positioning hand, wrist, thumb, fingers, forearm
structures shown in a lateral forearm
-radius and ulna superimposed -epicondyles superimposed (looks like a figure 8) -carpals and distal humerus -also can see that the elbow joint is opened
An AP projection of the wrist best demonstrates
carpal interspaces bc of the divergence of the beams
for a Gaynor-hart method hang the image by the
finger tips
joints of the fingers may be closed if the finger is:
flexed too much or the tip of the finger is touching the plate
AP forearm uses what kVp range
62 +/- 5
for the Gaynor-hart method what kvp is used
64 +/* 5
kVp range for lateral projection of the hand
64 +/- 5
lateral forearm uses what kVp
64 +/- 5
what is the kVp range for a lateral wrist
64 +/- 5
If the joint is of interest and the fingers can not be extended for a PA projection of digits 2-5, do a
AP projection instead of a PA projection
if the joints are of interest and the hand cant be extended do a:
AP projection of the hand instead of a PA
what position should you do to demonstrate a boxers fracture
rotate off lateral 5 degrees posteriorly and watch out for thumb
know the rubber duck of the lateral wrist which contains the:
scaphoid (duck beak), lunate (duck body), trapezium (duck hat)
What is a boxer's fracture?
fracture of the head 5th metacarpal results from axial loaded pressure
images of an AP and lateral forearm are hung by the
shoulder
structures shown in a lateral wrist
-radius and ulna should be superimposed -bases of metacarpals should be superimposed
structures shown in a PA oblique projection of digits 2-5
-3 bones, 3 joints -anterior part more concaved than posterior part -fingernail should be oblique -see soft tissue and trabeculae pattern
structures shown on a thumb radiograph
-3 bones: distal and proximal phalanx, metacarpal -3 joints: IP, MCP, CMC joints -must include trapezium -soft tissue and trabeculae pattern
structures shown for a PA projection of digits 2-5
-PA projection with no rotation -equally concaved on the medial and lateral side of the phalanxes -fingernail should look parallel with the plate -every finger shows 3 bones and 3 joints: distal, middle, proximal phalanx and DIP, PIP, MCP joints -the head of the metacarpals -no overlap of soft tissue - should see soft tissue and bone trabeculae pattern -joint spaces are opened
positioning steps for a PA wrist with ulnar deviation
-PA wrist -turn fingers away from the body (toward the ulna) -making thumb line up with the forearm -can curl or straighten the fingers
CR for a PA axial wrist
-angled 20 degrees towards the elbow centered to the scaphoid
positioning steps for a PA projection of the wrist
-axilla is in the same plane as the elbow joint -elbow is flexed 90 degrees -position for a PA hand -either curl the fingers or elevate the hand on a sponge to reduce OID
structures shown in a PA projection of the wrist
-carpals -proximal metacarpals -distal radius and ulns -a slightly oblique ulna -ulnar styloid process medial most -bony trabeculae -soft tissue -scaphoid fat stripe (lateral scaphoid and convexed, if it is not convexed it means there is joint effusion)
PA oblique projection demonstrates what structures
-carpals on the lateral side of the wrist especially the scaphoid and trapezium
an AP oblique wrist shows what structures
-carpals on the medial side of the wrist -pisiform free of superimpositioning -demonstrates trapezium and hamate BEST VIEW FOR PISIFORM
structures shown in the Gaynor-Hart method
-demonstrates the carpal tunnel (be able to label trapezium, scaphoid, captitate, triquetrum, hook of hamate, pisiform) -trying to show the nerve
structures shown in a PA projection of the hand
-entire hand -carpals -distal end of radius and ulna -PA oblique view of the thumb
positioning for a AP projection of the wrist
-extend elbow out and make sure theres no rotation -check to see if it is AP by the ulnar styloid process being rolled towards the radius
positioning steps for a lateral forearm
-from AP forearm, flex the elbow 90 degrees and positon the wrist and hand lateral
positioning steps for a AP oblique wrist or also called semisupination oblique wrist
-from AP wrist, medially rotate 45 degrees and the ulna is down
positioning steps for a PA wrist with radial deviation
-from PA wrist, move fingers towards the body -if patient has a hard time get them to use their other hand to hold the fingers
positioning steps for PA oblique projection of Digits 2-5
