Tap-Elicited Clonus of the Biceps and Triceps Brachii

This study aimed to characterise the fibre composition of Triceps brachii (TB) and Semimembranosus (SM) muscles from 20 Maremmana (MA) and 20 Aubrac (AU) steers, and the effect of grazing activity in comparison with feedlot system. The histochemical method was performed with the m-ATPase method with an acid pre-incubation, thus allowing to distinguish type I, IIA, and IIB fibres. Additionally, on total RNA extracted from SM muscle, the expressions of atp1a1, mt-atp6, and capn1 genes were evaluated, in order to find potential associations with muscle fibre histochemical characteristics. In SM muscle, the MA steers had the greater frequency of oxidative fibres (type I and IIA) and the higher atp1a1 expression, in comparison to AU steers. Conversely, AU steers had a greater frequency of type IIB fibres, and the higher capn1 expression. A similar histochemical pattern was observed in TB muscle. The grazing activity was probably insufficient to determine differences both for fibre proportion and size, and gene expressions, except for mt-atp6 expression that was surprisingly highest in feedlot MA in comparison to other steers. These findings further the knowledge of muscle properties belonging to these breeds, and the effect of voluntary physical activity since few studies were available in this regard.

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Activation patterns of the triceps brachii muscle during sub-maximal elbow extension

Medicine & Science in Sports & Exercise ◽

10.1249/00005768-198712000-00013 ◽

1987 ◽

Vol 19 (6) ◽

pp. 616???620 ◽

Cited By ~ 6

Author(s):

MARK D. GRABINER ◽

VICKY JAQUE

Keyword(s):

Elbow Extension ◽

Triceps Brachii ◽

Activation Patterns ◽

Triceps Brachii Muscle

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Postexercise hypotension causes a prolonged perturbation in esophageal and active muscle temperature recovery

AJP Regulatory Integrative and Comparative Physiology ◽

10.1152/ajpregu.00918.2005 ◽

2006 ◽

Vol 291 (3) ◽

pp. R580-R588 ◽

Cited By ~ 24

Author(s):

Glen P. Kenny ◽

Ollie Jay ◽

Wytek M. Zaleski ◽

Mark L. Reardon ◽

Ronald J. Sigal ◽

...

Keyword(s):

Temperature Profile ◽

Recovery Period ◽

Peak Oxygen Consumption ◽

Muscle Temperature ◽

Triceps Brachii ◽

Active Muscle ◽

Bilateral Knee ◽

Collateral Artery ◽

Postexercise Recovery ◽

Exercise Induced

We examined the effect of two levels of exercise-induced hypotension on esophageal (Tes) and active and nonactive muscle temperatures during and following exercise. Seven males performed an incremental isotonic test on a Kin-Com isokinetic apparatus to determine their peak oxygen consumption during bilateral knee extensions (V̇o2sp). This was followed on separate days by 15-min of isolated bilateral knee extensions at moderate (60% V̇o2sp) (MEI) and high (80% V̇o2sp) (HEI) exercise intensities, followed by 90 min of recovery. Muscle temperature was measured with an intramuscular probe inserted in the left vastus medialis (Tvm) and triceps brachii (Ttb) muscles under ultrasound guidance. The deepest sensor (tip) was located ∼10 mm from the femur and deep femoral artery and from the superior ulnar collateral artery and humerus for the Tvm and Ttb, respectively. Additional sensors were located 15 and 30 mm from the tip with an additional sensor located at 45 mm for the Tvm measurements only. Following exercise, mean arterial pressure (MAP) remained significantly below preexercise rest for the initial 60 min of recovery after MEI and for the duration of the postexercise recovery period after HEI ( P ≤ 0.05). After HEI, significantly greater elevations from preexercise rest were recorded for Tes and all muscle temperatures paralleled a greater decrease in MAP compared with MEI (all P ≤ 0.05). By the end of 90-min postexercise recovery, MAP, Tes, and all muscle temperatures remained significantly greater after HEI than MEI. Furthermore, a significantly shallower muscle temperature profile across Tvm, relative to preexercise rest, was observed at the end of exercise for both HEI and MEI ( P ≤ 0.05), and for 30 min of recovery for MEI and throughout 90 min of recovery for HEI. No significant differences in muscle temperature profile were observed for Ttb. Thus we conclude that the increase in the postexercise hypotensive response, induced by exercise of increasing intensity, was paralleled by an increase in the magnitude and recovery time of the postexercise esophageal and active muscle temperatures.

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Biomechanical properties of triceps brachii tendon after in vitro simulation of different posterior surgical approaches

Journal of Shoulder and Elbow Surgery ◽

10.1016/j.jse.2007.02.137 ◽

2007 ◽

Vol 16 (6) ◽

pp. 849-853 ◽

Cited By ~ 16

Author(s):

Mounir Guerroudj ◽

Jean-Charles de Longueville ◽

Marcel Rooze ◽

Maurice Hinsenkamp ◽

Véronique Feipel ◽

...

