BIOL ch 9
fat pad
-act as protective packing material in joint periphery -can fill spaces when joint shape changes
special movement: protraction
-anterior movement from anatomic position -ex: jutting jaw anteriorly at temporomandibular joint
angular motion: extension
-anterior-posterior plane, but opposite of flexion -increase angle between articulating bones -ex: straightening your fingers after making a fist
elbow is very stable because
-articular capsule is thick -bony surfaces of humerus and ulna interlock closely -multiple, strong ligaments reinforce articular capsule: radial collateral ligament, ulnar collateral ligament, annular ligament
structures of the knee joint
-articular of the knee joint -quadriceps femoris muscle tendon -patellar ligament -fibular collateral ligament -tibial collateral ligament -medial meniscus and lateral meniscus -cruciate ligaments -anterior cruciate ligament (ACL) -posterior cruciate ligament (PCL)
plane joint
-articular surface flat -simplest, least mobile synovial articulation -uniaxial: limited side-to-side gliding movement In a single plane -intercarpal joints, intertarsal joints
shoulder joint: glenohumeral (shoulder) joint
-ball and socker joint: formed by head of humerus and glenoid cavity of scapula -permits greatest range of motion of any joint in the body: most unstable and most frequently dislocated -fibrocartilaginous glenoid labrum encircles socket -abundant bursae: decrease friction where tendons and muscle extend across capsule
which articulations are found in the talocrural (ankle) joint? -between talus and fibula -between tibia and talus -between tibia and calcaneus
-between talus and fibula -between tibia and talus
lateral ligament
-binds fibula to foot on lateral side -prevents over inversion -prone to sprain and tears
deltoid ligament
-binds tibia to foot on medial side -prevents over eversion
pivot joint
-bone with round surface fits into ligament ring -uniaxial joint: rotation on longitudinal axis -atlantoaxial joint
syndesmoses
-bound by interosseous membrane, broad ligamentous sheet -found b/t radius and ulna and b/t tibia and fibula -function amphiarthroses -provide pivot for two long bones
tendons
-composed of dense regular CT -not part of the synovial joint itself -attach muscle to bone -help stabilze joints
saddle joint
-convex and concave surfaces resembling saddle shape -biaxial -articulation between a carpal bone (the trapezium) and first metacarpal
hinge joint
-convex surface within concave depression -uniaxial: like the hinge of a door -elbow joint, knee joint, IP (interphalangeal) joint
glenhumeral (shoulder) joint supporting ligaments and tendons
-coracoacromial ligament, coracohumeral ligament, glenohumeral ligament -tendon of long head of biceps brachii
hip joint
-coxal joint -articulation between the head of the femur and acetabulum of the os coxae -acetabular labrum -more stable, less mobile than glenohumeral joint
cruciate ligament
-cross each other -deep to articular capsule
medial meniscus and lateral meniscus
-deep to articular capsule within knee joint -c-shaped fibrocartilage pads on top of tibial condyles -cushioning between articular surfaces -partially stabilize joint medially and laterally
select all the tissue that form during fibrous, cartilaginous, and synovial joint development -dense fibrous connective tissue -hyaline cartilage -fibrocartilage -elastic cartilage
-dense fibrous connective tissue -hyaline cartilage -fibrocartilage
ligaments
-dense regular CT -connect one bone to another -stabilze, strengthen, and reinforce synovial joints -extrinsic ligaments -intrinsic ligaments
Select all that are classified as special movements -depression -circumduction -inversion -dorsiflexion
-depression -inversion -dorsiflexion
levers have the ability to alter which of the following? -direction of applied force -distance moved -energy of movement -speed of movement
-direction of applied force -distance moved -speed of movement
third class lever
-effort applied between resistance and fulcrum -ex: forceps -most common in body -ex: at elbow joint; joint is fulcrum; biceps tendon applies effort; weight in hand provides resistance
which is true of a first class lever system? -effort arm and resistance arm may be same length -fulcrum between point of effort and point of resistance -effort arm is always shorter than resistance arm
-effort arm and resistance arm may be same length -fulcrum between point of effort and point of resistance
select all the movement performed by the temprormandibular joint -elevation -depression -gliding -protraction
-elevation -depression -gliding -protraction
tendon sheaths
-elongated bursae -wrap around tendons where friction is excessive -common in wrist and ankle
lever
-elongated, rigid object -rotates around fixed point-fulcrum -levers have the ability to alter the speed and distance of movement produced by force. -direction of applied force, and the force strength -effort, resistance, effort arm, resistance arm
Which of the following are locations where you would find a synchondrosis -epiphyseal plate in children -between the bones of the skull in adults -the first sternocostal joint (between the first rib and the sternum) -between each rib and its costal cartilage
