KNH 244 Exam 3
deltoid and supraspinatus
What 2 muscles are functioning as agonists at the GH joint during the concentric phase of the lateral raise?
A to B
What is the concentric phase of this exercise?
mixed nerve
When peripheral nerves contain all motor neurons, in which case it is said to be a motor nerve which it contains both sensory and motor neurons
B to A
Which is the concentric phase of the push-up exercise?
Radial collateral
Which ligament limits the motion seen here?
gravity weight barbell
________ is the mover during the eccentric phase of the exercise?
upward rotation scapula
_____of the _____ at the scapulocostal joint
Function of CNS
`after receiving the sensory information, in then processes that sensory input via its integrative neurons
interstitial myofascial receptors
a 3rd group of mechanoreceptors found within joint capsules
Almost every movement of the arm at the GH joint also requires
a coupled movement of the shoulder girdle, in other words the scapula and clavicle
palmar plates
a ligamentous-like thick disc of fibrocartalige located on the palmar side of the joint, superficial to the fibrous capsule also know as the volar plate
muscle spindles
a type of muscle proprioceptor that is located within a muscle and is sensitive to a stretch (ie lengthening of the muscle)
Each sensory receptor is highly sensitive to
a type of stimulus
Wrist joint
actually two complex major joint: radoiocarpal and mid carpal joint
accessory motions of the MCP joint
allow a great deal of passive glide in all directions as well as passive motions
distal radioulnar joint
allows the radius to "swing" around the ulna
scapulocostal (ScC) joint
also know as the scapulothoracic joint the scapula and the ribcage not an anatomic joint, it is a functional joint
humeroulnar joint (elbow)
also know as the ulnotrochlear joint located in between the distal end of the humerus and the proximal end of the ulna synovial and diathoracic joint
transverse carpal ligament
also known as the flexor retinaculum because it functions as the retinaculum to hold down the extrinsic finger flexor muscles that enter the hand from the forearm
humeroradial joint (elbow)
also known as the radiocapitular joint located between the distal end of the humerus and the proximal end of the radius synovial and diathoracic joint
2 parts of the lateral collateral ligament (elbow)
annular fibers and ulnar fibers
major ligaments of the radioulnar joints
annular ligament fibrous joint capsule interosseus membrane oblique cord fibrous joint capsule RU disc
the muscle on the opposite side of a joint
antagonist
pronator quadratus attachments
anterior distal ulna anterior distal radius
palm (hand)
anterior region of the metacarpus of the hand
3 Parts of Medial Collateral Ligament (elbow)
anterior, posterior, and transverse fibers
closed packed position of the interphalangeal joints
approximately full extension
Golgi tendon organ and its tendon reflex
are protective in nature
muscle spindles and golgi tendon organs
are similar in that they are protective in nature
extrinsic ligaments of the wrist
attach into one or both of the forearm bones and then attach distally onto carpal bones. their primary function is to stabilize the radiocarpal joint. if they cross the mid carpal joint, they add to the stability of that joint as well. `
intrinsic ligaments
attach proximally and distally onto carpal bones, crossing and stabilizing motion between carpal bones primarily at the mid carpal joint divided into short, intermediate and long ligaments short intrinsic ligaments connect the distal row of carpal bones to each other the intermediate ligaments function to connect the bones of the proximal row together the long intrinsic ligaments connect the scaphoid, triquetrum, and capitate to each other two long ligaments: dorsal intercarpal ligament and palmar intercarpal ligament
radioulnar disc (triangula fibrocartilage)
attached to the radius and ulna it adds to the stability of the radiocarpal joint because it blends into the capsular/ligamentous structure of the radiocarpal joint
Lateral Collateral Ligament (LCL) (elbow, radial)
attaches from the lateral epicondyle of the humerus to the annular ligament that lies over the radial head and to the ulna functions are to stabilize the lateral side of the elbow joint and to prevent adduction of the forearm at the elbow joint
Medial Collateral Ligament (MCL) (elbow, ulnar)
attaches from the medial epicondyle of the humerus to the ulna functions to stabilize the medial side of the elbow joint and prevent abduction of the forearm at the elbow joint
annular ligament of radius
attaches to the anterior ulna, wraps around the head of the radius and the attaches to the posterior ulna its function is to stabilize the proximal RU joint and creates a cavity within which the head of the radius can rotate
Tennis elbow develops because of poor mechanics or overuse during the...
backhand swing
Golgi tendon organ reflex
because a pulling force on a tendon may stretch and tear it, this impulse in the spinal cord causes a reflex relaxation of the muscle. By relaxing the muscle, the muscle no longer creates a pulling force that might tear the tendon also know as the tendon reflex
Why is white matter white?
