|
UPT. PERPUSTAKAAN
Universitas Esa Unggul
Kampus Emas UEU - Jakarta Barat
|
Phone |
: |
021-5674223, ext 282 |
Fax |
: |
|
E-mail |
: |
[email protected] |
Website |
: |
http://library.esaunggul.ac.id
|
Support (Customer Service) :
|
[email protected] |
|
|
Welcome..guys!
|
Have a problem with your access?
Please, contact our technical support below:
|
LIVE SUPPORT
Astrid Chrisafi
|
! ATTENTION !
To facilitate the activation process, please fill out the member application form correctly and completely
Registration activation of our members will process up to max 24 hours (confirm by email). Please wait patiently
Still Confuse?
Please read our User Guide
|
|
UEU » Master Theses » Magister Administrasi Publik Posted by [email protected] at 13/12/2014 11:42:34 • 3503 Views
ACUTE AND EARLY CHRONIC
RESPONSES TO RESISTANCE
EXERCISE USING
FLYWHEEL OR WEIGHTSCreated by :
Lena Norrbrand ( 33 )
Subject: | ACUTE AND EARLY CHRONIC
RESPONSES TO RESISTANCE
EXERCISE USING
FLYWHEEL OR WEIGHTS | Alt. Subject : | ACUTE AND EARLY CHRONIC
RESPONSES TO RESISTANCE
EXERCISE USING
FLYWHEEL OR WEIGHTS | Keyword: | ACUTE AND EARLY CHRONIC
RESPONSES TO RESISTANCE
EXERCISE USING
FLYWHEEL OR WEIGHTS |
Description:
Weight training typically offers constant external load during coupled shortening
(concentric) and lengthening (eccentric) muscle actions in sets of consecutive repetitions
until failure. However, skeletal muscle inherently has the capability to produce greater
force in the eccentric compared with the concentric action, which allows for greater
loading during the eccentric action, i.e. �eccentric overload�. Thus, traditional weight
training uses a loading strategy, which appears to result in incomplete motor unit
recruitment and muscle use during most concentric actions and all eccentric actions of a
set. In contrast, the flywheel device, using the inertia of flywheel(s) to generate
resistance, allows for maximal voluntary force to be produced throughout each concentric
action with brief episodes of eccentric overload. This type of loading may potentially
increase motor unit recruitment and muscle use during acute resistance exercise, and as a
result may induce greater training adaptations when bouts are repeated.
The aim of the present thesis was to explore the fatigue response of the quadriceps
muscle during flywheel exercise, and to compare quadriceps muscle use and adaptations
to training in response to acute or chronic resistance exercise using traditional free
weights/weight stack machine or a flywheel apparatus.
Multichannel surface electromyographic (EMG) signals were recorded from the
quadriceps muscle of nine men, to assess fatigue during consecutive concentric-eccentric
actions performed using the flywheel device. There was marked fatigue during both the
concentric and eccentric actions. Results further showed a discrepancy between
normalized rate of decrease of instantaneous mean power spectral frequency (iMNF) and
conduction velocity (CV), which may imply that iMNF will not accurately reflect
changes in CV during dynamic actions. Furthermore, to assess and compare quadriceps
muscle use in the two loading features, five resistance trained men performed free weight
and flywheel resistance exercise on separate days. Flywheel exercise induced greater over
all muscle use, showing greater over all EMG activity and increase in transverse
relaxation time (T2) of magnetic resonance images, compared with free weight exercise.
The greater muscle use shown with flywheel exercise appeared to result from the greater
forces produced during the flywheel compared with free weight exercise. Furthermore,
when fifteen healthy men were assigned to five weeks of unilateral knee extension
training using either a flywheel device or a weight stack machine, flywheel training
induced more robust muscular adaptations, i.e. increased volume of all four individual
quadriceps muscles and increased maximal isometric strength, compared with weight
stack training.
In summary, flywheel resistance exercise resulted in more robust muscular
adaptations compared with traditional resistance exercise using weights. Furthermore, the
flywheel device induced greater forces and muscle use during acute exercise. The marked
fatigue response during the coupled concentric-eccentric flywheel exercise is supported
of near maximal effort and hence muscle use, which is further suggested to, at least in
part, explain the more robust muscular adaptations following chronic flywheel resistance
exercise compared with traditional weight training.
Date Create | : | 13/12/2014 | Type | : | Text | Format | : | pdf | Language | : | Indonesian | Identifier | : | UEU-Master-undergraduate_33 | Collection ID | : | undergraduate_33 | Call Number | : | 751 LNa |
Source : magister these management of faculty
Relation Collection: Universitas Esa Unggul
Coverage : Civitas Akademika Universitas Esa Unggul
Rights : copyright2014_Library@esaunggul
Publication URL : https://digilib.esaunggul.ac.id/acute-and-early-chronicresponses-to-resistanceexercise-usingflywheel-or-weights-4175.html
[ Free Download - Free for All ]
- UEU-Master-4175-ABSTRAK1_ET000000036_Evawany.pdf - 175 KB
- UEU-Master-4175-COVER1_ET000000036_Evawany.pdf - 269 KB
- UEU-Master-4175-COVER,ISI1_ET00000033_Evawany.pdf - 70 KB
- UEU-Master-4175-DAFTAR ISI1_ET000000036_Evawany.pdf - 116 KB
- UEU-Master-4175-DAFTAR PUSTAKA1_ET000000036_Evawany.pdf - 180 KB
[ FullText Content - Please, register first ]
1. UEU-Master-4175-BAB 11_ET000000036_Evawany.pdf - 133 KB 2. UEU-Master-4175-BAB 21_ET000000036_Evawany.pdf - 79 KB 3. UEU-Master-4175-BAB 31_ET000000036_Evawany.pdf - 250 KB 4. UEU-Master-4175-BAB 41_ET000000036_Evawany.pdf - 213 KB 5. UEU-Master-4175-BAB 51_ET000000036_Evawany.pdf - 160 KB 6. UEU-Master-4175-BAB 61_ET000000036_Evawany.pdf - 149 KB
10 Similar Document...
No similar subject found !
10 Related Document...
|
POLLINGBagaimana pendapat Anda tentang repository kami ?
Visitors Today : 1
Total Visitor : 1970053
Hits Today : 8181
Total Hits : 155763741
Visitors Online: 1
Calculated since 16 May 2012
You are connected from 172.17.121.29 using Mozilla/5.0 AppleWebKit/537.36 (KHTML, like Gecko; compatible; ClaudeBot/1.0; [email protected])
|