-epiphyseal plate in children -the first sternocostal joint(between the first rib and the sternum) -between each rib and its costal cartilage
movements of the TMJ
-exhibits hinge, gliding, and some pivot joint movements -functions like a hinge during mandible depression and elevation -glides during protraction for biting, side to side grinding
articular capsule in the hip joint
-extends from acetabulum to trochanters -encloses femoral head and neck
posterior cruciate ligament (PCL)
-extends from anteroinferior femur to posterior tibia -prevents hyperflexion and posterior displacement of tibia
anterior cruciate ligament (ACL)
-extends from posterior femur to anterior tibia -prevents hyperextension and anterior displacement of tibia
angular motion: hyperextension
-extension beyond normal range of motion -possible with extensively mobile joints or an injury
bursae
-fibrous, saclike structures containing synovial fluid -lined internally by synovial membrane -found in synovial joints where bones, ligaments, muscles, skin, or tendon rub together -connected to or separated from joint cavity -alleviate friction
Sutures
-found b/t some skull bones -very short fibers -interlocking, irregular edges -increase stability and decrease risk of fracture -function as synarthroses -allow growth in childhood -become ossified synostoses in older adults
first class levers
-fulcrum is between effort and resistance -ex: pair of scissors: effort applied to handle of scissors, fulcrum along the middle of scissors -ex: atlanto-occipital joint of the neck
which are classifed as synovial joints? -bodies of intervertebral joints -glenohumeral -elbow -knee joint
-glenohumeral -elbow -knee joint
four types of motion occur at synovial joints
-gliding -angular -rotational -special movement: motions that occur only at specific joints
arthristis
-group of inflammatory or degenerative diseases of joints that occurs in various forms. -symptoms: swelling of the joint, pain, and stiffness -most prevalent crippling disease in the US -Common form: gouty arthritis, osteoarthritis, rheumatoid arthritis
temporomandibular joint (TMJ) features
-head of mandible articulates with temporal bone -only mobile joint between bones in the skull -has loose articular capsule; surround joint, promotes extensive range of motion -has articular disc; thick pad of fibrocartilage, divides synovial cavity into two chambers
select all that are components of the hip joint -head of the femur -acetabulum -acetabular labrum -anular ligament
-head of the femur -acetabulum -acetabular labrum
talocrural joint
-highly modified hinge joint -permits dorsiflexion and plantar flexion -includes two articulation within one articular capsule: between distal end of tibia and talus, between distal end of fibula and lateral aspect of talus
articular cartilage
-hyaline cartilage on bone surface at joint -functions: reduces friction during movement, acts as a cushion to absorb joint compression, prevents damage to articulating end of bones -lacks a perchondrium -avascular
Choose the accurate statement(s) regarding the types of fibrous joints -the attachment of a tooth to its socket is classified as a joint called a syndesmosis -in a syndesmosis, the fibers are longer and the attached bones are more movable -in gomphoses joints, two bone are linked by cartilage -in sutures and gomphoses, the fibers are very short and allow for litlle or no movement -sutures are immovable or only slightly movable fibrous joints that closely bind the bones of the skull to each other
-in a syndesmosis, the fibers are longer and the attached bones are more movable -in sutures and gophoses, the fibers are very short and allow for little or no movement -sutures are immovable or only slightly movable fibrous joints that closely bind the bones of the skull to each other
Choose the factors that detemine a joint's range of motion -tendons limit a joint's range of motion, but muscles play a minor role -in many cases, joint movement is limited by the shapes of the bone surfaces -bones are joined by ligaments that limit their movement -in many joints, pairs of muscles oppose each other and moderate the speed and range of joint motion -the articular surfaces of bones are designed is such a way as to always permit the greatest range of motion at a joint
-in many case, joint movement is limited by the shapes of the bone surfaces -bones are joined by ligaments that limit their movement -in many joints, pairs of muscles oppose each other and moderate the speed and range of joint motion
synovial joints movement: angular motion
-increase or decrease angle between two bones -includes specific types: flexion and extension, hyperextension, lateral flexion, abduction and adduction, circumduction
special movement: depression
-inferior movement of a body part -ex: movement of mandible while opening mouth
elbow joint
-is a hinge joint composed of two articulation -humeroulnar joint and humeroradial joint both enclosed within a single articular capsule
knee joint
-largest and most complex diarthrosis -primarily a hinge joint -capable of slight rotation and lateral gliding when flexed -composed of two separate articulation: tibiofemoral joint and patellofemoral joint
