A&P Lab Exam 2
Insertion
The attachment of a muscle tendon to a moveable bone or the end opposite the origin
central and perforating canals form a network of passageways within compact bone. why are these canals important for the normal functioning of bone tissue?
allows nutrients and oxygen to be transported throughout the bone to the osteocytes.
trochanter
a bone marking on a femur. a large irregularly shaped process (only on femur)
Agonist
a molecule that, by binding to a receptor site, stimulates a response
sesamoid bones
are imbedded in tendons at articulations. the number of sesamoid bones varies among individuals.
short bones
are those in which the length and width are about equal, so they appear cube shape
gluteus medius
abducts and medially rotates thigh
gluteus minimus
abducts and medially rotates thigh
Gracillis
adducts thigh
adductor brevis
adducts thigh
Pectineus
adducts, flexes, and medially rotates thigh
adductor longus
adducts, flexes, and medially rotates thigh
thoracic vertebrae (T1-T12)
articulate (form joints) with the ribs, are located in the thorax. primary curve, provides room for the thoracic organs.
skeletal muscle
attached to bones (some facial muscles) or to skin. Single, very long, cylindrical, multinucleate cells with obvious striations
origin
attachment of a muscle that remains relatively fixed during muscular contraction
osteon
basic functional unit of compact bone. are circular columns of bone tissue that run parallel to one another and the bones longitudinal axis.
foramen
bone marking In the skull. Round or oval opening through a bone
process
bone marking in the skull. a bony projection
fissure
bone marking in the skull. a slit-like opening
meatus/canal
bone marking in the skull. passageway through a bone
facet
bone marking on femur. a smooth, flat surface
head
bone marking on humerus. a rounded expansion connected to a narrow neck
epicondyle
bone marking on humerus. an elevated area, above a condyle.
line
bone marking on pelvis. a narrow ridge, less prominent than a crest.
fossa
bone marking on pelvis. a shallow depression
ramus
bone marking on pelvis. an arm like projection.
crest
bone marking on pelvis. prominent narrow ridge.
spine
bone marking on pelvis. sharp, slender, often pointed projection
groove
bone marking on the humerus. a narrow channel
trochlea
bone marking on the humerus. a pulley-shaped articular process.
tubercle
bone marking on the humerus. a rounded projection to process
condyle
bone marking on the humerus. a rounded projection.
tuberosity
bone marking on the humerus. an elevated projection with a roughened surface.
sinus
bones marking in the skull. Cavity within a bone, filled with air and lined with mucous membrane
tibialis anterior
dorsiflexion and inversion of foot
Temporalis
elevates and retracts mandible
Masseter
elevates mandible
external intercostals
elevates rib cage. above the internal
levator scapulae
elevates scapula
splenius
extends and rotates head
triceps brachii
extends forearm at elbow
vastus intermedius
extends knee
vastus lateralis
extends knee
vastus medialis
extends knee
rectus femoris
extends leg and flexes thigh
gluteus maximus
extends thigh
Semitendinosus
extends thigh and flexes leg
biceps femoris
extends thigh and flexes leg
teres major
extends, adducts, and medially rotates arm
compact bone
extremely dense material that forms the hard exterior covering of all bones.
inferior nasal conchae
facial bone - The lowermost scroll-shaped bones on the sidewalls of the nasal cavity. (2)
nasal bones
facial bone - form the bridge of the nose (2)
Vomer
facial bone - forms the inferior portion of the nasal septum (1)
Mandible
facial bone - lower jaw (1)
lacrimal bone
facial bone - small fragile bone making up part of the front inner walls of each eye socket and providing room for the passage of the lacrimal ducts (2)
Zygomatic bone
facial bone - the arch of bone beneath the eye that forms the prominence of the cheek (2)
irregular bones examples
facial bones, vertebrae, pelvic bones
bones of the lower limb
femur, patella, tibia, fibula, tarsals, metatarsals, phalanges
spongy bone
fills the interior region of most bones and forms a thin layer along the diaphyses of long bones. instead of osteons, one lamellae form an irregular arrangement of interconnecting bony struts called trabecule with spaces surrounding the latticework of bony tissue. the spaces are filled with red bone marrow where blood cells are produced, or yellow bone marrow, where fat is stored. the porous structure of spongy bone makes it suitable for cushioning the impact generated by body movements.