because of myelin, when it is present it wraps around neuronal axons
coracohumeral ligament location
between the coracoid process of the scapula and the greater tubercle of the humerus
The radoiocarpal joint is
biaxial
metacarpus
body of the hand contains 5 metacarpal bones
muscle spindle reflex or stretch reflex
by contracting and shortening, the muscle stops any excessive stretching that might tear the muscle
peripheral nerve
can contain all sensory neurons, in which case it is said to be a sensory nerve
Brachioradialis
can supinate and pronate the forearm
bones of the hand can be divided into
carpals, metacarpals, and phalanges
3 regions of the hand
carpus, metacarpus, and palm ray and phalanges
motor neuron
carries a message that directs a muscle to contract, also known as efferent neurons
sensory neuron
carries a sensory stimulus, also known as afferent neurons
Function of PNS
carries sensory information from the periphery to the body into the CNS
axon
carries the nerve impulses away from the cell body
descending pathways
carry motor information down from the brain to the spinal cord
ascending pathways
carry sensory information to the brain lower levels of the spinal cord to higher levels of the spinal cord
Dendrites
carry the nerve impulse toward the cell body
Three major parts of the brain
cerebrum, cerebellum, brain stem
spinal cord
composed of outer area of white matter and inner area of grey matter the grey matter is where the connections occur
carpus
composed of the 8 carpal bones
fifth ray of the hand
composed of the fifth metacarpal and the three phalanges of the little finger
first ray of the hand
composed of the first metacarpal and the two phalanges of the thumb
fourth ray of the hand
composed of the fourth metacarpal and the three phalanges of the ring finger
second ray of the hand
composed of the second metacarpal and the three phalanges of the index finger
third ray of the hand
composed of the third metacarpal and the three phalanges of the middle finger
the 3 articulations of the elbow joint are
considered one joint but since three separate articulations are involved they can be considered three separate joints
the fingers
contain phalanges
muscles of the glenohumeral joint
deltoid coracobrachialis pectoralis major latissimus dorsi teres major supraspinatus infraspinatus teres minor subscapularis
Which part of a neuron receives electrical impulses?
dendrites
neuron composed of
dendrites, a cell body, and an axon
Triceps brachii
dentify a stabilizer during the eccentric phase of this exercise
Lower Trapezius function
depression of scapula
brachialis attachments
distal 1/2 of the anterior shaft of the humerus to the ulnar tuberosity
extrinsic ligaments of the wrist joint complex
dorsal radiocarpal ligament palmar radoiocarpal ligaments radial collateral ligament ulnar collateral ligament
all nerve impulses can be considered
either facilitatory or inhibitory
nerve impulse
electrical signal carried by nerves
the hand is defined as
everything distal to the radius and ulna
anconeus functions
extends the forearm at the elbow joint
triceps brachii functions
extends the forearm at the elbow joint extends the arm at the GH joint
Identify the movement occurring at the wrist complex during the eccentric phase of the forearm exercise _________of the __________ at the radiocarpal and midcarpal joints.
extension hand
closed packed position of the wrist joint
extension and slight ulnar deviation
major muscles of the saddle joint of the thumb
extrinsic muscles: flexor pollicis longus, extensors pollicis longs and brevis and abductors pollicis longs intrinsic mucles: the three muscles of the thenar eminence (the abductor and flexor pollicis brevis and the opponens pollicis) and the adductor pollicis
Anterior thigh associated peripheral nerve
femoral
major ligaments of the elbow joint
fibrous capsule medial collateral ligament (ulnar) lateral collateral ligament (radial) annular ligament
major ligaments of the saddle (CMC) joint of the thumb
fibrous capsule radial collateral ligament ulnar collateral ligament anterior oblique ligament posterior oblique ligament first inter metacarpal (IMC) ligament
proximal IMC joint ligaments
fibrous capsules IMC ligaments
distal IMC joints
fibrous capsules deep transverse metacarpal ligaments
major ligaments of the CMC joints
fibrous capsules dorsal CMC ligaments palmar CMC ligaments interosseous CMC ligaments
major ligaments of the MCP joint
fibrous capsules radial collateral ligaments ulnar collateral ligaments palmar plates
major ligaments of the IP joints
fibrous capsules radial collateral ligaments ulnar collateral ligaments palmar plates check-rein ligaments (PIP joint only)
brachialis function
flexes the forearm at the elbow joint
Brachioradialis functions
flexes the forearm at the elbow joint supinates the forearm at the RU joints pronates the forearm at the RU joints
biceps brachii functions
flexes the forearm at the elbow joint supinates the forearm at the RU joint flexes the arm at the GH joint
major motions allowed IP joint
flexion and extension (axial movements) within the sagittal plane around a mediolateral axis
major motions of the MCP joint
flexion and extension (axial movements) within the sagittal plane around a mediolateral axis abduction and adduction (axial movements) within the frontal plane around an anteroposterior axis
major actions of the elbow joint
flexion and extension of the forearm in the sagittal plane around a mediolateral axis
major motions of the radiocarpal and mid carpal joints
flexion and extension of the hand in the sagittal plane around a mediolateral axis (flexion is greater at the radiocarpal joint and extension is greater in the midcarpal joint) radial deviation and ulnar deviation of the hand in the frontal plane around an anteroposterior axis