angular motion: abduction
-lateral movement of body part away from midline -ex: arm or thigh moved laterally from body midline
retinacular fibers
-ligamentous fibers of artiular capsule -reflect and femur neck -retinacular arteries here; supply most blood to femur head and neck
special movement: dorsiflexion
-limited to ankle joint -talocrural (ankle) joint bent so the dorsum (superior surface) of foot moves toward the leg -ex: when digging in your heels
hip joint: intrascapsular ligaments
-lliofemoral ligament -ischiofemoral ligament -pubofemoral ligament -ligament of the head of femus become taut when hip extended
synovial fluid functions
-lubricates-articular cartilage on articulating surfaces -nourishes the chondrocytes- of articular cartilage -acts as a shocker absorber-distributes stresses and forces evenly across the articular surface
anatomical features of talocrural joint
-medial and lateral malleoli of tibia and fibula: prevent talus from sliding medially or laterally -articular capsule covers distal tibia, medial malleolus, later malleolus, and talus -deltoid ligament -lateral ligament -anterior and posterior tibiofibular ligament
angular motion: adduction
-medial movement of body part toward midline -ex: arm or thigh brough back toward midline
TMJ disorders
-most common due to alteration in the ligaments securing the joint -articular disc forced out of normal positon -clicking or popping heard as person opens or closes mouth -possible pain in joint, paranasal sinuses, tympanic membrane, oral cavity, eyes, and teeth
angular motion: Flexion
-movement in an anterior-posterior plane -decreases the angle between bones: brings bones closer together -ex: bending fingers
special movement: opposition
-movement of thumb toward tips of fingers at carpometacarpal joint -enables the thumb to grasp object
Range of motion at joints
-no movement to extensive movement -structures of each joint determines its mobility or stability -inverse relationship (trade off) between mobility and stability ex: skull sutures are imobile but very stable
sensory receptors and blood vessels
-numerous in synovial joint -receptores detect painful stimuli, report on movement and stretch
special movement: eversion
-occurs only at intertarsal joints of foot -sole turns laterally
special movement: inversion
-occurs only at intertarsal joints of the foot -sole turns medially
which of the following commonly occur at the joints in elderly individuals -osteoarthritis -rheumatoid arthritis -articular cartilage begins to break down in weight-bearing joints -joints become more flexible
-osteoarthritis -articular cartilage begins to break down in weight-bearing joints
condylar joint
-oval, convex surface articulating with concave surface -biaxial -MP (metacarpophalangeal or metatarsophalangeal) joints
each form of arthritis presents the same symptoms, which are -fractures -pain -sprains -stiffness -swelling
-pain -stiffness -swelling
Gomphoses
-peg in a socket -articulations of teeth with sockets of mandible and maxillae -tooth held in place by fibrous periodontal membranes -function as synarthroses
shoulder joint: acromioclavicular joint
-plane joint -formed from acromion and lateral end of clavicle -fibrocartilaginous articular disc within joint cavity -joint capsule strengthened superiorly by acrominoclavicular ligament -clavicle bound to coracoid process by coracoclavicular ligament: if torn, acromion and clavicle no loner align (shoulder separation)
special movement: retraction
-posterior movement from anatomic position -ex: pulling jaw posteriorly at temprormandibular joint
angular motion: circumduction
-proximal end of appendage relatively stationary -distal end makes a circular motion -movement makes an imaginary cone shape -ex: drawing a circle on the blackboard
fibular collateral ligament
-reinforces lateral surface of joint -extends from femur to fibula -prevents hyperadduction
tibial collateral ligament
-reinforces medial surface of joint -extends from femur to tibia -prevents hyperabduction
second class lever
-resistance is between fulcrum and effort -small force able to balance larger weight -ex: wheelbarrow, fulcrum far from effort -rare in the body -ex: standing on tiptoe
sternoclavicular joint
-saddle joint -formed by manubrium and sternal end of clavicle -fibrocartilaginous articular disc; partitions joints into two parts forming two synovial cavities -elevation, depression, circumduction of clavicle possible -stability provided by fibers and ligaments; makes very stable and diffcult to dislocate
support of the hip joint
-secured by articular capsule, ligaments, and muscles -articular capsule -retinacular fibers
ligament of the head of femur (ligamentum teres)
-small ligament from acetabulum to fovea of head of femur -does not provide stability -contains artery supplying head of femur
joint cavity
-space b/t articulating bones -lined by synovial membrane secreting synovial fluid
ligaments of the TMJ
-sphenomandibular ligament: extends anteriorly and inferiorly from sphenoid to mandible -temporomandibular ligament: extends inferiorly and posteriorly from articular tubercle to mandible
ball and socket joint
