Summary

These notes provide a detailed overview of the human muscular system. They cover the characteristics of muscles, different types of muscle tissue, and the functions they perform. The document also includes descriptions of muscle structure and organization.

Full Transcript

The Muscular System DISCUSS THESE CHARACTERISTICS OF MUSCLES: EXCITABILITY, EXTENSIBILITY, ELASTICITY, AND CONTRACTILITY.  EXCITABILITY – can receive and respond to a stimulus  EXTENSIBILITY – the fibres can extend beyond original shape  ELATICITY – the ability of a muscle fibre to recoil...

The Muscular System DISCUSS THESE CHARACTERISTICS OF MUSCLES: EXCITABILITY, EXTENSIBILITY, ELASTICITY, AND CONTRACTILITY.  EXCITABILITY – can receive and respond to a stimulus  EXTENSIBILITY – the fibres can extend beyond original shape  ELATICITY – the ability of a muscle fibre to recoil and resume its resting length after being stretched  CONTRACTILITY – the fibres shortened when stimulated DISTINGUISH BETWEEN VOLUNTARY AND INVOLUNTARY MUSCLE AND RELATE TO THE THREE TYPES OF MUSCLE TISSUE.  SKELETAL - muscles that are usually attached to bones / voluntary  SMOOTH – walls of hollow internal organs / involuntary  CARDIAC – heart ♥ / involuntary DESCRIBE THE BASIC APPEARANCE OF THE VARIOUS TYPES OF MUSCLE. SKELETAL  cells are long / threadlike  striated  multinucleated  stimulated by a nerve fibre / contracts producing movements SMOOTH MUSCLE  no striations  individual smooth muscle cells are spindle shaped  only one centrally located nucleus CARDIAC  striated  uninucleated  branching cells that fit tightly together at unique junctions called intercalated disks DISCUSS THE MAJOR FUNCTIONS OF MUSCLES. MOVEMENT  all movements within the body require muscle contraction  skeletal muscles are responsible for all locomotion and manipulation  blood flowing through our vessels is the work of the heart’s contraction and the smooth walls of the vessels to maintain BP POSTURE MAINTENANCE  skeletal muscles must continually contract and relax to maintain posture – muscle tone JOINT STABILITY  as muscles pull on our bones and cause movements  they stabilize the joints of the skeleton  skeletal muscles stabilize joints that require extra stability (shoulder) HEAT GENERATION The Muscular System  as muscles contract they generate heat which is vital to maintain normal body temperature  skeletal muscle accounts for 40% of body mass GUARDS ENTRANCES / EXTIS  urinary / digestive system openings are guarded by two sets of muscles  the most external is composed of skeletal muscle and provides voluntary control over processes (swallowing / urination / defecation ) IDENTIFY THE MAIN ORGAN AND ACCESSORY STRUCTURES OF THE MUSCLE SYSTEM.  “machines of our body”  each skeletal muscle is an organ of the muscular system  tendons assist in the function of the muscular system EXPLAIN WHY MUSCLE IS AN ORGAN.  Definition: a structure consisting of a group of tissues with a specialized function.  recall the four types of tissues  muscles are composed of skeletal / nervous / connective tissue  provides the function of: movement / maintaining posture / stabilizing joints / generates heat / guarding entrances and exits IDENTIFY THE STRUCTURE AND FUNCTION OF TENDONS.  each muscle is separated from its adjacent one and is held in place by connective tissue called fascia  if the fibres extend beyond the muscle covering it becomes a tendon  the tendon can become continuous with the fibres of the bone’s periosteum and functions to attach muscle to bone DESCRIBE THE ORGANIZATION OF A SKELETAL MUSCLE.  