Bicep brachii function
flexion of the arm
proximal interphalangeal joint (PIP)
flexion: 100-120 degrees extension: 0 degrees
Interphalangeal (IP) Joint of the thumb
flexion: 80 degrees extension: 0 degrees
distal interphalangeal joint (DIP)
flexion: 80-90 degrees extension: 0 degrees
major muscles of the MCP joint
flexors digitorium superficialis and profundus extensor digitorium extensor digiti minimi extensor indicis flexor pollicis longus extensors pollicis longs and brevis
reverse actions of the carpal bones
forearm can move relative
middle radioulnar joint
formed by the interosseus membrane that connects the shafts of the radius and ulna fibrous, syndesmosis joint amphiarthortic, uniaxial joint
transverse carpal ligament of the wrist
forms the roof of the carpal tunnel attaches to the tubercles of the scaphoid and the trapezium radially and to the pisiform and hook of hamate on the ulnar side functions to enclose and stabilize the carpal tunnel also functions as a reticulum for the extrinsic finger flexor muscles of the forearm that enter the hand
third group of mechanoreceptors
found within joint capsules, they are known as interstitial myofascial receptors
Coronal plane is the same as
frontal plane
closed packed position of the saddle joint of the thumb
full opposition
coracoacromial ligament
function is to protect the superior structures of the GH joint
proximal radioulnar joint
functionally separate from the elbow joint and will be considered as a part of the radioulnar joint
middle radioulnar joint
functions to transfer force
Pacini's corpuscles
give us proprioceptive information only about the movement of our joints
Sense of proprioception
gives us awareness of the body's position in space and the body's movement through space
Ruffini's endings
gives us proprioceptive information about the movement of our joints and the static position of our joints
gamma motor system
has upper motor neurons and lower motor neurons
muscles that are on the opposite sides of a joint
have opposite actions at that joint, their actions are antagonistic to each
all interphalangeal joints are?
hinge joints
Pectoralis major function
horizontal adduction of arm
What other set of motions happens at the GH joint in a transverse plane?
horizontal adduction/abduction horizontal flexion/extension
pronator teres attachments
humeral head medial epicondyle of the humerus ulnar head coronoid process of the ulna lateral radius
the muscle spindle reflex results
in contraction of a muscle and acts to prevent a muscle from being overly stretched and torn
Where do all voluntary motor controls of movement originate?
in the outer portion of the cerebrum called the cerebral cortex
Statements that apply to the 1st carpometacarpal joint
includes the trapezium carpal bone saddle joint
What direction are the roll and the glide during adduction of the arm at the GH joint?
inferior, superior
integrative neuron
integrates/processes the sensory stimuli received from sensory neurons
dorsal digital expansion
is a fibrous aponeurotic expansion of the distal attachment of the extensor digitorium muscle on the fingers serves as a moveable hood of the tissue when the fingers flex and extend also known as the extensor expansion or the dorsal hood
the CMC joint of the thumb
is stabilized by its fibrous joint capsule and five major ligaments, the joint capsule is loose allowing large ranges of motion and the ligaments of the thumb become taut in full opposition or full abduction or full extension
the elbow joint
is unusual because it has 3 articulations enclosed in one joint capsule
coracohumeral ligament function
it prevents dislocation of the humeral head anteriorly and inferiorly and limited extremes of flexion, extension, and lateral rotation
major ligaments of the wrist joint complex
joint capsules of the radiocarpal joints radioulnar disc joint capsule of the midcarpal joint transverse carpal ligament
subdeltoid bursa
known as the subacromial bursa because it extends inferiorly/distally and is also located between the deltoid muscle and the rotator cuff tendon
scapulocostal (ScC) joint accessory movements
lateral and medial tilt upward and downward tilt
carrying angle
lateral deviation of ulna with respect to the humerus, 5-15º, 5-10º in men and 10-15º in women also know as the cubitus valgus
Anconeus attachments
lateral epicondyle of humerus posterior proximal ulna
Posterior deltoid function
lateral rotation of the arm
brachioradialis attachments
lateral supracondylar ridge of humerus to styloid process of radius
winging of the scapula
lateral tilt of the scapula away from the body wall
palmar plate of IP joint
ligamentous-like thick disc of fibrocartilage located on the palmar side of the joint, superficial to the fibrous capsule
proprioception
literally means the body's sense of its self the ability of the nervous system to know the body position in space and the body's movement through space
Carpal tunnel
located anteriorly at the wrist and is a tunnel formed by the arrangement of the carpal bones and between the archduke transverse concavity of the carpal bones and transverse carpal ligament that spans across the top of the carpal bones
Intermetacarpal joint
located between adjacent metacarpal bones
first intermetacarpal ligament of the thumb
located between metacarpals of the thumb and index finger more specifically it is located from the base of the metacarpal of the index finger to the base of the metacarpal of the thumb
interphalangeal joints of the hand
located between phalanges of a finger proximal interphalangeal joint distal interphalangeal joint IP joint
Interphalangeal (IP) joints of the hand
located between phalanges of the fingers
the third CMC joint