-spherical head of one bone fitting into cuplike socket -multiaxial, permitting movement in three planes -most freely mobile type of joint -glenohumeral (shoulder) joint, hip joint
radial collateral ligament
-stabilizes joint at lateral surface -extends around head of radius
ulnar collateral ligament
-stabilizes medial side of the joint -extends from medial epicondyle of humerus to coronoid and olecranon of ulna
select all the joints associated with shoulder movement -sternoclavicular -claviculohumeral -acromioclavicular -glenohumeral
-sternoclavicular -acrominoclavicular -glenohumeral
glenohumeral (shoulder) joint: most joint stability due to rotator cuff muscles
-subscapularis, supraspinatus, infraspinatus, teres minor -work as a group to hold head of humerus in glenoid cavity -tendons encircle joint and fuse with articular capsule
special movement: elevation
-superior movement of a body part -ex: movement of mandible when closing mouth
annular ligament
-surrounds the neck of the radius -binds head of the radius to the ulna
special movement: plantar flexion
-talocrural joint bend so dorsum pointed inferiorly -ex: ballerina on tiptoes in full plantar flexion
intrinsic ligaments
-thickening of the articular capsule itself -include ligaments outside and within the articular capsule
angular motion: lateral flexion
-trunk of body moving in coronal plane laterally -occurs between vertebrae in the cervical and lumbar region
synovial joints movement: gliding
-two opposing surfaces sliding back and forth or side to side -only limited movement possible in any direction -typically occurs along planes joints: carpals or tarsals
Movement of a bone at a synovial joint may be decribed in one of three ways
-uniaxial -biaxial -multiaxial or triaxial
the plane joint between the acromion and the lateral end of the clavicle is the _______ joint a. acromioclavicular b. sternoclavicular c. glenohumeral d. radioulnar
a. acromioclavicular
how are syndesmoses classified in terms of mobility? a. amphiarthrotic b. synarthrotic c. diarthrotic
a. amphiarthrotic
the talocrural joint is more commonly called the _____ joint a. ankle b. elbow c. shoulder d. hip
a. ankle
which ligament failed to keep the head of the radius in place when the mother pulled on the boy's elbow? a. anular ligament b. ulnar collateral ligament c. radial collateral ligament d. coronoid ligament
a. anular ligament
one part of the elbow join is the humeroradial joint where the _____ of the humerus articulates with the ____ of the radius a. capitulum; head b. trochlea; radial notch c. radial notch; head
a. capitulum; head
A metacarpophalangeal (MP) joint, which has oval articulaing surfaces and permits movement in two planes, is what type of synovial joint? a. condylar b. plane c. hinge d. saddle
a. condylar
_____ is the movement is an anterior-posterior plane that increases the angle between the articulating bones. a. extension b. flexion
a. extension
______ is movement in an anterior-posterior plane that decreases the angle between the articulating bones a. flexion b. extension c. adduction
a. flexion
greatest range of motion a. glenohumeral joint b. coxal joint
a. glenohumeral joint
indistinct or absent ligament a. glenohumeral joint b. coxal joint
a. glenohumeral joint
most frequently dislocated joint a. glenohumeral joint b. coxal joint
a. glenohumeral joint
most unstable joint a. glenohumeral joint b. coxal joint
a. glenohumeral joint
the coxal joint is the articulation between the _____ of the femur and the ____ of the os coxae a. head; acetabulum b. head; ischium c. trochanter; ilium d. trochanter; pubis
a. head; acetabulum
the elbow joint is a _____ joint a. hinge b. ball and socket c. condyloid d. planar
a. hinge
which of the following are categorized as symphyses? a. intervertebral joints b. sternocostal joints c. knee joints d. squamous sutures
a. intervertebral joint
the temporomandibular joint has a _____ articular capsule a. loose b. tight
a. loose
_____ rotation turns the anterior surface of the femur or humerus medially a. medial b. lateral
a. medial
fibrocarilage is a _____ resists compression and acts as a shock absorber a. symphysis b. synchondrosis c. synovial joint
a. symphysis
in terms of mobility, immobile joints are classifed as a. synarthroses b. diarthroses c. amphiarthroses
a. synarthroses
the joint capsule has an inner layer called the a. synovial membrane b. fibrous layer c. articular cartilage
a. synovial membrane
Plane a. uniaxial b. biaxial c. multiaxial
a. uniaxial
hinge a. uniaxial b. biaxial c. multiaxial
a. uniaxial
pivot a. uniaxial b. biaxial c. multiaxial
a. uniaxial
synovial fluid is located _____ a synovial cavity a. within b. around
a. within
which type of angular motion: lifting the arm out to the side of your body in a coronal plane
abduction
which type of angular motion: spreading your fingers apart
abduction
All symphyses are ______ - thus they allow _________
amphiarthroses; slightly mobility
lever: effort
applied to one point
biomechanics
applying mechanical principles to biology
synovial joint basic features
articular capsule and joint cavity synovial fluid articular cartilage ligaments, nerves, and blood vessels
Which synovial joint characteristics composed of dense connective tissue?
