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The Muscular System Lab 7 Expanded Studies Objectives • Identify the muscle types & their indicated cellular structures from prepared slides • Identify the portions of skeletal muscle from diagrams, slides and models • Identify the indicated structures of the neuromuscular junction from a prepared slide • Identify the human muscles from models and diagrams Objective 1 Types of Muscle Tissue SKELETAL MUSCLE Structure of SKELETAL MUSCLE Muscle Fascicles Muscle Fibers (cells) A muscle cell (fiber) is a bundle of myofibrils Myofibrils Skeletal Muscle Location Structure Function Attached to the skeleton Long, thin cells (fibers) are: - striated - multinucleated - nuclei are in the periphery of the cell posture, movement, stabilizes joints The plasma membrane of the muscle fiber Skeletal Muscle Note multi-nucleation Whole mount, oil immersion Skeletal Muscle Note nuclei on the periphery of the cells (fibers) Longitudinal section, oil immersion Striations: A bands & I bands (dark bands) (light bands) Striations in skeletal muscle due to sarcomeres Striations of the myofibrils are seen through the muscle fiber A-bands, I-bands, Sarcomeres, & Sarcolemma I I I A A A A I A A I I Sarcomeres Sarcolemma A I Sarcomere Your turn! Identify these structures: Nuclei Sarcolemma A-band I-band SKELETAL MUSCLE - Review Muscle Fiber I-Band A-Band CARDIAC MUSCLE The heart muscle (myocardium) forms the bulk of the heart. It is arranged in a spiral or circular bundles. Cardiac muscle bundles “Helical heart” model Cardiac Muscle Location Structure Function Wall of the heart Cells (myocytes) are: provide pressure - faintly striated - branching for the circulation of blood - with one (or two) centrally placed nuclei Cells are connected by intercalated discs (gap junctions/desmosomes) Intercalated Disc Nucleus Cardiac Muscle Branching cells Central nuclei Intercalated disk Cardiac Muscle Branching cells Central nuclei ? Intercalated disk Cardiac Muscle – Can you see the intercalated discs? Intercalated discs SMOOTH MUSCLE Smooth muscle is found in the walls of hollow visceral organs. Contractions force fluids and other substances along. Cells are arranged closely to form sheets. Epithelial Tissue C.T. C.T. Connective Tissue C. T. Epithelial Tissue Smooth Muscle Location Walls of hollow organs Structure Cells are: - spindle shaped - have a single nucleus - not striated Function move fluids and other contents nucleus Smooth Muscle Cells are arranged closely to form sheets. Smooth Muscle Note cell and nucleus shapes REVIEW – Identify the muscle type of each Cardiac muscle Skeletal muscle Smooth muscle Objective 2 Connective Tissue Coverings of Skeletal Muscle Note that the endomysium surrounds the sarcolemma Skeletal Muscle, cs & ls A muscle fiber is filled with myofibrils Cross section through a skeletal muscle Epimysium Perimysium Endomysium / muscle fiber Epimysium Perimysium / Fascicle Endomysium / muscle fiber Cross section through a skeletal muscle Fascicle Perimyseum Endomysium Cross section through a skeletal muscle endomysium Magnified image Your turn! Identify these: Epimysium Endomysium Fascicle Perimysium Objective 3 Neuromuscular Junction Reflex Arc Neuromuscular junction (Myoneural junction) Neuromuscular Junction Skeletal muscle fiber Skeletal muscle fiber Motor Neuron Axon Axon Terminal Identify each structure: Neuron Axon Axon Terminal Objective 4 Human Muscles Frontal region Think: orbit Frontalis Orbicularis oculi Orbicularis oris Mental region Mentalis Buccal region Buccinator Occipitalis Sternocleidomastoid Sternum, Clavicle, Mastoid process Masseter Trapezius Think: “mass eater” Occipital region Smaller muscle of the chest Delta = “triangular” Pectoralis minor Deltoid Pectoralis major Larger muscle of the chest Serratus anterior Serratus anterior serrated, towards