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Study Guide for various chapters, Study Guides, Projects, Research of Anatomy

Foothill CollegeAnatomy

Study Guide for various chapters

Typology: Study Guides, Projects, Research

2024/2025

Uploaded on 06/30/2025

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STUDY GUIDE-THE MUSCULAR SYSTEM
I. INTRODUCTION
A. The muscular system specifically concerns skeletal muscles and associated
connective tissue that make individual muscle organs.
B. This chapter discusses how skeletal muscles produce movement and describes the
principal skeletal muscles.
II. HOW SKELETAL MUSCLES PRODUCE MOVEMENT
A. Muscle Attachment Sites: Origin and Insertion
1. Skeletal muscles produce movements by exerting force on tendons, which in
turn pull on bones or other structures, such as skin.
2. Most muscles cross at least one joint and are attached to the articulating
bones that form the joint.
3. When such a muscle contracts, it draws one articulating bone toward the
other.
a. The attachment to the stationary bone is the origin.
b. The attachment to the movable bone is the insertion.
4. Tenosynovitis is an inflammation of the tendons, tendon sheaths, and
synovial membranes surrounding certain joints (Clinical Connection).
B. Lever Systems and Leverage
1. Bones serve as levers and joints serve as fulcrums.
2. The lever is acted on by two different forces: resistance (load) and effort.
3. Levers are categorized into three types, according to the position of the
fulcrum, effort, and load
a. first-class (EFL)-the fulcrum is between the effort and the load. An
example is pair of scissors.
b. second-class (FLE)- the load is between the fulcrum and effort. An
example is a wheelbarrow.
c. third-class (FEL)-the effort is between the fulcrum and the load. An
example is a pair of forceps.
4. Leverage, the mechanical advantage gained by a lever, is largely responsible
for a muscle’s strength and range of motion (ROM), i.e., the maximum
ability to move the bones of a joint through an arc.
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STUDY GUIDE-THE MUSCULAR SYSTEM

I. INTRODUCTION

A. The muscular system specifically concerns skeletal muscles and associated connective tissue that make individual muscle organs. B. This chapter discusses how skeletal muscles produce movement and describes the principal skeletal muscles. II. HOW SKELETAL MUSCLES PRODUCE MOVEMENT A. Muscle Attachment Sites: Origin and Insertion

  1. Skeletal muscles produce movements by exerting force on tendons, which in turn pull on bones or other structures, such as skin.
  2. Most muscles cross at least one joint and are attached to the articulating bones that form the joint.
  3. When such a muscle contracts, it draws one articulating bone toward the other. a. The attachment to the stationary bone is the origin. b. The attachment to the movable bone is the insertion.
  4. Tenosynovitis is an inflammation of the tendons, tendon sheaths, and synovial membranes surrounding certain joints (Clinical Connection). B. Lever Systems and Leverage
  5. Bones serve as levers and joints serve as fulcrums.
  6. The lever is acted on by two different forces: resistance ( load ) and effort.
  7. Levers are categorized into three types, according to the position of the fulcrum, effort, and load a. first-class (EFL)-the fulcrum is between the effort and the load. An example is pair of scissors. b. second-class (FLE)- the load is between the fulcrum and effort. An example is a wheelbarrow. c. third-class (FEL)-the effort is between the fulcrum and the load. An example is a pair of forceps.
  8. Leverage, the mechanical advantage gained by a lever, is largely responsible for a muscle’s strength and range of motion (ROM), i.e., the maximum ability to move the bones of a joint through an arc.

C. Effects of Fascicle Arrangement

  1. Skeletal muscle fibers (cells) are arranged within the muscle in bundles called fasciculi.
  2. The muscle fibers are arranged in a parallel fashion within each bundle, but the arrangement of the fasciculi with respect to the tendons may take one of four characteristic patterns: parallel, fusiform, pennate, and circular.
  3. Fascicular arrangement is correlated with the power of a muscle and the range of motion.
  4. Intramuscular injections have advantages, and disadvantages, over oral or subcutaneous delivery of medications (Clinical Connection) D. Coordination Within Muscle Groups
  5. Most movements are coordinated by several skeletal muscles acting in groups rather than individually, and most skeletal muscles are arranged in opposing (antagonistic) pairs at joints.
  6. A muscle that causes a desired action is referred to as the prime mover ( agonist ); the antagonist produces an opposite action.
  7. Most movements also involve muscles called synergists , which serve to steady a movement, thus preventing unwanted movements and helping the prime mover function more efficiently.
  8. Some synergist muscles in a group also act as fixators , which stabilize the origin of the prime mover so that it can act more efficiently.
  9. Under different conditions and depending on the movement and which point is fixed, many muscles act, at various times, as prime movers, antagonists, synergists, or fixators.
  10. Some of the benefits of stretching (Clinical Connection) include: improved physical performance, decreased risk of injury, reduced muscle soreness, improved posture, increased synovial fluid, and increased neuromuscular co- ordination.

