Building Chest Muscles Directions - Belle Vernon Area School District

... 4. Use the stand-off on the arm to help build this muscle. As the scapula or shoulder blade is not present, build muscle as if they are extending back to the scapula. By placing the clay from the ribs to the stand-off, these muscles will look like they extend to the scapula once the arm is reattache ...

Muscle

... Broad, flat superficial muscle covering the back of the neck and upper and middle region of the back Controlling the shoulder blade and the swinging movements of the arm ...

Muscular System

... Broad, flat superficial muscle covering the back of the neck and upper and middle region of the back Controlling the shoulder blade and the swinging movements of the arm ...

Sternalis muscle - Journal of Morphological Science

... The unilateral presence of the sternalis muscle is two times more common in comparison with its bilateral presence and its presentation can occur in a lot of different ways (Figure 3). The sternalis muscle can represent a pectoralis major muscle that was not totally developed, representing a residue ...

Digital Game

... C. Long Thoracic Nerve D. Posterior Interosseous Nerve ...

Motor systems

... Range in size from a few muscle fibers (e.g. extraocular muscles) To hundreds of fibers (e.g. digits) To thousands of fibers (e.g. trunk and major limb segments) Smaller motor units yield more refined control a motor “fovea” ...

sarcomere

... Range in size from a few muscle fibers (e.g. extraocular muscles) To hundreds of fibers (e.g. digits) To thousands of fibers (e.g. trunk and major limb segments) Smaller motor units yield more refined control a motor “fovea” ...

Chap 10 - Muscles

... • Direction of ______ – e.g., rectus (fibers run straight), transversus, and oblique (fibers run at angles to an imaginary defined axis) • Number of _______ – e.g., biceps (two origins) and triceps (three origins) • Location of ____________ – named according to point of origin or insertion • ______ ...

Energy Sources for Muscle Contraction

... This also reviews and/or uses some basic principles of cellular respiration. ...

Anterior triangle of neck

... It descends lateral to the ICA & CCA then anterolateral to the carotid artery during its descent in the neck . At the root of neck; it joins the subclavian vein to form the brachiocephalic vein . ...

Muscular System

... The muscular system of the body provides movement. The skeletal muscles that you will be learning the names and actions of in this lesson are found attached to the bones of the skeleton. Muscle is a type of tissue that can contract. During contraction, the muscle shortens, pulling the attached bone ...

Kinesiology Chapter 9 Review 1.

... The origin of the _____________ muscle is the lower borders of the transverse processes of lumbar vertebrae (L1-L5), inner surface of the ilium, sides of the bodies of the last thoracic vertebra (T12), all the lumbar vertebrae (L1-5), intervertebral fibrocartilages, and base of sacrum. a. Sartorius ...

Left Subclavian Vein Anatomy

... - in an adult: 3-4cm in length an 1-2cm in diameter - formed from the axillary veins at the lateral border of the first rib - joins the brachiocephalic vein to become the superior vena cava ANATOMICAL RELATIONSHIPS - superior: clavicle - inferior: pleura - posterior: anterior scalene muscle + subcla ...

REC 3015 Flexibility Training

... Active ROM- Dynamic Flexibility- degree to which a joint can be moved by a muscle contraction Dynamic stretching- no longer than 6 sec holds, do not want to relax the muscle There are many times a mm is forced to stretch beyond its normal active limits , if there isn’t enough elasticity to compensat ...

volkmanns contracture

... 4. FDP released to interosseous crista (where interosseous membrane starts), dissecting across membrane to the radial side 5. Muscle origins are then fixed to periosteum further distally 6. Careful to avoid injury to the common interosseous artery passing through the space Moderate type  Curve inci ...

Stress Fracture of the Leg

... Stress Fracture of the Leg is a hairline crack that can occur in either one of the two bones of lower leg, but they are more common in the tibia (shin bone) than in the fibula. Stress fractures are caused by overuse or prolonged use of the leg in impact activities such as running. Symptoms of leg st ...

Parenteral Medication Administration

... below the greater trochanter and one handbreadth above the knee. Width of area is from the midline on the anterior surface of the thigh to midline on the lateral thigh. Best to inject into outer middle third of the thigh. No major vessels or nerves to avoid. ...

Longissimus Thoracis Muscle

... ‘longissimus’ means the longest and the longissimus muscle is the longest muscle among the sacrospinalis. Also, the longissimus is the largest muscle among the sacrospinalis. The action of the longisimus muscle is to extend and bend the trunk, neck, and head. The origin is the transverse process at ...

LINGUISTICS 330 Lecture #5

... they have their attachment within the larynx they are concerned with the control of vocal fold behaviour: abduction adduction tensioning ...

Flexibility

... receptors, located within tendons detect and respond to _______ caused either by muscle contraction or by being stretched - Sends message to spinal cord, which sends a message back to the muscle to _______ ...

Last_hip_and_thigh_lecture

... The most common relationship between the piriformis muscle and the nerve • The whole sciatic nerve passes inferior to the piriformis muscle as it enters the gluteal region • The sciatic nerve is the most lateral structure emerging inferior to the muscle ...

Chapter 2

... articulate- To fit into each other fracture- A break in the bone skeletal (voluntary) muscle- Muscle that is under direct voluntary control of the brain smooth muscle- The muscles found in the walls of the internal organs and blood vessels, generally not under voluntary control involuntary muscle- S ...

Muscle…there are three type of muscle :skeletal , smooth , cardiac

... storage organ such as the urinary bladder or the uterus , the fibers are irregularly arranged &interlaced with one another . their contraction is slow & sustained & brings about the expulsion of the contents of the organs . in the walls of the blood vessels the smooth muscle fiber are arranged circu ...

Turtle Muscles

... Retrahens capitis collique: lateral to the longus colli; responsible for retracting the neck. Depressor mandibuli: lateral jaw muscle securing the articular and quadrate. Biventer cervical: mid-dorsal muscle that is medial to the latissimus coli. Transverse cervical: lateral to the spinal cervical a ...

anteriorly

... • Near its emergence from the skull, receives branches from the upper cervical nerve (C-1). • These cervical fibers leave the nerve as the superior root of the ansa cervicalis. • Innervates the muscles of the tongue. ...

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Smooth muscle tissue

Smooth muscle is an involuntary non-striated muscle. It is divided into two subgroups; the single-unit (unitary) and multiunit smooth muscle. Within single-unit cells, the whole bundle or sheet contracts as a syncytium (i.e. a multinucleate mass of cytoplasm that is not separated into cells). Multiunit smooth muscle tissues innervate individual cells; as such, they allow for fine control and gradual responses, much like motor unit recruitment in skeletal muscle.Smooth muscle is found within the walls of blood vessels (such smooth muscle specifically being termed vascular smooth muscle) such as in the tunica media layer of large (aorta) and small arteries, arterioles and veins. Smooth muscle is also found in lymphatic vessels, the urinary bladder, uterus (termed uterine smooth muscle), male and female reproductive tracts, gastrointestinal tract, respiratory tract, arrector pili of skin, the ciliary muscle, and iris of the eye. The structure and function is basically the same in smooth muscle cells in different organs, but the inducing stimuli differ substantially, in order to perform individual effects in the body at individual times. In addition, the glomeruli of the kidneys contain smooth muscle-like cells called mesangial cells.

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Smooth muscle tissue