Muscular System PDF

Summary

This document provides an overview of the muscular system, including its functions, types of muscles (skeletal, smooth, and cardiac), and how muscles are attached to the skeleton. It also details the effects of physical activity and aging on muscles. The document includes detailed information about muscle structure and function.

Full Transcript

MUSCULAR
SYSTEM
MLLIPA
FUNCTIONS OF THE MUSCULAR
SYSTEM
 TYPES OF MUSCLES
Based on how they work

Skeletal/Striped or Voluntary
Muscles
Smooth or Involuntary Muscles
Cardiac muscles
 SKELETAL MUSCLES
40-50% of an adult male body wt
30-40% of a female adulty body wt
striated: alternating dark & light bands
voluntary
fibers are long & cylindrical
with many nuclei
attached to skeleton by _____________
 SMOOTH MUSCLE
NOT STRIATED
INVOLUNTARY
FOUND IN THE CIRCULATORY, DIGESTIVE,
RESPIRATORY & UROGENITAL SYSTEM
FIBERS ARE THIN & SPINDLE SHAPED
SINGLE NUCLEI
CONTRACTS SLOWLY
 CARDIAC MUSCLE
STRIATED
INVOLUNTARY
FOUND ONLY IN THE HEART
CELLS ARE BRANCHED & APPEAR
FUSED WITH ONE ANOTHER
TYPES OF CONTRACTION
 SKELETAL MUSCLE ACTIONS
 origin – immovable end
 insertion – movable end
 prime mover (agonist) – primarily
responsible for movement
 synergists – muscle that aids a
prime mover in a movement and
helps prevent rotation
 antagonist – resist prime mover’s
action and cause movement in the
opposite direction
Fixator – stabilizes the origin of
a prime mover
9-30
How are muscles attach to
skeleton?
EFFECTS OF PHYSICAL ACTIVITY TO
MUSCLE
muscle fiber becomes larger and stronger.
muscular atrophy-
Muscle hypertrophy-muscle increases in size
regular exercise increases muscle size, strength and
endurance.
exercise result in stronger, more flexible, muscles with
greater resistance to fatigue.
aerobic exercise makes the over all body:
 metabolism more efficient
 improved digestion and elimination
 enhanced neuromuscular coordination
 makes the skeletal system stronger
 the heart enlarges
 fat deposits are cleared
 lung becomes more efficient
response to exercise, a muscle increases in size, or
hypertrophies and increases in strength and endurance.
Conversely, a muscle that is not used decreases in size, or
atrophies. Because muscle fiber numbers do not change
appreciably during most of a person’s life, atrophy and
hypertrophy result from changes in the size of individual
muscle fibers. New nuclei are added to muscle fibers
because small satellite cells near skeletal muscle fibers
increase in number in response to exercise and then fuse
with the skeletal muscle fibers. Other elements, such as
blood vessels, connective tissue, and mitochondria, also
increase in number. Atrophy due to lack of exercise results
from a decrease in all these elements without a decrease in
muscle fiber number. However, severe atrophy, as occurs in
elderly people who cannot readily move their limbs, does
EFFECTS OF AGING IN MUSCLE
weak muscles, smaller and dehydrated.
fibrous tissue appears; muscles infiltrated
with fat.
muscle reflex slows.
nocturnal cramps- deficiency of sodium,
improper blood flow.
elderly tend to move about than they should
and this would result to the following:
1) cramps, loss of muscle tone, and
osteoporosis
2) blood clotting
3) diarrhea, constipation, and general
indigestion (decrease peristalsis).
4) accumulation of secretion within the lungs
and the rest of the respiratory tract.
5) kidney stones; infections- urinary tract,
bedsores
there are more than 600 muscles in the body.
size:
1) vastus (huge); vastus lateralis
2) maximus (large); gluteus maximus
3) longus (long); palmaris longus
4) minismus (small); gluteus minismus
5) brevis (short); peroneus brevis
shape:
1) deltoid (triangular); deltoid muscle
2) rhomboid (like a rhombus with equal and parallel sides);
rhomboideus major
3) latissimus (wide); latissimus dorsi
4) teres (round); teres major
5) trapezius (like a trapezoid, a four-sided figure with two sides
parallel).
 Direction of fibers: Location:
1) Rectus (straight) 1) Pectoralis (chest);
RECTUS ABDOMINIS PECTALIS MAJOR
2) Transverse (across) 2) Gluteus (buttock or
TRANSVERSE rump);
ABDOMINIS GLUTEUS MAXIMUS
3) Oblique (diagonally) 3) Brachii (arm);
APONEUROSIS OF BICEPS BRACHII
EXTERNAL 4) Supra- (above);
OBLIQUE SUPRA SPINATUS
4) Orbicularis (circular) 5) Infra- (below);
ORBICULARIS OCULI INFRA SPINATUS
6) Sub- (under or
beneath);
SUBSCAPULARIS
7) Lateralis (lateral);
Number of origins: Origin and
insertion:
1) biceps (two heads); 1)Sternocleidomastoideus
biceps brachii (origin on the sternum and
2) triceps (three heads); clavicle insertion on the
mastoid process)
triceps brachii 2) Brachioradialis
3) quadriceps (four heads) (origin on the brachium or
arm, insertion on the
radius).
ACTION
1) Abductor 4) Extensor
(to abduct a structure) (to extend a
2) Adductor structure)
(to adduct a structure) 5) Levator
3) Flexor (to lift or elevate a
 SKELETAL MUSCLE FIBER
sarcolemma
sacroplasm
sarcoplasmic reticulum
transverse tubule
triad
cisterna of
sarcoplasmic
reticulum
transverse tubule
myofibril
actin filaments
myosin filaments
sarcomere
STRUCTURE OF A SKELETAL
MUSCLE
 MYOFILAMENTS
Thick Filaments Thin Filaments
composed of myosin composed of actin
cross-bridges associated with troponin and
tropomyosin