located between the capitate and the base of the third metacarpal synovial and plane joint synarthorotic and non axial joint 0 degrees flexion and extension
radiocarpal joint
located between the distal end of the radius and the proximal row of carpal bones
distal radioulnar joint
located between the distal radius and distal ulna synovial, pivot joint diarthrotic, uniaxial joint
carpometacarpal joints
located between the distal row of carpal bones and the metacarpal bones 5 CMC joints exists
carpometacarpal joint
located between the distal row of carpals and the metacarpal bones the first CMC joint (of the thumb) is a saddle joint that is specialized to allow a great degree of movement
fifth MCP joint
located between the fifth metacarpal and the proximal phalanx of the little finger
first MCP joint
located between the first metacarpal and the proximal phalanx of the thumb
fourth MCP joint
located between the fourth metacarpal and the Proximal phalanx of the ring finger
the fifth CMC joint
located between the hamate and the base of the fifth metacarpal synovial and saddle joint diarthoracic and biaxial joint 20 degrees flexion and 0 degrees extension
the fourth CMC joint
located between the hamate and the base of the fourth metatarsal synovial and saddle joint diarthoracic and biaxial joint 10 degrees flexion and 0 degrees extension
metacarpophalangeal joint
located between the metacarpal bones and the phalanges
intermetalcarpal joint bones
located between the metacarpal bones of the hand proximal IMC joints and distal IMC joints exist all 5 metacarpals articulate with one another proximally at their bases, hence four proximal IMC joints exist only metacarpals #2-#5 articulate with one another distally at their heads, hence three distal IMC joints exist
metacarpophalangeal (MCP) joints
located between the metacarpals of the palm and the phalanges of the fingers 5 MCP joints exist
midcarpal joint
located between the proximal row of carpal bones and the distal row of carpal bones
midcarpal joint (wrist)
located between the proximal row of carpal bones and the distal row of carpal bones compound joint
radioulnar joints
located between the radius and ulna
GH joint
located between the scapula and the humerus, more specifically it is between the glenoid fossa of the scapula and the head of the humerus
second MCP joint
located between the second metacarpal and the proximal phalanx of the index finger
third MCP joint
located between the third metacarpal and the proximal phalanx of the middle finger
the first CMC joint
located between the trapezium and the base of the first metacarpal synovial and saddle joint diarthoracic and biaxial joint
Saddle (CMC) joint of the thumb bones
located between the trapezium and the first metacarpal synovial, saddle diarthrotic, biaxial
the second CMC joint
located between the trapezoid and the base of the second metatarsal synovial and plane joint synarthorotic and non axial joint 0-2 degrees flexion 0 degrees extension
fascial/joint proprioceptors
located in and around the capsules of joints and provide information about the joints static position and dynamic movement, also located in all other types of deep fibrous fascia
Central Nervous System (CNS)
located in the center of the body and is composed of the brain and spinal cord
anterior oblique ligament of the thumb
located on the anterior side of the joint more specifically it is located from the tubercle of the trapezium to the base of the metacarpal of the thumb
dorsal radiocarpal joint
located on the dorsal (posterior) side from the radius to the carpal bones ligament attaches the radius to the capitate, lunate, and scaphoid bones it limits full flexion
palmar radiocarpal ligament
located on the palmar (anterior) side from the radius to the carpal bones they limit full extension
posterior oblique ligament of the thumb
located on the posterior side of the joint more specifically it is located from the posterior surface of the trapezium to the palmar-ulnar surface of the base of the metacarpal of the thumb
radical collateral ligament
located on the radial side of the MCP joint
radial collateral ligament of the thumb
located on the radial side of the joint more specifically it is located from the radial surface of the trapezium to the base of the metacarpal of the thumb
radial collateral ligament
located on the radial side, from the radius to the carpal bones, more specifically it is located from the styloid process of the radius to the scaphoid and trapezium it functions to limit ulnar deviation (adduction)
ulnar collateral ligament (MCP joint)
located on the ulnar side of the MCP joint
ulnar collateral ligament of the thumb
located on the ulnar side of the joint more specifically it is located from the transverse carpal ligament to the base of the metacarpal of the thumb
ulnar collateral ligament
located on the ulnar side, from the ulna to the carpal bones, more specifically it is located from the styloid process of the ulan to the triquetrum it functions to limit radial deviation (abduction)
Peripheral Nervous System (PNS)
located peripherally and composed to peripheral spinal and cranial nerves contains sensory and motor neurons nerves and ganglia
muscles spindle cells
located within the belly of a muscle and lie parallel to the fibers of the muscles
muscle proprioceptors
located within the muscle- provide awareness of the position and movement of the body and create reflexes that protect muscles and tendons from injury
triceps brachii attachments
long head infraglenoid tubercle of the scapula lateral head posterior shaft of the humerus medial head posterior shaft of the humerus olecranon process of the ulna
biceps brachii attachments
long head: supraglenoid tubercle of the scapula short head: coracoid process of the scapula to the radial tuberosity
What structures articulate to form the radiocarpal joint?