articular capsule: fibrous layer
Which synovial joint characteristics stabilizes and strengthen the joint?
articular capsule: fibrous layer
Which synovial joint characteristics is composed of areolar connective tissue?
articular capsule: synovial membrane
Which synovial joint characteristics lines the articular capsule?
articular capsule: synovial memebrane
Which synovial joint characteristics is composed of hyaline cartilage?
articular cartilage
Which synovial joint characteristics reduces friction between bones?
articular cartilage
joint
articulation places of contact between bones, bone and cartilage, or bones an teeth
In the body, an example of a first class lever is the ________
atlanto-occipital joint of the neck
which is a function of synovial fluid? a. holds bones together b. acts as a shock absorber c. circulated white blood cells
b. acts as a shock absorber
a joint capsule is also called a(n) ______ capsule a. bursa b. articulating c. tendon
b. articulating
a joint is also known as a(n) a. ligament b. articulation c. tendon d. synapse
b. articulation
condylar a. uniaxial b. biaxial c. multiaxial
b. biaxial
saddle a. uniaxial b. biaxial c. multiaxial
b. biaxial
biomechanics is applying mechanical principles to a. physics b. biology c. chemistry
b. biology
in the field of _____, it is useful to compare the joint movements and muscle contractions to the mechanics of a lever a. mechanobiology b. biomechanics c. lever mechanics d. osteomechanics
b. biomechanics
the sternoclavicular joint is between the sternal end of the clavicle and the manubrium of the sternum; it is a _____ type of synovial joint a. saddle b. condylar c. pivot
b. condylar
complete capsule around joint a. glenohumeral joint b. coxal joint
b. coxal joint
deep bony socket a. glenohumeral joint b. coxal joint
b. coxal joint
has intracapsular ligament for reinforcement a. glenohumeral joint b. coxal joint
b. coxal joint
ligamentum teres a. glenohumeral joint b. coxal joint
b. coxal joint
_____ is the inferior movement of a part of the body a. retraction b. depression c. protraction
b. depression
functionally, all synovial joints are classifed as a. amphiarthroses b. diarthroses c. synarthroses
b. diarthroses
the opposite of depression is a. pronation b. elevation c. rotation
b. elevation
which is a location of a synchondrosis? a. between vertebrae b. epiphyseal plate c. between cranial bones d. between pelvic bones
b. epiphyseal plate
straightening your arm at the elbow is an example of a. flexion b. extension c. abduction
b. extension
dense regular connective tissue connect bones in a. cartilaginous b. fibrous c. synovial
b. fibrous
when bones are brought closer together as the angle between them decreases, it is called a. pronation b. flexion c. abduction d. extension
b. flexion
a lever rotates around a fixed point called a(n) a. effort b. fulcrum c. resistance
b. fulcrum
_______ is a simple movement in which two opposing surfaces slide slightly back and forth or side to side with respect to one another a. condylar b. gliding c. flexion
b. gliding
planar joints are also called _____ joints a. pivot b. gliding c. hinge
b. gliding
which type of rotation turns the anterior surface of the femur or humerus laterally? a. medial b. lateral
b. lateral
the patella moves along the patellar surface of the femur in the ____ joint a. talocrural b. patellofemoral c. tibiofemoral
b. patellofemoral
most knee ligament become taut upon extension of the joint, except for one. which knee ligament becomes taut upon flexion of the joint and prevent hyperflexion of the joint? a. anterior cruciate ligament b. posterior cruciate ligament c. patellar ligament d. tibial collateral ligament
b. posterior cruciate ligament
which knee joint ligament helps to maintain the alignment of the condyles between the femur and tibia and to limit the anterior movement of the tibia on the femur? a. tibial collateral ligament b. posterior cruciate ligament c. anterior cruciate ligament d. fibular collateral ligament
b. posterior cruciate ligament
how is a gomphosis characterized, in terms of movement? a. amphiarthrosis b. synarthrosis c. diarthrosis
b. synarthrosis
which joint is a diarthrosis? a. symphysis b. synchondrosis c. syndemosis d. saddle
b. synchondrosis
what type of structure is formed when two bones previously connected by a suture fuse? a. gomphosis b. synostosis c. symphysis d. syndemosis
b. synostosis
clicking or popping noise may be heard as the person opens or closes in the mouth when there is damage to the a. atlantaxial b. temporomandibular
b. temporomandibular