Cervical Vertebrae (C1-C7)
first set of 7 bones, forming the neck. a secondary curvature. develops as the infant learns to balance the weight of its head on the vertebrae of the neck.
rectus abdominis
flexes and rotates vertebral column
Brachialis
flexes forearm
biceps brachii
flexes forearm
Brachiordialis
flexes forearm at elbow
Sternocleidomastoid
flexes neck; rotates head
illacus
flexes thigh
external oblique
Compresses abdomen; laterally flexes and rotates vertebral column
sutural bones
develop between the joints (sutures) of cranial bones
male pelvis characteristics
-Heavy -Narrow -Deep -Inlet round -Outlet Narrow -Acute angle of pubic arch
female pelvis characteristics
-Lighter -Wider -More shallow -Oval shaped inlet -Wide outlet -Wider sacrum with steeper curve -Flattened sacral promontory -Obtuse angle of pubic arch
factors that contribute to muscle fatigue
-inadequate release of calcium ions from the SR -depletion of creatine phosphate -insufficient oxygen -depletion of glycogen and other nutrients -buildup of lactic acid and ADP -failure of the motor neuron to release enough acetylcholine
Sacrum
5 fused vertebrae at base of spine. primary curve. provides room for various abdominopelvic organs.
Metacarpals I-V
5 metacarpals of the hand are identified by Roman numerals beginning with the lateral metacarpal, which articulates with the trapezium and with the proximal bone of the thumb.
Periosteum
A dense fibrous membrane covering the surface of bones (except at their extremities) and serving as an attachment for tendons and muscles.
Supraspinatus
Abducts arm; stabilizes the head of the humerus in glenoid cavity; one of the "rotator cuff" muscles
Tendon
Attaches muscle to bone
Gastrocnemius
Calf muscle
orbicularis oculi
Closes eyelids; used in blinking, winking, and squinting
Dynamometer
Device that measures the amount of force produced by a muscle or group of muscles
Trapezius
Elevates, depresses, retracts, and rotates the scapula; rotates the arm
latissimus dorsi
Extends, adducts, and medially rotates the arm; draws the shoulder downward and backward
palatine bone
Facial bone - either of two irregularly shaped bones that form the back of the hard palate and helps to form the nasal cavity and the floor of the orbits (2)
Maxillae
Facial bone - the two fused bones forming the upper jaw (2)
fast glycolytic fibers (white)
Fast fibers are large in diam- eter and contain densely packed myofibrils, large glycogen reserves, and relatively few mitochondria. Muscles dominated by fast fibers produce powerful contractions because the ten- sion produced by a muscle fiber is directly proportional to the number of myofibrils. However, fast fibers fatigue rapidly because their contractions use ATP in massive amounts, and they have relatively few mitochondria to generate ATP. As a result, prolonged activity is supported primarily by anaerobic metabolism.
aponeuroses
Fibrous or membranous sheet connecting a muscle and the part it moves
Semimembranosus
Flexes leg at the knee and extends thigh at the hip; belongs to the hamstring group
Sartorius
Flexes, abducts, and laterally rotates thigh at the hip; flexes knee
C2 Axis
Has a dens/odontoid process projecting superiorly from the body, allows head to rotate
pelvic girdle
Hip bones. forms by the fusion of three bones, an ilium, an ischium, and a pubis. attach to the lower limbs and must wisthand the stresses involved in weight bearing and mobility.
appendicular skeleton
Includes the lower limbs - pelvic bones: ilium, ischium, pubis - femur -patella -tibia -fibula -tarsal bones -metatarsals -phalanges And the upper limbs -clavicle -scapula -humerus -ulna -radius -carpal -metacarpals -phalanges
Diaphragm
Large, flat muscle at the bottom of the chest cavity that helps with breathing
Central (Haversian) canal
canal that travels through the center of the osteon.
short bones examples
carpal bones, tarsal bones
pectoralis major
chest
orbicularis oris
closes lips
what do the grooved lines represent in each layer of concentric lamellae?