lunate Distal radius Scaphoid
major muscles of the elbow joint
major flexors: brachial, biceps brachii, brachioradialis, and pronator teres major extensors: triceps brachii, anconeus, and extensor carpi ulnaris
Joint Proprioceptors
mechanoreceptors located in and around the capsule of joints
CMC joint motion
more mobile, creating more mobile rays
Mechanoreceptors
most proprioceptor receptors are called this because they are sensitive to a particular type of stimulus, mechanical pressure stimuli
mechanoreceptors
most proprioceptors are call this they are sensitive to mechanical pressure stimuli
alpha motor neurons
motor neurons that are directly concerned with controlling muscle contraction
reverse actions of the IP joint
move the more proximal phalanx relative to the more distal one
reverse actions of the MCP joint
move the proximal phalanx of the finger toward a fixed metacarpal bone however a metacarpal of the palm of the hand can move toward the proximal phalanx of a finger instead
intramural fibers
muscle spindle cells contain these fibers
2 major types of muscle proprioceptors
muscle spindles and Golgi tendon organs
two major types of muscle proprioceptors
muscle spindles and Golgi tendon organs
if the mover contracts and shortens, the antagonist on the opposite side of the joint
must relax and lengthen to allow that joint action to occur
the 2nd and 3rd carpometacarpal joints are?
non-axial
advantage of the carrying angle
objects carried in the hand are naturally held away from the body
medial thigh associated peripheral nerve
obturator
Fibrous Joint Capsule
of the GH joint is extremely lax and permits a good deal of motion if the musculature of the shoulder joint is completely relaxed, the head of the humerus can be moved away from the glenoid fossa 1 to 2 inches thickened and strengthens by glenohumeral (GH) ligaments
inverse myotonic reflex
opposite effect of the myotonic reflex
major motions of the saddle (CMC) joint of the thumb
opposition and reposition of the thumb that is a combination of abduction, flexion, and medial rotation of the thumbs metacarpal flexion and extension of the thumb in the frontal plane around an anteroposterior axis abduction and adduction of the thumb in the sagittal plane around a mediolateral axis medial rotation and lateral rotation of the thumb in the transverse plane around a vertical axis
Pronator teres
originates on medial epicondyle
2 major types of fascial/joint proprioceptors
paninis corpuscles and fuffinis endings
accessory motions of the carpal bones
permit a great deal of gliding motion
medial collateral ligament
prevents abduction of the forearm
lateral collateral ligament
prevents adduction of the forearm
CMC major motions allowed
primarily allow flexion/extension some abduction/adduction occurs at the fourth and fifth CMC joint some lateral rotation/medial rotation occurs at the fifth CMC joint
pronator teres functions
pronates the forearm at the RU joint flexes the forearm at the elbow joint
pronator quadratus functions
pronates the forearm at the RU joints
major actions of the radioulnar joint
pronation and supination of the forearm the head of the radius medially rotates during pronation of the forearm the head of the radius laterally rotates during supination of the forearm the distal radius swings around the distal ulna
another sense besides the 5 senses
proprioception
Equilibrium
proprioceptive sensation of the inner ear (both static and dynamic) are often referred to this sense
scapulocostal (ScC) joint major motions
protraction and retraction of scapula elevation and depression of scapula upward and downward rotation of scapula
inner ear proprioceptors
provide information on static position and dynamic movement of head
the carpal tunnel
provides a safe passageway for the median nerve and the distal tendons of the extrinsic finger flexor muscles of the forearm to enter the hand
three radioulnar joints
proximal radioulnar joint, middle radioulnar joint, distal radioulnar joint
Arches of the hand
proximal transverse arch distal transverse arch longitudinal arch
radial and ulnar collateral ligaments
radial: on radial side of joint ulnar: on ulnar side of joint
three palmar radiocarpal ligaments
radiocapitate ligament radiolunate ligament radioscapholunate ligament these ligaments attach the radius to the bones stated within their names
wrist joint
radoiocarpal, midcarpal, and intercarpal intercarpal do not contribute to wrist movements
ray
refers to a metacarpal and its associated phalanges the hand has 5 rays
muscle spindles and golgi tendon organs differ
regarding which structure they each protect and the result of their reflexes
extrafusal fibers
regular muscle fibers
The Golgi tendon organs reflex
results in relaxation of a muscle and acts to prevent the tendon from being overly stretched and torn by an overly contracting muscle
Which region of a spinal nerve is a "one-way" street (only carrying efferent or afferent messages)?
roots
radiouknar disc
runs from the distal radius to the distal ulna, also blends into the capsular/ligamentous structure of the distal RU joint its function is to stabilize the distal RU joint
longitudinal arch
runs the length of the hand and is formed by the shape of the metacarpals and fingers. The shape of the metacarpals is somewhat fixed but flexion of the fingers increases the longitudinal arch of the hand
serratus anterior function
scapula protraction
posterior thigh associated peripheral nerve
sciatic
What do the brain and spinal cord contain?
sensory, integrative, and motor neurons
neuron functionality
sensory, integrative, or motor
Stimuli such as pressure, pain, and heat would be transmitted to the brain via a ___________ neuron, along an _________ pathway
sensory; afferent
the GH joint has
several major ligaments
intrinsic ligaments of the wrist joint complex
short intermediate long
pectoral girdle
shoulder girdle; the scapula and clavicle
Glenohumeral (GH) Joint
shoulder joint articulation between the glenoid fossa of the scapula and the head of the humerus
foramen of Weitbrecht
small region of the anterior GH joint capsule that is located between the superior and middle GH ligaments and is a relatively weak region where the majority of shoulder dislocations occur
neuron
specialized to carry an electrical signal known as a nerve impulse
intermetacarpal ligaments
stabilize by their fibrous capsules and ligaments proximal IMC joints are stabilized by the IMC ligaments that connect the base of each of the five metacarpals to the base of the adjacent metacarpals
What is the primary role of the rotator cuff muscles?