locate the fascia – the external covering of a muscle / made of connective tissue / separates one muscle from another  as previously discussed when the fascia extends beyond the muscle it becomes the tendon and serves as an attachment to the periosteum of the related bone  locate the epimysium – another layer of connective tissue surrounding the entire muscle / under the fascia / composed primarily of collagen  located the perimysium – another layer of connective tissue that separated the entire muscle in compartments  each of these compartments are called a fascicle  the perimysium also contains a nerve and blood vessels supplying innervation and blood flow to each fascicle  locate the endomysium – a more delicate connective tissue which surrounds each individual muscle fibre (cell)  locate the myofibrils which are bundled within the muscle cell The Muscular System  they are made up of two filaments / actin (thin) myosin (thick) / collectively they comprise the contractile units of the muscle cell EXPLAIN THE RELATIONSHIP BETWEEN THE MUSCLE AND NERVOUS SYSTEMS.  each skeletal muscle is connected to a nerve cell called a motor neuron  this provides communication to the CNS (brain and spinal cord) and the CNS provides the information to contract  a muscle fibre contracts only when it stimulated by a motor neuron EXPLAIN THE RELATIONSHIP BETWEEN THE NEUROMUSCULAR JUNCTION, SYNAPSE, MOTOR NEURON, VESICLES, NEUROTRANSMITTERS, MUSCLE FIBRES, MOTOR END PLATE, AND RECEPTORS.  the neuromuscular junction includes the end of a motor neuron and the motor end plate of a muscle fibre  collectively where these two structures meet is called a neuromuscular junction  the synapse (synaptic cleft) is the narrow space between the end of the motor neuron and the muscle fibre / the impulse must “jump” across this space into the muscle to produce contraction  the motor neuron is a nerve fibre that transmits impulses from the CNS to an effector (muscle fibre)  locate the synaptic vesicles within the terminal end of the motor neuron (axon) / stored in these vesicles are neurotransmitters  when the impulse gets to the end of the motor neuron it cannot get across the synapse with the aid of a neurotransmitter  neurotransmitters are chemical that is secreted by the terminal end of the axon (motor neuron) / this “bridges” the gap or the synaptic cleft allowing the impulse to continue on to the muscle (effector)  a muscle fibre is a single muscle cell and is capable of contracting when stimulated by a motor neuron  locate the motor end plate – this is the specialized junction / region of a muscle / contains the membrane’s receptors  receptors are the sites that can receive the neurotransmitter and allow the impulse to be transferred to the muscle fibre IN REVIEW: MUSCLE FIBRE ↓ connected to The Muscular System ↓ MOTOR NEURON (nerve cell) ↓ meet at the neuromuscular junction ↓ NEUROTRANSMITTER is released ↓ this “bridges” the gap (synaptic cleft) between the ↓ NEURON and the MUSCLE ↓ the IMPULSE crosses the SYNAPTIC CLEFT ↓ stimulating the MUSCLE FIBRE to contract EXPLAIN THE ROLE OF NEUROTRANSMITTERS IN MUSCLE CONTRACTION.  Answered in previous objective NAME THE BODY’S MAIN NEUROTRANSMITTER.  Acetylcholine OUTLINE THE PROCESS OF MUSCLE CONTRACTION AND RELAXATION.  Recall myofibrils / the thread like components within the muscle cell  myofibrils are composed of two protein filaments: actin (thin) / myosin (thick)  they are bundled together and give the muscle cell a striated appearance  the final result of a muscle contraction is a sliding movement within the myofibrils in which the filaments of actin and myosin merge  the myosin molecule is made up of a protein strand with globular parts that project outward called cross bridges  in the presence of Ca ions the cross bridges react with the opposing actin filaments forming links  the reaction between actin and myosin generates the required force needed for a muscle contraction  a skeletal muscle fibre does not contract until it is stimulated by a neurostransmitter  acetylcholine is synthesized in the cytoplasm of the motor neuron and is stored in the synaptic vesicles  recall that when a nerve impulse jumps across the synaptic cleft acetylcholine is released  this stimulates a muscle impulse which passes in all directions over the surface of the muscle fibre membrane  Ca ions are released from storage areas which promotes the reaction between the actin / myosin filaments producing a muscle contraction (ATP required) The Muscular System  Ca pump (active transport) removes the Ca ions and the linkages are broken allowing the actin / myosin filaments to slide apart causing relaxation of the muscle fibre  Acetylcholine decomposes by an enzyme “cholinesterase” which prevents continued stimulation to the muscle fibre IDENTIFY THE ROLE OF CALCIUM IN MUSCLE CONTRACTION.  