A pre-post... To investigate the effects of concentric or eccentric abduction strength training on supraspinatus fiber bundle architecture and strength. A pre-post... To investigate the effects of concentric or eccentric abduction strength training on supraspinatus fiber bundle architecture and strength.OBJECTIVESTo...
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SubjectTerms	Adult Data collection Exercise Female Fiber bundle Humans Isometric Contraction Load Male Muscle Strength Organ Size Physical Medicine and Rehabilitation Rehabilitation Resistance Training - methods Rotator cuff Rotator Cuff - anatomy & histology Rotator Cuff - diagnostic imaging Rotator Cuff - physiology Shoulder Sports Medicine Sports training Studies Torque Ultrasonic imaging Ultrasonography Weightlifting Young Adult
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Title	Investigation of supraspinatus muscle architecture following concentric and eccentric training
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