stabilize the GH joint
dorsal radioulnar ligament
stabilizes distal radioulnar joint
annular ligament
stabilizes proximal radioulnar joint
Supinator function
supinates the forearm at the RU joints
All MCP joints are
synovial and condyloid diarthrotic and biaxial
radiocarpal and midcarpal joint
synovial and condyloid diathoracic and biaxial
GH joint classification
synovial joint subtype: ball and socket joint
proximal radioulnar joint
synovial, pivot joint diathoracic, uniaxial joint located between the proximal radius and the proximal ulna
muscle contracts to move the joint
termed the mover
flexors cross
the GH joint anteriorly
muscular joint
the GH joint is referred to this
IMC motion
the IMC joints allow non axial gliding motion of one metacarpal relative to the adjacent metacarpals synovial joint, plane amphiarthrotic, non axial
sternoclavicular joint
the area where the clavicle and the sternum connect synovial joint diarthrotic joint function
reverse actions of the elbow joint
the arm can move relative to the forearm at the elbow joint flexion of the arm at the elbow joint is one of the class reverse actions
distal transverse arch
the distal transverse arch runs transversely across (across the hand) and is located at the MCP joints quite mobile
Saddle (CMC) joint of the thumb
the first CMC joint classic example of a saddle joint
the two bones of the forearm (radius and ulna) articulate with
the hand at the wrist joint
cerebrum
the largest part of the brain outer aspect of the cerebrum is called the cortex and is composed of gray matter the inner aspect of the cerebrum is made up of white matter with some clusters of grey matter called nuclei or ganglia
the upper motor neurons synapse with
the lower motor neuron within the gray matter of the spinal cord peripheral nerve
reverse actions of the GH joint
the major reverse action of the scapula at the GH joint are upward rotation and downward rotation
joint capsule of the midcarpal joint
the midcarpal joint capsule is less a single joint capsule than a series of interconnected joint capsules of the many bones of the midcarpal joint
flexion, arm protraction, scapula
the movements happening in the shoulder complex during the concentric phase of the push-up. _____of the _____ at the glenohumeral joint ______ of the _____at the scapulocostal joint
Myotonic reflex
the muscle spindle reflex is also known as this
reciprocal inhibition
the name given to the neurological reflex that causes the antagonist to a joint action to relax when the mover of that joint action is directed to contract
reflex arc
the pathway of a reflex
proximal transverse arch
the proximal transverse arch of the hand runs transversely (across the hand) and is formed by the two rows (proximal and distal) of carpal bones fairly rigid
joint capsule of the radoiocarpal joint
the radoiocarpal joint capsule is thickened and strengthened by the dorsal radiocarpal, palmar radiocarpal, radial collateral, and ulnar collateral ligaments
scapulocostal (ScC) joint reverse actions
the ribcage can move relative to the scapula
Palmar Fascia
the thick layer of dense fibrous tissue on the palmar side (of the hand) increases the structural stability of the hand
reverse actions of the saddle (CMC) joint of the thumb
the trapezium of the wrist could move relative to the metacarpal of the thumb
gamma motor system LMNs
then travel from the spinal cord out to the muscle spindle
double jointed
these people have ligaments that are so lax that they permit a greater than normal passive range of motion
reflexes are hardwired in the body
they are innate (inborn)
Superior, middle, and inferior GH ligaments functions
they prevent dislocation of the humeral head anteriorly and inferiorly also limit the extremes of all GH joint motions
Superior, middle, and inferior GH ligaments
thickenings of the anterior and inferior joint capsule
when the integration and processing of sensory stimuli within the brain result in the determination that a joint action will be made...
this decision is passed along to the cerebral motor cortex of the brain
posterior leg associated peripheral nerve
tibial
interosseus membrane
tissue that unites the radius and the ulna of the forearm, forming the middle RU joint its function is to stabilize the middle RU joint by binding the radius and ulna together
CNS is able
to determine the position that the joint is in knows when the joint is flexed
gamma motor system UMNs
travel from the brain down to the spinal cord, where they synapse from the brain down to the spinal cord where they synapse from with gamma LMNs in the gray matter of the spinal cord
Triceps brachii
two-joint muscle innervated by the radial nerve
Biceps brachii
two-joint muscle that supinates the forearm
Golgi tendon organ
type of muscle proprioceptor that is located within a tendon of a muscle and is sensitive too a pulling force. that is placed on the tendon
What movements of the clavicle accompany abduction of the arm?
upward rotation
movement of the wrist joint
usually occurs at two joints, radoiocarpal joint and midcarpal joint
Nervous system directs two types of movement
voluntary movement reflex movement
co-contraction
when the mover and antagonist both contract at the same
joints of the wrist/hand region
wrist joint (radoiocarpal and mid carpal joint) carpometacarpal joint intermetacarpal metacarpophalangeal interphalangeal joints of the hand
radoiocarpal joint
- major joint of the wrist - lies between proximal carpals and radius/ulna
What applies to Golgi tendons?