the doctor mentions that this type of injury is common in children younger than 5 years of age. What is one reason for this? a. the olecranon of the ulna does not fit it properly with the olecranon fossa of the radius b. the head of the radius is not fully formed c. the medial and lateral epicondyle epiphyseal plates have not yet fused to the rest of the humerus d. the articular capsule of the elbow joint is weak in its anterior surface
b. the head of the radius is not fully formed
synovial fluid is a ______ substance a. gel-like b. viscous, oily c. thin, watery
b. viscous, oily
which joint function inability to circumduct
ball and socket replaced by hinge
tibiofemoral joint
between condyles of femur and condyles of tibia
patellofemoral joint
between patella and patellar surface of femur
a major dynamic stabilizer of anterior displacement of the humerus is the _______, which lies in the intertuburcular groove and attaches to the superior aspect of the glenoid rim.
biceps brachii tendon
multiaxial joint
bone moves in multiple planes or axes
synovial joints movement: rotation
bone pivots on its own longitudinal axis
fibrous joint
bones held together by dense connective tissue have no joint cavity immobile or only slightly mobile ex: gomphosis, suture, syndemosis
synovial joint
bones joined by liagments with fluid-filled joint cavity separating bone surfaces includes most joints in body freely mobile ex: glenohumeral (shoulder) joint, temporomandibular joint, elbow joint, knee joint ex: planes, hinge, pivot, condylar, saddle, ball and socket
cartilaginous joints
bones joints by cartilage hyaline cartilage or fibrocartilage b/t bones lack joint cavity immobile or slight mobile ex: synchondrosis, symphysis
biaxial joint
bones move in two planes or axes
uniaxial joint
bones moves in just one plane or axis
abduction and adduction are types of _____ motion a. rotational b. gliding c. angular
c. angular
a symphysis is a type of ______ joint a. synovial b. fibrous c. cartilaginous
c. cartilaginous
an example of _____ is moving the mandible to open the mouth a. eversion b. inversion c. depression
c. depression
what term describes the movement of the foot that turns the sole outward or laterally? a. dorsiflexion b. inversion c. eversion d. plantar flexion
c. eversion
sutures are _____ joints. a. cartilaginous b. synovial c. fibrous
c. fibrous
syndesmoses are _____ joints a. cartilaginous b. synovial c. fibrous
c. fibrous
the ______ layer of the synovial joint stregthens the joint to prevent the bones from being pull apart a. articular b. synovial c. fibrous
c. fibrous
which of the following joints exhibits the greatest range of mobility? a. knee joint b. hip joint c. glenohumeral joint d. elbow joint
c. glenohumeral joint
what bony feature caused the prominent bump on the lateral side of the elbow? a. lateral epicondyle of the humerus b. coronoid process of the ulna c. head of the radius d. radial collateral ligament
c. head of the radius
the knee is primarily a _____ joint a. saddle b. planar c. hinge d. ball and socket
c. hinge
ball and socket a. uniaxial b. biaxial c. multiaxial
c. multiaxial
hip (coxal) joint a. uniaxial b. biaxial c. multiaxial
c. multiaxial
the patella moves along the patellar surface of the femur in the ____ joint a. talocrural b. tibiofemoral c. patellofemoral
c. patellofemoral
which is the simplest synovial articulation, and is the least mobile? a. condylar b. biaxial c. plane d. triaxial
c. plane
the sternoclavicular joint is a ______ joint a. hinge b. ball and socket c. saddle
c. saddle
an articulation in which bones are joined by hyaline cartilage is called a a. suture b. synostosis c. synchondrosis d. gomphosis
c. synchondrosis
which type of joint contains bones that are separated by a joint cavity? a. cartilaginous b. fibrous c. synovial
c. synovial
damage to the _____ joint may cause headaches and sinus pressure a. atlantoaxial b. atlanto-occipital c. temporomandibular
c. temporomandibular
the ______ joint is the articulation formed at the point where the head of the mandible articulates with tubercle of the temporal bone anteriorly and the mandibular fossa posteriorly a. temporoparietal b. temperosphenoidal c. temporomandibular
c. temporomandibular
In this type of lever, the effort is located between the resistance and the fulcrum. An example would be your knee joint. a. first class b. second class c. third class d. two or the above are correct
c. third class
in the body, one example of activity at a second class lever is the
calcaneal tendon attachment to the heel
humeroradial joint
capitulum of humerus articulating with head of radius
which joint embryology: mesenchyme turns into fibrocartilage or hyaline cartilage
cartilaginous joint
which type of angular motion a move that can involve all of the angular movement?
