10.6084/m9.figshare.11787090.v1
Angus Lindsay
Angus
Lindsay
Cory Baumann
Cory
Baumann
Robyn Rebbeck
Robyn
Rebbeck
Samantha Yuen
Samantha
Yuen
William Southern
William
Southern
James Hodges
James
Hodges
Razvan Cornea
Razvan
Cornea
David Thomas
David
Thomas
James Ervasti
James
Ervasti
Dawn Lowe
Dawn
Lowe
Additional file 5 of Mechanical factors tune the sensitivity of mdx muscle to eccentric strength loss and its protection by antioxidant and calcium modulators
Springer Nature
2020
Dystrophin
Eccentric contraction
Force drop
Muscle damage
Oxidative stress
Ryanodine receptor
SERCA
Skeletal muscle
2020-02-02 04:20:57
Figure
https://springernature.figshare.com/articles/figure/Additional_file_5_of_Mechanical_factors_tune_the_sensitivity_of_mdx_muscle_to_eccentric_strength_loss_and_its_protection_by_antioxidant_and_calcium_modulators/11787090
Additional file 5: Figure S5. Submaximal ECC induce no to minimal loss of force in isolated mdx EDL muscle (A) Eccentric force (muscle tension) as a fraction of maximal isometric tetanic force (ECC:ISO force) for each eccentric protocol and (B) when collapsed into length changes. * Different from 5%, #10%, $20%. (C) Isometric tetanic force as a percent of initial for each protocol and (D) when collapsed into length changes following 10 eccentric contractions at 35 Hz. * Different from initial. Data are mean ± S.E.M with significance set at p < 0.05. N = 3/protocol.