-Sensitive to tension/pulling force -Are a type of proprioceptor
The GH joint allows
-flexion and extension (axial movements) in the sagittal plane around a mediolateral axis -abduction and adduction (axial movements) in the frontal plane around an anteroposterior axis -lateral and medial and rotation (axial movements) in the transverse plane around a vertical axis
What applies to muscle spindles?
-lie within the muscle belly -contain intrafusal fibers capable of contracting
three GH ligaments
-the superior glenohumeral ligament -the middle glenohumeral ligament -the inferior glenohumeral ligament
The upper trapezius... 1: originates on the spine 2: protracts the scapula 3: upwardly rotates the scapula 4: elevates the scapula 5: inserts on the medial border of the scapula
1, 3, 4
Which of the following motions occur in the sagittal plane? 1: flexion of the humerus at the GH joint 2: supination of the forearm 3: ulnar deviation of the hand at the wrist 4: horizontal abduction of arm at GH joint 5: extension of the forearm at the elbow
1, 5
Three articulations of elbow joint
1. humeroulnar joint 2. humeroradial joint 3. proximal radioulnar joint
3 major categories of proprioceptors
1.) fascial/joint proprioceptor 2.) muscle proprioceptor 3.) inner ear proprioceptors
Which of the following muscles laterally rotate the humerus? 1: subscapularis 2: infraspinatus 3: latissimus dorsi 4: posterior deltoid 5: teres major
2, 4
Entering and exiting the CNS
31 pairs of spinal nerves and 12 pairs of cranial nerves
closed packed position of the MCP JOINT
70 degrees of flexion
Which movement occurring at the glenohumeral joint has the greatest range of motion?
Abduction
movements that occur in the sagittal plane (wrist and hand)
Abduction of the 1st metacarpal at the 1st CMC joint Flexion of the 3rd proximal phalange at the 3rd MCP joint Extension of the 5th distal phalange at the 5th DIP joint
The conoid and trapezoid ligaments indirectly support which joint?
Acromioclavicular
What movements can occur fully at the GH joint without contributions from the other shoulder complex articulations?
Adduction Internal rotation
Sensory Neurons
Afferent
Humeroradial joint
Atypical ball-and-socket
Flexor digiti minimi
Belongs to the hypothenar eminence group
Opponens pollicus
Belongs to the thenar eminence group
what are the muscles that flex the forearm at the elbow
Biceps brachii long head Brachialis Brachioradialis
structural organization of the nervous system
Central Nervous System (CNS) and Peripheral Nervous System (PNS)
What ligament forms part of the "roof" of the glenohumeral joint?
Coracoacromial
What ligament prevents dislocation of the humeral head anteriorly and inferiorly?
Coracohumeral
Ulnar and radial deviation occur in what plane of motion?
Coronal/frontal
anterior leg associated peripheral nerve
Deep fibular (peroneal)
GH joint function classification
Diarthrotic subtype: triaxial
no because gravity being the mover would cancel out the flexor antagonistic muscles so no extra neutralizer needed No because the bench prevents any movement that a neutralizer would counteract
Does this exercise require an additional muscle(s) to function as a neutralizer? Why or why not?
Motor Neurons
Efferent
160 degrees
Estimate how far the arm has been abducted in this picture
90 degrees
Estimate how far the arm has been flexed in this picture
45 degrees
Estimate how far the arm has been internally rotated in this picture
movements that do not occur in the sagittal plane (wrist and hand)
Extension of the 1st metacarpal at the 1st CMC joint
sagittal, ML/mediolateral
Extension of the arm at the humeroulnar and humeroradial joints occurs in the _________ plane and around the _________ axis.
T/F: Conscious awareness is a required component of the reflex arc
False
What is the structural classification for the middle radioulnar joint?
Fibrous
Flexor digitorum profundus
Flexes distal phalanges 2-5 at the DIP joints
What radiocarpal joint movement has the greatest range of motion?
Flexion
What muscle can flex distal phalanges 2-5 at the DIP joints?
Flexor digitorum profundus
The medical term for "golfer's elbow" is medial epicondylitis. This condition results from overuse of what muscle group?