circumduction
which type of angular motion: a continous sequence of all other angula motions
circumduction
inner synovial membrane
composed primarily of areolar connective tissue covers internal joint surfaces not covered by cartilage helps produce synovial fluid
which of the following is a function of synovial fluid? a. lubricates the joints b. provides nutrients for the articular cartilage c. absorbs shock within the joint d. all of these are correct
d. all of these are correct
while robert was running, he stepped into a pothole and twisted his right ankle. a swelling appeared along the lateral side of this ankle. which ligament was injured, and what movement result in the injury? a. deltoid ligament, caused by overeversion of the foot b. lateral ligament, caused by overeversion of the foot c. deltoid ligament, caused by overinversion of the foot d. lateral ligament, caused by overinversion of the foot
d. lateral ligament, caused by overinversion of the foot
which of the following ligaments does not provide stability to the hip joint? a. ischiofemoral ligament b. pubofemoral ligament c. ilifemoral ligament d. ligament of the head of the femur
d. ligament of the head of the femur
which joint permits the movements of plantar flexion and dorsiflexion? a. hip b. knee c. sternoclavicular d. talocrural
d. talocrural
one part of the elbow joint is where the trochlear notch of the _____ articulates with the ______ of the humerus a. radius; glenoid cavity b. radius; radial notch c. ulna; glenoid cavity d. ulna; trochlea
d. ulna; trochlea
synovial joints movement: special movement
does not readily fit other functional categories
articular capsule or joint capsule
each synovial joint is composed of a double layer capsule outlayer: fibrous layer innerlayer: synovial membrane
a third class lever is observed when the _____ is applied between the resistance and the fulcrum
effort
articular capsule
encloses only medial, lateral, and posterior knee regions
patellar ligament
extends from patella to tibial tuberosity
tendons help stabilize joints because they form part of the synovial joint itself true or false
false
the only gomphosis in the human body is between the radius and the ulna true or false
false
a symphysis has a pad _____ between the articulating bones.
fibrocartilage
acetabular labrum
fibrocartilaginous ring that deepens sockets
which joint embryology: mesenchyme turns into dense regular connective tissue
fibrous joint
what are the structural classes of the joints?
fibrous joint cartilaginous joints synoival joints
a lever system in which the fulcrum is located between the point of effort and the point of resistance is a ______ class lever
first
Three classes of levers
first class second class third class
which class levers: atlanto-occipital joint of the neck
first class lever
which class levers: children playing on a seesaw
first class lever
which class levers: rocking of the foot on the tibia with raised toes
first class lever
which type of angular motion: movement at the neck when you look down
flexion
which type of angular motion: moving the forearm toward the arm at the elbow
flexion
outer fibrous layer
formed from dense connective tissue strengthens joints to prevent bones being pulled apart
Diarthrosis
freely movable joints synovial joints
a first-class lever has a _____ in the middle, between the effort and the resistance.
fulcrum
the ______, or shoulder joint, sacrifices stability for mobility and therfore requires active stabilization from muscles and passive stabilization from ligamentous structures
glenohumeral
lining the rum of the glenoid fossa is a ring of fibrocartilage called the _______, which serves to deepen the extremely shallow articulating surface of the glenoid.