C. Muscles of the Head that move the eyeball

  1. Superior recuts
  2. Inferior rectus
  3. Lateral rectus
  4. Medial rectus
  5. Superior oblique
  6. Inferior oblique 7. Levator plapebrae superioris 8. Clinical Connection: Strabismus D. Muscles that move the mandible and assist in mastication
  7. Masseter a. Action: closes the mouth b. Origin: maxilla and zygomatic arch c. Insertion: mandible
  8. Temporalis
  9. Medial pterygoid
  10. Lateral pterygoid
  11. Clinical Connection: Gravity and the mandible E. Muscles of the head that move the tongue and assist in mastication and speech
  12. Genioglossus
  13. Styloglossus
  14. Hypoglossus
  15. Palatoglossus
  16. Clinical Connection : Intubation during anesthesia F. Muscles of the anterior neck that assist in deglutition and speech
  17. Digastric
  18. Stylohyoid
  19. Mylohyoid
  20. Geniohyoid
  21. Omohyoid
  22. Sternohyoid
  23. Thyrohyoid
  24. Clinical Connection : Dysphagia

G. Muscles of the Neck that move the head

  1. Sternocleidomastoid
  2. Semispinalis capitis
  3. Splentus capitis
  4. Longissimus capitis
  5. Spinalis capitis H. Muscles of the Abdomen that protect abdominal visceral and move the vertebral column
  6. Rectus abdominis
  7. External oblique
  8. Internal oblique
  9. Transversus abdominis
  10. Quadratus lumborum
  11. Clinical Connection: Inguinal Hernia I. Muscles of the Thorax that assist in breathing
  12. Diaphragm
  13. External intercostals
  14. Internal intercostals J. Muscles of the pelvic floor that support the pelvic viscera and function as sphincters
  15. Levator ani
  16. Pubococcygeus
  17. Puborectalis
  18. Illiococcygeus
  19. Ischicoccygeus
  20. Clinical Connection: Injury of levator ani and urinary stress incontinence K. Muscles of the perineum
  21. Superficial transverse perineal
  22. Bulbospongiosus
  23. Ischiocavernosus
  24. Deep transverse perineal
  25. External urethral sphincter
  26. Compressor urethrae

O. Muscles of the forearm that move the wrist, hand, thumb and digits

  1. Flexor carpi radialis
  2. Palmaris longus
  3. Flexor carpi ulnaris
  4. Flexor digitorum superficialis
  5. Flexor pollicis longus
  6. Flexor digitorum profundus 7. Clinical connection: golfer’s elbow 8. Extensor carpi radialis longus 9. Extensor radialis brevis 10. Extensor digitorum 11. Extensor digiti minimi
  7. Extensor carpi ulnaris
  8. Abductor pollicis longus
  9. Extensor pollicis brevis
  10. Extensor pollicis longus
  11. Extensor indicis P. Muscles of the palm that move the digits-intrinsic muscles of the hand
  12. Abductor pollicis brevis
  13. Opponens pollicis
  14. Flexor pollicis brevis
  15. Adductor pollicis
  16. Abductor digiti minimi
  17. Flexor digiti minimi brevis
  18. Opponens digiti minimi
  19. Lumbricals
  20. Palmar interossei
  21. Dorsal interossei 11. Clinical connection: Carpal Tunnel Syndrome

Q. Muscles of the neck and back that move the vertebral column

1. Splenius capitis 2. Splenius cervicis 3. Iliocostalis cervicis 4. Iliocostalis thoracis 5. Iliocostalis lumborum 6. Longissiumus capitis 7. Longissiumus cervicis 8. Longissimus thoracis 9. Spinalis capitis 10. Spinalis cervicis 11. Spinalis thoracis 12. Semispinalis capitis 13. Semispinalis cervicis 14. Simispinalis thoracis 15. Multifidus 16. Rotatores 17. Interspinalies 18. Intertransversarii 19. Anterior scalene 20. Middle scalene 21. Posterior scalene 22. Clinical connection: Back injuries and heavy lifting R. Muscles of the gluteal region that move the femur 1. Iliopsoas 2. Iliacus 3. Gluteus maximus 4. Gluteus medius 5. Gluteus minimus 6. Tensor fasciae latae 7. Piriformis 8. Obturator internus 9. Obturator externus 10. Superior gemellus

  1. Tibialis posterior
  2. Flexor digitorum longus
  3. Flexor hallucis longus U. Intrinsic muscle of the foot that move the toes
  4. Extensor hallucis brevis
  5. Extensor digitorum brevis
  6. Abductor hallucis
  7. Flexor digitroum brevis
  8. Abductor digiti minimi
  9. Quadratus plantae
  10. Lumbricals
  11. Flexor hallucis brevis
  12. Adductor hallucis
  13. Flexor digiti minimi brevis
  14. Dorsal interossei
  15. Planar interossei V. DISORDERS: HOMEOSTATIC IMBALANCES A. Running Injuries
  16. Most running injuries involve the knee. Other commonly injured sites are the calcaneal (Achilles) tendon, medial aspect of the tibia, hip area, groin area, foot and ankle, and back.
  17. Running injuries are frequently related to faulty training techniques.
  18. Running injuries can be treated initially (first 2-3 days) with rest, ice, compression, and elevation ( RICE therapy ). Alternating moist heat and ice massage may be used as a follow-up treatment. Sometimes, nonsteroidal anti-inflammatory drugs (NSAIDS) or local injections of corticosteroids are needed; an alternate fitness program is necessary to keep active during the recovery period followed by careful rehabilitative exercise. B. Compartment Syndrome
  19. Skeletal muscles in the limbs are organized in units called compartments.
  20. In compartment syndrome , some external or internal pressure constricts the structures within a compartment, resulting in damaged blood vessels and

subsequent reduction of the blood supply to the structures within the compartment.

  1. Without intervention, nerves suffer damage, and muscles develop scar tissue that results in permanent shortening of the muscle—a condition called contracture. C. Plantar Fascitis
  2. Painful heel syndrome due to chronic irritation of the plantar at its origin on the heel bone.