Forearm muscles that flex the hand at the wrist
Golgi end organs
Golgi receptors located within joint capsules and ligaments
Tricep brachii Anconeus
Identify 1 muscle functioning as an agonist (mover) at the humeroulnar/humeroradial joints during the concentric phase of the push-up
Radiocarpal Mid carpal
Identify 2 joints where true movement is occurring during the eccentric phase of the forearm exercise
anterior deltoid, coracobrachialis, or, pec major
Identify 2 muscle agonists at the GH joint during the concentric phase of the push-up
Biceps brachii Brachialis Brachioradialis
Identify 2 muscles that are antagonists at the humeroulnar/humeroradial joints during the concentric phase of the push-up
Flexor carpi ulnaris flexor carpi radialis flexor digitorum profundus flexor digitorum superficialis flexor pollicus longus palmaris longus
Identify 2 muscles that are eccentrically contracting antagonists during the exercise ________ and ________
pec minor serratus anterior
Identify a muscle agonist at the scapulocostal joint during the concentric phase of the push-up
rhomboids trapezius
Identify a muscle antagonist that is passively lengthening at the scapulocostal joint during the concentric phase of the push-up
rhomboids pectoralis minor
Identify a muscle that is a passively lengthening antagonist at the scapulocostal joint
upper trapezius middle trapezius
Identify one muscle acting as an agonist at the scapulocostal joint during the concentric phase of the lateral raise
latissimus dorsi pectoralis major
Identify one muscle that is a passively lengthening antagonist at the GH joint during the action
Posterior deltoid Latissimus dorsi Teres major
Identify one muscle that is a passively lengthening antagonist at the GH joint during the concentric phase of the push-up
humeroulnar joint humeroradial joint
Identify the 2 elbow complex joints where true movement is occurring during the concentric phase of the push-up
B to A
Identify the eccentric phase of the forearm exercise shown here
extension, arm
Identify the movement occurring at the elbow complex during the concentric phase of the push-up. _________ of the _________ at the humeroulnar and humeroradial joints
Flexor digitorum superficialis
Inserts onto anterior side of middle phalanges 2-5
Supinator attachments
Lateral epicondyle of the humerus and proximal ulna to the proximal radius
Which nerve is impinged in carpal tunnel syndrome?
Median
What nerves are derived from the brachial plexus?
Median, Axillary
Extensor carpi ulnaris
Originates on lateral epicondyle and inserts on base of 5th metacarpal
Flexor carpi radialis
Originates on medial epicondyle and inserts on anterior bases of 2nd and 3rd metacarpals
What regions can white matter be found?
Outer portion of the spinal cord, Inner portion of the cerebrum
two major types of fascial/joint proprioceptors
Pacini's corpuscles and Ruffini's endings
According to reciprocal inhibition, if the pectoralis major is contracting to horizontally adduct the arm, what muscle will be inhibit
Posterior deltoid
According to reciprocal inhibition, if the pectoralis major is contracting to horizontally adduct the arm, what muscle will be inhibited?
Posterior deltoid
what are the muscles that pronate the forearm
Pronator teres Brachioradialis
To fully flex the arm at the glenohumeral joint, what motions need to occur at the scapulocostal joint?
Protraction Upward rotation
All muscles that extend the hand at the wrist are innervated by what nerve?
Radial
To fully externally/laterally rotate the arm at the GH joint, what motion needs to occur at the scapulocostal joint?
Retraction
What muscle(s) retract the scapula?
Rhomboids Trapezius
Which proprioceptors would provide information about a joint's static position?
Ruffini's Endings
statements that apply to the 4th and 5th Carpometacarpal joints
Saddle joints Allow abduction & adduction of metacarpals Allow flexion & extension of metacarpals
Identify the muscles that upwardly rotate the scapula
Serratus anterior Upper trapezius
What muscles medially rotate the humerus at the glenohumeral joint?
Subscapularis
lateral leg associated peripheral nerve
Superficial fibular (peroneal)
What muscle(s) function to abduct the arm?
Supraspinatus Deltoid
What muscle(s) function to externally rotate the arm?
Teres minor Infraspinatus Posterior deltoid
sagital, ML/mediolateral
The movement at the GH joint occurs in the_____plane around the_____axis.
gamma motor neurons
The sensitivity of the muscle spindle is maintained by
According to reciprocal inhibition, if the brachialis muscle is stimulated to contract, which of the following will happen?
The triceps will be inhibited (relax)
Describe the shape of the humeroulnar joint surfaces and the relationship between the direction of the "roll" and the "glide" during flexion of the forearm at the elbow.
The trochlea of the humerus is convex and the trochlear notch of the ulna is concave, During flexion of the forearm, the ulna rolls in a(n) superior/anterior direction and the ulna glides in a(n) superior/anterior direction
the name of the surgery technique used to repair torn UCLs.
Tommy John
descriptors of a motor neuron
Transmits signals on an efferent pathway Sends contraction stimulus to muscles Found in the central and peripheral nervous system
muscles of the shoulder girdle
Trapezius Rhomboids major and minor Levator scapulae serrates anterior pectoralis minor subclavius
What bone structures articulate to form the humeroulnar joint?
Trochlea Trochlear notch
True or False: All 5 MCP joints are condyloid in structure and allow flexion/extension and abduction/adduction
True
glenohumeral, scapulothoracic, or scapulocostal
True movement is occurring at 2 joints during this exercise. The 2 joints are the_______and the_______
What ligaments prevents abduction of the forearm?
Ulnar collateral ligament
Humeroulnar joint
Uniaxial hinge
Proximal radioulnar joint
Uniaxial pivot
A motor neuron that travels down in a descending white matter tract is called
Upper motor neuron
Identify the muscles that elevate the scapula
Upper trapezius Levator scapulae
To fully abduct the arm at the GH joint, what motion needs to occur at the scapulocostal joint?
Upward rotation
How does a sensory stimulus enter the spinal cord?
Via a sensory neuron