the front Subscapularis Subscapular fossa Intercostal = between the ribs Internal intercostals * Medial External intercostals * External (superficial) to the Internal intercostals * Lateral Deepest abdominal muscle; Fibers run transversely Transverse abdominus Rectus abdominus Rectus = “erect” Internal oblique Fibers run External oblique Fibers run External oblique Most external abdominal muscle Think: trapezoid or trapeze Trapezius Splenius capitis Levator scapulae Caput = “head” Think: Cap Elevates the scapula Supraspinatus Infraspinatus Teres major Below the spine of the scapula Infraspinatus Rhomboid minor Rhomboid major Latissimus = widest Dorsi = “back” Think: Lat - lateral Latissumus dorsi Above the spine of the scapula Below the spine of the scapula Splenion = “bandage” Caput = “head” Splenius capitis Elevates the scapula Levator scapulae Supraspinatus Teres minor Infraspinatus Teres major Teres = “round” Major = “larger” Minor = “lesser” Teres major Infraspinatus Supraspinous fossa Infraspinous fossa Rhomboid minor Rhomboid = “diamond-shaped” Muscles that “squares the Rhomboid shoulders” major Longissimus External intercostals (longest) Iliocostalis (most lateral) Ilium + Costals Semispinalis Spinalis (most medial) (along spine) Anterior Iliopsoas Psoas major Iliacus = Ilium Iliacus Thigh adductors: Tensor = tension Tensor fasciae latae Pectineus Latae – Think: latte Pecten = “comb” Adductor longus Rectus = “erect” Vastus lateralis Rectus femoris Vastus medialis Pectineus Adductors Gracilis Femoris = femur Gracilis = “slender” ~~ Gracilis Sartorius Vastus = “vast” (large) Lateralis = lateral Medialis = medial Sartor = “tailor” Tailor’s muscle – cross-legged position Anterior Anterior deep Adductor = adducts the thigh Brevis = “short” Longus = “long” Adductor magnus Pectineus Adductor brevis Magnus = “large” Adductor longus Most superficial of the adductors Adductor longus Adductor magnus Gracilis Deepest of the adductors; Extends the entire diaphysis of the femur Posterior Glutos = “buttock” Minimus = “smallest” Gluteus minimus Biceps = “2 heads” Femoris – femur Rectus = “erect” Femoris = femur Semi = “half” Adductor magnus Gracilis Tendinosus = “tendon” Semimembranosus Semitendinosus Membranosus = “membrane” Biceps femoris (Medial) (Lateral) Think: TM (trademark) “T” is superficial to “M” Anterior to the tibia Tibialis anterior Extensor digitorum longus Think: gas truck knee me us Posterior to the tibia Gastrocnemius Tibialis posterior Soleus Fibularis longus Fibularis longus Fibularis brevis Extensor halicus longus Flexor digitorum longus Fibularis brevis Subscapularis Subscapular fossa Biceps brachii 2 heads Biceps brachii Brachialis Brachialis Brachi = “arm” Brachioradialis Brachialis Brachioradialis Brachioradialis E.C.R. longus E.C.R. brevis Longus = “long” Extensor carpi radialis longus Extensor carpi radialis brevis Brevis = “short” Extensor carpi = Pronates Pronator teres Flexes the carpals along Flexor carpi the radius radialis To the center of the palm Palmaris longus Flexes the Flexor carpi carpals along ulnaris the ulna Extensor digitorum Originates “higher” up the brachial region than the others Brachial + Radius Brachioradialis Supinates Supinator Extends the digits Extensor carpi ulnaris Extends the carpals along the ulna extends the wrist Pronator teres How many of these muscles can you name? See next slide Identify the muscles 1 Frontalis Masseter 11 Mentalis 2 Sternocleidomastoid 12 Deltoid 13 Triceps Brachii 14 Pectoralis 3 major Extensor carpi 15radialis longus Biceps 4 Brachii Extensor carpi 16radialis brevis Extensor digitorum 17 5 Rectus abdominus 18dorsi Latissimus Serratus 19 anterior Rectus 6 femoris External 20 oblique 7 lateralis Vastus 21 Tensor fasciae latae Biceps femoris 22 8 anterior Tibialis Extensor digitorum longus 9 Fibularis 10 longus Soleus23 Gastrocnemius 24