THICK FILAMENT
 THIN FILAMENTS ARE
MADE OF
 ACTIN - 2 PROTEIN
CHAINS
ENTWINED HELICALLY;
EACH MOLECULE HAS A
MYOSIN BINDING
SITE THAT
INTERACTS WITH THE
MYOSIN CROSS-
BRIDGE
 TROPOMYOSIN - 2
STRANDS LOOSELY
ATTACHED TO ACTIN
THAT COVER THE
MYOSIN BINDING SITES
IN A RELAXED MUSCLE
 TROPONIN - AT
INTERVALS ON THE
TROPOMYOSIN;
CALCIUM IONS WILL
BIND WITH IT
 MUSCLE ORIGIN FUNCTION

Raises eyebrows,
Epicranius: Frontalis Epicranial aponeurosis to
wrinkles skin of
& Occipitalis eyebrows
forehead
 Portions of the frontal
Orbicularis Blinks and
and maxilla to the Skin
oculi closes eyes
around eyes
 Closes and
Orbicularis oris Skin around mouth
protrudes lips
Flattens cheek
Mandible/maxilla to skin around against teeth,
Buccinator
mouth pulls corners of
mouth laterally
Raises corner of
Zygomaticus Zygomatic bone to corner of lips
mouth
 Draws
Fascia of chest to lower
Platysma mouth
border of mandible
downward
 Temporal bone to
Masseter Closes jaw
mandible
Temporal bone to
Temporalis Closes jaw
mandible
Sternocleidom Sternum/clavicle to temporal Flexes neck, rotates head, raises
astoid bone the sternum
Splenius Cervical/Thoracic vertebrae to Rotate head, move to one side,
capitis Mastoid process holds head upright

Semispinalis Cervical/Thoracic vertebrae to Extends head, rotate head, move to
capitis Occipital bone one side
 TRUNK MUSCLES
Sternum/clavicle/ first to Adducts and flexes humerus;
Pectoralis
sixth ribs to pulls arm across chest, medial
major
proximal/anterior humerus rotation of arm
pulls scapula down and forward;
Pectoralis Sternal edge of upper ribs to
raises ribs when shoulder held
minor the corocoid of scapula
still
 TRUNK MUSCLES
Rectus Pubis to
abdominis sternum/xiphoid/fifth to Flexes vertebral column
seven ribs
External Last eight ribs to iliac
oblique crest Flexes vertebral column
 Occipital bone/ Thoracic
Vertebrae (Spinous Process) to Raises arm, raise, lower,
Trapezius Scapular Spine, Acromion and rotate and pull
Clavicle scapula medially

Thoracic vertebrae (Spinous
Rhomboideus Process) to Medial border of Raises and adducts
Scapula scapula

Extends, adducts, medial
Lower spine(sacral, lumbar and rotation of humerus,
CLES Latissimus dor thoracic vertebrae), Iliac Crest pulls shoulder down
si to proximal, anterior humerus and back
Biceps brachii Scapula (Coracoid) to radial tuberosity Flexes elbow and supinates
hand