Answers in previous objective  Ca initiates muscle contractions EXPLAIN HOW THRESHOLD STIMULUS AND THE ALL-OR-NONE PRINCIPLE RELATE TO MUSCLE CONTRACTION.  the minimal strength needed to cause a muscle contraction is called the threshold stimulus  a muscle fibre will remain inactive until the stimulus is strong enough to cause a threshold stimulus  its response to a threshold stimulus is contraction to its fullest extent  no partial contractions – all or none  if we look at muscle contraction on the gross level it is notable that a skeletal muscle consists of a huge number of cells  these cells contract with varying degrees of force for different periods of time  a closer look at the nerve / muscular functional unit or motor unit will reveal that each muscle is served by at least one motor nerve  this nerve contains hundreds of neuron axons forming many neuromuscular junctions  a motor neuron and all the muscle fibres it supplies is called a motor unit  when the motor neuron fires all the muscle fibres it innervates respond by contracting  muscles with fine motor control (eyes / fingers) have many small motor units while large muscles that have less precise movements have larger motor units  the muscle fibres in a single motor unit are not clustered together but are spread throughout the muscle, so stimulation of a single motor unit will cause a weak contraction throughout the entire muscle DISCUSS THE ROLE OF EXERCISE ON MUSCLE TISSUE.  Atrophy – without development / a = without / trophy = nourishment, development / decrease in the size of an organ or tissue  Hypertrophy – increased development / hyper = above or excessive / trophy = nourishment, development / increase in the size of an organ or tissue LOCATE THE MAJOR MUSCLES:  Head and neck – masseter, temporalis, trapezius, sternocleidomastoid, The Muscular System  Trunk – abdominals, pectoralis major  Upper extremities – biceps, triceps, deltoid, latissimus dorsi  Lower extremities – iliopsoas, gluteus maximus, the adductors, the hamstrings, the quadriceps, calcaneal tendon IDENTIFY THE MUSCLES WHICH OPERATE THE JAW, NECK, SHOULDER, ELBOW, WRIST, HIP, KNEE AND ANKLE JOINTS.  Muscles are classified into four functional groups: prime movers / antagonists / synergists / fixators  Prime movers = a muscle that provides the major force during movement  Antagonists = muscles that oppose or reverse a movement / when the prime movers are active, the antagonists are relaxed  Sometimes this relaxation provides some resistance  Prime movers and antagonists are located on opposite sides of the joint on which they act  Most movements involve the action of one or more synergists and aid prime movers by: promoting the same movement and reducing undesirable or unnecessary movements that might occur as prime movers contracts  When synergists immobilize a bone or a muscle’s origin it is called a fixator  Muscles that help to maintain upright posture are called fixators  Prime movers tend to get all the credit for causing certain movements  The action of antagonists and synergists muscles are important in effecting smooth, co-ordinated and precise movements  Every muscle is attached to bone or other connective tissue at least two points  Origin = attached to the immovable bone  Insertion = attached to the movable bone  During contractions insertion moves toward the origin  Body movements occur when muscles contract across joints  The type of movement depends on the mobility of the joint and where the muscles are located in relationship to the joint  Most obvious are the freely movable joints of the limbs  Less movable joints are also tugged into motion by the muscles (side to side movement of the vertebrae) JAW  closure is the work of the masseter