collagen fibers
transversus abdominis
compresses abdomen
pectoral girdle (shoulder girdle)
consists of 4 bones - two s-shaped clavicles and two broad flat scapulae. movements of the clavicles and scapulae position the shoulder joints and provide a basis for arm movement
axial skeleton
consists of the bones that form the vertical axis of the body -cranial bones -facial bones -sternum -ribs -vertebral column
proximal carpal bones (4)
consists of the scaphoid, lunate, triquetrum, and pisiform
thoracic cage
consists of the thoracic vertebrae, the ribs, costal cartilages, and the sternum. it protects the heart, lungs, thymus, and other structures in the thoracic cavity. it serves as an attachment point for muscles involved in (1) breathing (2) maintaining the position of the vertebral column and (3) moving the pectoral girdles (both clavicles and scapulae) and the upper limbs.
distal carpal bones (4)
consists of the trapezium, trapezoid, capitate, hamate
intermediate fibers (fast oxidative)
contain little myoglobin. They have an intermediate capillary network and mitochondrial supply around them and are more resistant to fatigue than are fast fibers.
Slow oxidative fibers (red fibers)
contains abundant myoglobin. relies on aerobic respiration. has slow myosin ATPase activity. contract longer. more extensive network of capillaries = higher oxygen supply to support mitochondrial activity. more atp.
occipital bone
cranial bone - Bone that protrudes at the base of the skull (1)
temporal bone
cranial bone - bone that forms parts of the side of the skull and floor of the cranial activity. There is a right and left temporal bone. (2)
Ethmoid
cranial bone - bone that forms the back of the nose and encloses numerous air cells (1)
parietal bone
cranial bone - either of two skull bones between the frontal and occipital bones and forming the top and sides of the cranium (2)
frontal bone
cranial bone - forms the forehead (1)
Sphenoid
cranial bone - wedge-shaped bone at the base of the skull (1)
why are there so many foramina and canals in the skull? what types of things are passing through them?
foramina and canals are abundant in the skull because of the brain. nerves and blood passes through them to deliver signals and oxygen/nutrients to the brain. (CNS)
bone lamellae
form concentric rings of bone tissue around the central canal
Coccyx
four vertebrae fused together to form the tailbone
Ulna
from proximal to distal, it is made up of the olecranon (point of the elbow), the shaft, and the ulnar head. anterior surface of the proximal epiphysis, the trochlear notch of the ulna articulates with trochlea of the humerus at the elbow joint.
Fibula
from proximal to distal: head, shafts and lateral malleolus process. head of fibula articulates with the tibia. important site for the attachment of muscles that move the foot and toes. the distal tip of the fibula extends laterally to the ankle joint. the lateral malleolus gives lateral stability to the ankle.
extended at 0 degrees
generated the most tension because your sarcomeres aren't over stretched or overly shortened
irregular bones
have a variety of shapes and are usually connected to several other bones
long bones
have extended longitudinal axes so that the length of the bone is much greater than the width. a typical ling bone contains an elongated shaft known as the diaphysis with two expanded knoblike ends of epiphyses
adductor magnus
hip adduction
perforating canals
horizontal cross channels that connect central canals. small arteries, veins, nerves, and lymphatic vessels travel through the central and perforating canals.
long bones examples
humerus, radius, ulna, femur, tibia, fibula
what is the functioning of the periosteum? what bones cells line this cavity and what are their function?
it enables bones to grow in thickness, protects the bone, helps with fracture repair, helps nourish bone tissue, and serves as an attachment point for ligaments and tendons. osteogenic cells line the periosteum. they are undifferentiated cells that can divide to produce new cells.
Patella
kneecap. a large sesamoid bone that forms within the tendon of the quadriceps femoris, a group of muscles that straightens/extends the knee. the patellar ligament connects the apex of the patella to the tibia. the posterior surface has two concave facets (medial and lateral) that articulate with the condyles of the femur. cartilaginous at brith and ossifies as a person begins to walk
C1 Atlas
lacks body and spinous process, allows head to nod and holds up the head. named after greek myth "holds the world on his shoulders"
internal intercostal muscles
lower rib cage. below the external
radius
made of three parts from proximal to distal: the head of the radius, shafts and the radial styloid process
antagonistic muscles
muscle pairs arranged to work against each other to move a joint
Synergist
muscle that aids a prime mover in a movement and helps prevent rotation
prime mover
muscle with the major responsibility for a certain movement
hyperextended at -90 degrees
muscles are overly stretched. created the least tension.
why are the lines alternating direction by 90 degrees in adjacent layers? how does this affect the strength of the bone?
orientation of the collagen fibers provides the bone with great tensile strength.