Triceps brachii Scapula (lateral edge)/ proximal, posterior
humerus to ulna (olecranon) Extends elbow

Pronator teres Medial epicondyle of humerus to distal/lateral Rotates arm medially;
radius Pronation
Pronator Medial/distal ulna to Rotates arm medially;
Quadratus anterior/lateral/distal radius Pronation

Supinator Lateral epicondyle of humerus to distal Rotates forearm
radius laterally; Supination
 Scapula (inf. angle) to prox/anterior humerus Extends humerus, adducts
Teres major
head and rotates arm medially

Scapula (lower/medial border) to humerus
Teres minor head (greater tubercle) Rotates arm laterally
 Scapular spine/clavicle to Abducts humerus,
Deltoid proximal humerus (deltoid rotates humerus
tuberosity) laterally and medially

Scapula (superior Spine) to
Supraspinatus humerus head (greater tubercle) Abducts upper arm
 Scapula (inferior Spine) to
Infraspinatus humerus head (greater Rotates arm laterally
tubercle)
Cervical vertebrae (Transvere
Levator scapulae process) to superior/medial Elevates the scapula
scapula
Brachialis anterior/distal Humerus to ulna flex the Elbow

Subscapularis Anterior scapula to Lesser Medial rotation of
Tubercle of Humerus Humerus
 Flexor carpi Distal humerus (medial epicondyle) to Flexes wrist and abducts
radialis second and third metacarpals hand

Distal humerus (medial epicondyle)/ulna to Flexes wrist and adducts
Flexor carpi ulnaris
carpals of wrist hand
 Distal humerus (medial epicondyle)/ulna
Flexes wrists and
Flexor digitorum to middle phalanges of second to fifth
fingers
fingers

Palmaris longus Medial epicondyle of humerus to fascia of Flexes wrist
palm
Extensor carpi distal Humerus (lateral epicondyle) to dorsal Extends wrists and
ulnaris surface of fifth metacarpals abducts hand
Extensor carpi distal Humerus (lateral epicondyle) to dorsal Extends wrists and
radialis surface of second and third metacarpals abducts hand
Extensor Distal humerus (lateral epicondyle) to Extends
digitorum dorsum of second to fifth fingers fingers/wrist
CROSS SECTION OF THE ARM
CROSS SECTION OF THE FOREARM
Quadriceps: Vasti: Femur to tibial
Rectus femoris tuberosity through patellar
Vastus lateralis tendon All extend knee; rectus femoris also
Rectus femoris: Anterior
Vastus medialis Ilium near acetabulum to
flexes hip on thigh
Vastus tibial tuberosity through
intermedius patellar tendon
 Distal femur (condyles) to
Gastrocnemius calcaneus (heel) through Plantarflexes ankle and flexes knee
Achilles tendon

Peroneus(longu Fibula (lateral head) to
Plantarflexes and everts foot
s & brevis) metatarsals of foot (base)
 Extensor /Anterior tibia to dorsal second Dorsal flexion of foot and extension of toes
digitorum longus and the Lateral third phlanges

Flexor digitorum Posterior tibia to dorsal phlanges Plantar flexion of foot and flexion of toes
longus
 Head of fibula, posterior tibia to
Soleus calcaneous Plantar flexion of foot

Sacrum/iliac crest to proximal
Gluteus maximus femur (Greater Trochanter) Extends hip; Lateral rotation
 Iliac crest to proximal femur
Gluteus medius (Greater Trochanter)
Abducts thigh

Iliac crest to proximal femur
Gluteus minimus (Greater Trochanter)
Abducts thigh
Tensor fasciae Abducts, flexes, and rotates thigh
latae Illiac crest to fascia of thigh medially; Supports lateral knee
through tensing fascia of lateral leg

Lower pubic symphysis to medial Adducts thigh, flexes and rotates leg
Gracilis tibia (condyle) medially at knee
Tibialis Tibia/Fibula to dorsal
posterior Tarsal/Metatarsal of the foot Plantarflexion

Proximal tibia, lateral condyle
Tibialis ventral Tarsal/Metatarsal of Dorsiflexes and inverts foot
anterior
the foot
 MUSCLES OF POSTERIOR THIGH

“HAMSTRINGS”
RESPONSIBLE FOR
KNEE FLEXION & HIP
EXTENSION
SEMIMEMBRANOSUS
SEMITENDINOSUS
BICEPS FEMORIS
GASTROCNEMIUS
KNEE FLEXION