and temporalis muscles NECK  Flexion / sternocleidomastoid  Extension / trapezius SHOULDER  Fixation / serratus anterior  Abduction / deltoid  Adduction / pectoralis major  Flexion / deltoid and pectoralis major The Muscular System  Extension / lattisimus dorsi ELBOW  Flexion / biceps brachii  Extension / triceps brachii WRIST  Flexion / anterior forearm muscles  Extension / posterior forearm muscles HIP  Fixator / gluteus medius and minimus  Abduction / gluteus medius and minimus  Adduction / adductor muscles  Flexion / iliopsoas  Extension / gluteus maximus KNEE  Flexion / hamstring  Extension / quadriceps ANKLE  Plantar flexion / posterior lower leg  Dorsiflexion / anterior lower leg LOCATE AND DESCRIBE THE ORGANIZATION OF THE GLUTEAL MUSCLES. GLUTEUS MAXIMUS  Longest and most superficial  Forms the bulk of the buttock  Thick coarse fibres  Important site for intramuscular injections GLUTEUS MEDIUS  Thick large muscles  Covered by the maximus  Sandwiched between the maximus and the minimus GLUTEUS MINMUS  Smallest and deepest  All three layered create the strength of the buttock  Maximus – thigh extension  Medius / minimus = thigh abduction LOCATE AND DESCRIBE THE STRUCTURE AND EXPLAIN THE MAJOR FUNCTIONS OF THE DIAPHRAGM.  Definition: a sheet like structure largely composed of skeletal muscle and connective tissue that separates thoracic and abdominal cavities. The Muscular System  Muscle fibres within the diaphragm are stimulated to contract by impulses automatically from the diaphragm – phrenic nerve  The diaphragm moves downward, increasing the size of the thoracic cavity  During relaxation the diaphragm springs upward forcing air out of the lungs / assisting in expiration DEFINE THE TERM HIATUS AND EXPLAIN ITS RELATIONSHIP TO THE DIAPHRAGM.  Hiatus = opening  Esophageal hiatus is the opening in the diaphragm for passage of the esophagus / vena cava / aorta DESCRIBE THE BASIC ORGANIZATION OF THE ABDOMINAL MUSCLES.  Broad flattened muscles in layers  Posteriorly connect to the ribs and vertebral column  Anteriorly to the linea alba (connective tissue) which extends from the xyphoid process to the symphysis pubis  Collectively the contraction of this muscle group, decreasing the size of the abdominal cavity and increasing pressure inside  This action assists in many physiological functions:  Expiration of air from the lungs  Defecation  Urination  Vomiting  Childbirth DESCRIBE THE LOCATION AND THE FUNCTION OF THE INGUINAL CANALS.  Bilateral areas in the groin  Inguinal canals form during development  Two months before birth the testes begin their descent through the inguinal canals / a slanting passage way through the oblique muscles of the inferior abdominal walls into the scrotum  Link the scrotal cavities to the peritoneal cavity / nerves and blood vessels pass through  In normal adult males the inguinal canals are closed  The spermatic cords present do create weak points in the abdominal wall musculature that remain throughout life  A common spot for hernias in men  In females these canals are very small and contain nerves and the round ligaments of the uterus  This structure maintains the strength of the abdominal wall and hernias are much less likely / rare The Muscular System LOCATE AND DESCRIBE THE MUSCLES OF THE PELVIC FLOOR, IDENTIFY THE STRUCTURES THAT PIERCE IT AND EXPLAIN THEIR IMPORTANCE.  Compare the male to the female  Various muscles support the pelvic viscera  Muscles involved: levator ani, superficial transverse perinea, bulbospongiosus, ischiocavernosus  Paired levator ani assist in forming the funnel shaped pelvic floor or pelvic diaphragm / weakens with age and childbirth  These muscles close the inferior outlet of the pelvis  Supports and elevates the pelvic floor and function as an antagonist to increase abdominal pressure  The pelvic diaphragm is pierced by the rectum and the urethra along with the vagina in the female  The ischiocavernosus and bulbospongiosus help to maintain erection of the penis and clitoris

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