flat bones examples
parietal bone, sternum, ribs, scapulae
sesamoid bones example
patella
Soleus
plantar flexes foot
spinal curves
primary curves develop before birth, secondary curves after birth.
facial bones
protect and support the entrances to the digestive and respiratory tracts
cranial bones
protect and surround the brain
pectoralis minor
protracts and depresses scapula
serrates anterior
protracts scapula
rhomboids
retract scapula
the metacarpal bones (in the palms), metatarsal bones (in the soles), and phalanges (in the fingers and toes) are much shorter than most ribs, and yet the bones in the hands and feet are classified as long bones and the ribs as flat bones. why do you think these bones are classified as they are.
ribs are thin and platelike where as hands and feet bones have a greater length than their width (and are extended)
Infraspinatus
rotates arm laterally
stretched muscle
sarcomeres are longer and have a smaller zone of overlap
shortened muscle
sarcomeres are short and have a larger zone of overlap
flexed at 90 degrees
sarcomeres were excessively shortened. not as much tension generated.
Tibia
shinbone. large medial bone of the leg. proximal to distal: condyles, shaft, and medial malleolus. condyles of tibia articulate with condyles of femur. the inferior surface of the tibia articulates with the proximal bone of the ankle. the medial malleolus supports this joint medially
Deltoid
shoulder
smooth muscle
single-unit muscle in walls of hollow visceral organs (other than the heart); multiunit muscle in intrinsic eye muscles, airways and large arteries. single, fusiform, uninucleate, no striations.
lacunae
small cavities which are positioned between the bone lamellae. osteocytes are located in the lacunae and give rise to cell processes that travel through narrow passageways called canaliculi. the processes of nearby cells form cell junctions with one another.
the bony orbit it formed by portions of 7 bones. list them.
sphenoid, ethmoid, lacrimal, frontal, zygomatic, maxilla, palatine
if bones were composed entirely of compact bone, muscles would have to contract with greater force to produce movements. Explain why.
spongy bone doesn't weigh as much as compact bone, making the overall weight lighter, so it moves more readily when pulled by muscles.
what is the only truly movable joint in the skull? why is this extensive movement beneficial?
temporomandibular joint. it allows us to chew and break down food when we eat.
length-tension relationship
the amount of tension that can be generated during a contraction is influenced by the size of the zone of overlap between thick and thin filaments when the muscle fiber is at rest. the zone of overlap is determined by the resting length of the sarcomeres
describe the arrangement of compact and spongy bone in a typical long bone.
the external layer of the long bone is solid compact bone. it is thicker where is surrounds the diaphysis but much thinner around each epiphysis. during bone development, the medullar cavity is filled with spongy bone and red bone marrow but as the bone matures, the bone is reabsorbed and the red bone marrow is converted to yellow bone marrow (which becomes a storage site for fat in adults). spongy bones predominates at the two epiphyses.
phalanges
the metacarpals articulate with the proximal phalanages, the finger bones. the first finger, known as the pollen, or thumb, has two phalanxes (proximal and distal). each of the other four fingers has three phalanges (proximal, middle, and distal)
bone is a connective tissue with a solid matrix with two main components. briefly describe the special qualities that each component gives to bone.
the two main components are the collagen fibers and the calcium phosphate salts. collagen fibers give bone strength and elasticity while calcium phosphate gives bone its hardness.
forearm (antebrachium)
the ulna and the radius are parallel long bones that support the forearm. in the anatomical position, the ulna lies medial to the radius. the interosseous membrane, a fibrous sheet, connects the lateral margin of the ulna to the radius.
on a skeleton, notice that the vertebral bodies become progressively larger from a superior to inferior direction. explain why.
the vertebral bodies on the inferior portion hold up most of the weight of everything superior to it, including whatever else adds to the weight (whatever you're holding/lifting/body fat)
Femur
thigh bone. longest and heaviest bone in the body. from proximal to distal: the femur head, the shaft, and the condyles. it articulates with the (acetabulum) hip bone at the hip joint and with the tibia of the leg at the knee joint.
flat bones
thin, platelike structures. this group includes the cranial bones.
Lumbar Vertebrae (L1-L5)
third set of 5 larger vertebrae, which forms the inward curve of the spine. in the lower back. secondary curve that balances the weight of the trunk over the lower limbs. this curve develops with the ability to stand.
cardiac muscle
walls of the heart. branching chains of cells; uni- or binucleate striations