Keyword(s):

Biomechanical Properties ◽

Surgical Approaches ◽

Triceps Brachii ◽

In Vitro Simulation

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Electrophysiological study of the dominant motor innervation to the extensor digitorum communis muscle and long head of triceps brachii at posterior divisions of brachial plexus

Microsurgery ◽

10.1002/micr.20911 ◽

2011 ◽

Vol 31 (7) ◽

pp. 535-538 ◽

Cited By ~ 8

Author(s):

Wen-Jun Li ◽

Shu-Feng Wang ◽

Peng-Chen Li ◽

Yu-Cheng Li ◽

Ya-Di Jin ◽

...

Keyword(s):

Brachial Plexus ◽

Electrophysiological Study ◽

Extensor Digitorum ◽

Extensor Digitorum Communis ◽

Motor Innervation ◽

Triceps Brachii ◽

Long Head

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Paper #54 Surgical anatomy of the triceps brachii tendon insertion: anatomic study and clinical correlation

Arthroscopy The Journal of Arthroscopic and Related Surgery ◽

10.1016/s0749-8063(03)00455-9 ◽

2003 ◽

Vol 19 (6) ◽

pp. 28

Author(s):

Robert G Marx ◽

Michael Madsen ◽

Peter J Millett ◽

John W Sperling ◽

Russell F Warren

Keyword(s):

Surgical Anatomy ◽

Clinical Correlation ◽

Anatomic Study ◽

Triceps Brachii ◽

Tendon Insertion

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Influence of muscle anatomical cross-sectional area on the moment arm length of the triceps brachii muscle at the elbow joint

Journal of Biomechanics ◽

10.1016/j.jbiomech.2010.06.013 ◽

2010 ◽

Vol 43 (14) ◽

pp. 2844-2847 ◽

Cited By ~ 16

Author(s):

Norihide Sugisaki ◽

Taku Wakahara ◽

Naokazu Miyamoto ◽

Koichiro Murata ◽

Hiroaki Kanehisa ◽

...

Keyword(s):

Elbow Joint ◽

Cross Sectional Area ◽

Sectional Area ◽

Moment Arm ◽

Triceps Brachii ◽

Cross Sectional ◽

Triceps Brachii Muscle ◽

The Moment

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Electrical activity and relative length changes of dog limb muscles as a function of speed and gait

Journal of Experimental Biology ◽

10.1242/jeb.94.1.15 ◽

1981 ◽

Vol 94 (1) ◽

pp. 15-42 ◽

Cited By ~ 1

Author(s):

G. E. Goslow ◽

H. J. Seeherman ◽

C. R. Taylor ◽

M. N. McCutchin ◽

N. C. Heglund

Keyword(s):

Electrical Activity ◽

Stance Phase ◽

Biceps Brachii ◽

Vastus Lateralis ◽

Activity Patterns ◽

Relative Length ◽

Muscular Activity ◽

Triceps Brachii ◽

Limb Muscles ◽

Length Changes

Electrical activity and length changes of 11 muscles of the fore- and hind- limbs of dogs walking, running, and galloping on a treadmill, were measured as a function of forward speed and gait. Our purpose was to find out whether the activity patterns of the major limb muscles were consistent with the two mechanisms proposed for storage and recovery of energy within a stride: a ‘pendulum-like’ mechanism during a walk, and a ‘spring-like’ mechanism during a run. In the stance phase of the walking dog, we found that the supraspinatus, long head of the triceps brachii, biceps brachii, vastus lateralis, and gastrocnemius underwent only minor length changes during a relatively long portion of their activity, Thus, a major part of their activity during the walk seems consistent with a role in stabilization of the joints as the dog ‘pole-vaulted’ over its limbs (and thereby conserved energy). In the stance phase of trotting and/or galloping dogs, we found that the supraspinatus, lateral head of the triceps, vastus lateralis, and gastrocnemius were active while being stretched prior to shortening (as would be required for elastic storage of energy), and that this type of activity increased with increasing speed. We also found muscular activity in the select limb flexors that was consistent with storage of kinetic energy at the end of the swing phase and recovery during the propulsive stroke. This activity pattern was apparent in the latissimus dorsi during a walk and trot, and in the biceps femoris during a trot and gallop. We conclude that, during locomotion, a significant fraction of the electrical activity of a number of limbs muscles occurs while they undergo little or no length change or are being stretched prior to shortening and that these types of activities occur in a manner that would enable the operation of pendulum-like and spring-like mechanisms for conserving energy within a stride. Therefore these forms of muscular activity, in addition to the more familiar activity associated with muscle shortening, should be considered to be important during locomotion.

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