glenoid labrum
a motion in which the angle between the bones does not change and only limited movement is possible in any direction is called
gliding or uniaxial
which joint function decreased tooth stability and resilience
gomphoses replaced by pivot
which type of angular motion: increasing joint angle beyond normal
hyperextension
synarthroses
immobile joints fibrous or cartilaginous joints
ischiofemoral ligament
intracapsular ligament posteriorly located
a third class lever is found at the
joint between the humerus and ulna
Which synovial joint characteristics contains synovial fluid?
joint cavity
Which synovial joint characteristics separates articulating bones?
joint cavity
the bones in a synovial joints are separated by a space called
joint cavity
rotational motion: supination
later rotation of forearm so palm of hand anterior
lliofemoral ligament
ligament providing support for anterior articular capsule
lever: resistance
located at some other point
rotational motion: Pronation
medial rotation of forearm so palm of hand posterior
special movement: reposition
opposite of opposition
symphysis
pads of fibrocartilage b/t articulating bones resist compression and act as shock absorbers allow slight mobility (amphiarthroses)
lever: effort arm
part of lever from fulcrum to point of effort
lever: resistance arm
part of lever from fulcrum to point of resistance
quadriceps femoris muscle tendon
passes over knee's anterior surface, surrounds patella
extrinsic ligaments
physically separated from articular capsule
example of symphyses include the _________, which is located between the right and left public bones and the __________, where the bodies of adjacent vertebrae are both separated and united by the intervertebral discs.
pubic symphysis; intervertebral joint
in a second class lever, the ______ is between the fulcrum and the applied effort
resistance
a lever is a(n) ______ object that rotates around a point called a(n) _______
rigid; fulcrum
the four muscles of the _______ all originate on the scapula and produce forces that keep the humeral head in contact with the glenoid during movements powered by the larger musculature (e.g. latissimus dorsi, deltoid, pectoralis major) crossing the joint
rotator cuffs
which class levers: flexing the calf muscles and rolling onto the balls of the feet
second class lever
which class levers: sitting in a chair and raising the knee
second class lever
The fibrocartilage resist both compression and tension stresses and acts as a resilient ______
shock absorber
amphiarthroses
slightly mobile joints fibrous or carilaginous joints
In second class lever, a _____ force can balance ____ weight in this type of lever because the effort is always farther from the fulcrum than the resistance.
small; large
joints is classified by
structure function
Arthrology
study of joints
immobile (synarthrotic) fibrous joints that are found between the bones of the skull are called
sutures
which joint function decrease in nervous system protection
sutures replaced by plane joints
Which joint functions decreased mobility of vertebral column?
symphyses replaced by synostoses
what are the functional classification of joints?
synarthroses amphiarthroses diarthroses
synchondroses
synchodrosis bone joined by hyaline cartilage immobile (synarthroses)
which joint functions inability to pronate, or supinate
syndesmoses replaced by synostoses
which joint functions unfuses os coxa resulting in separated ilia, pubis, and ischia in adulthood
synostoses replaced by synchondroses
the fluid that nourishes the condrocytes of the articular cartilage in a synovial joint is called
synovial fluid
which joint embryology: central mesenchyme forms menisci
synovial joint
which joint embryology: lateral mesynchyme forms articular capsule
synovial joint
which joint function increase in respiratory difficulty
synovial rib attachments replaced by syndesmoses
structures that are composed of dense regular connective tissue and attach muscles to bones are called
tendons
when analyzing synovial joint movement and muscle contraction, anatomist often compare the movement to
the mechanics of a lever
which class levers: bending at the knee
third class lever
which class levers: flexing the elbow
third class lever
the knee has two articulations, the ______ joint and the patellofemoral joint
tibiofemoral; femoropatellar
spanning the intertuburcular groove of the proximal humerus, the ______ ligament works to keep the ciceps tendon in place during contractions of the biceps muscle
transverse humeral
pubofemoral ligament
triangular thickening of capsule's inferior region
humeroulnar joint
trochlear notch of ulna articulating with trochlea of humerus
The cartilage found between the articulating bones is either hyaline cartilage or fibrocartilage true or false
true
bones articulate at the joint true or false
true
like fibrous joints, cartilaginous joints also lack a joint cavity. they may be either immobile or slightly mobile true or false
true
rotational motion: medial rotation
turns anterior surface of bone medially
rotational motion: lateral rotation
turns anterior surfaces of bone laterally
synovial fluid
viscous, oily substance located within a synovial joint. product of both synovial membrane cells and the filtrate formed from blood plasma