-from PA, oblique hand 45 degrees -ulnar surface is down - fingers are extended - long axis of the part is parallel with the long axis of the plate -digits are immobilized (may have to use sponge) - PIP is centered to the plate
positioning steps for a lateral wrist
-from PA, turn lateral so heads of metacarpals are superimposed
positioning steps for a PA oblique projection of the hand
-from the PA, oblique hand 45 degrees -let thumb relax -3rd MCP is centered to the plate
structures shown in a PA Oblique projection of the hand
-minimal overlap of metacarpals 3,4,5 -heads of metacarpals 2 and 3 should not touch -minimal amount of soft tissue overlap
positioning steps for a PA projection of the hand
-patient is seated -hand and forearm resting on the table -axilla is in the same plane as the elbow -elbow is flexed 90 degrees -palm surface is down -extend and separate fingers -center the 3rd MCP to the plate
positioning steps for a Gaynor-hart method
-patient seated -forearm parallel with the plate -pull the fingers back until the hand is vertical -rotate slightly to the lateral side (pulls hamate off pisiform)
positioning steps for a AP forearm
-patient seated -axilla and elbow must be in the same plane -extend the elbow and supinate the hand you may want to put something in the palm -long axis of the forearm is parallel with the plate -patient may need to lean laterally
AP projection of the thumb positioning steps
-patient turn hand in extreme internal rotation -hold fingers back with other hand -make sure thumb is not rotated (fingernail is parallel) -long axis of the part is parallel with the long axis of the plate
PA oblique projection of the thumb positioning steps
-place hand palm down -long axis of part parallel with the long axis of the plate
positioning steps for a carpal bridge (tangential projection)
-place hand palm up on the plate -the forearm is vertical -everything is 90 degrees or you could built up with sponges
Lateral projection of the thumb positioning steps
-place hand with palmar surface down -arch fingers 2-5 and rest them on the plate (fingernail is perpendicular to the plate)
positioning steps for a PA axial wrist
-position for a PA wrist and add some ulnar deviation
positioning steps for PA projections of digits 2-5
-remove foreign bodies -seated beside table -rest hand on plate -fingers are extended and flat on the plate -digits are separated slightly to prevent soft tissue overlap -center PIP to the plate -make sure the long axis of the part is parallel with the long axis of the IR
positioning steps for lateral projection of digits 2-5
-show patient what you want them to do and then bring the plate to them -if it is digit 2 or3: place the radial side down -if it is digit 4 or 5: place the ulnar side down -digit is extended and parallel to the plate -fingernail should be perpendicular to the plate -make sure digit is lateral -PIP is centered to the plate -heads of the metacarpals are perpendicular
what are the positioning steps for a PA oblique projection of the wrist also called semipronation oblique
-start from PA wrist and rotate laterally 45 degrees -add some ulnar deviation (shows navicular)
positioning steps for lateral projection of the hand
-start from PA, turn hand lateral with ulnar surface down -heads of metacarpals are perp. -pull thumb down 1. lateral in extension- fingers 2-5 are extended and superimposed 2. lateral in flexion- fingers 2-5 are superimposed and relaxed in a natural arch 3. fan lateral- fingers 2-5 are extended and separated and heads of metacarpals are superimposed
the lateral projection of the hand demonstrates what structures
-superimposed metacarpals 2-5 -superimposed radius and ulna -gives a PA projection of the hand -lateral extension is best to demonstrate foreign bodies, allows soft tissue to not pile on itself -lateral inflexion demonstrates anterior and posterior fracture displacement
structures shown on lateral projection of digits 2-5
-the anterior aspect is very concaved -posterior aspect is straight or convexed -heads of the metacarpals are superimposed -demonstrates trabecular pattern and soft tissue
the lateral wrist in flexion demonstrates
-the dorsum of the wrist -carpal boss also called carpe bossu -bony prominence on dorsum or 2nd view of carpal boss is tangential carpal bridge
carpal bridge (tangential projection) demonstrates
-the dorsum of the wrist (carpal bridge) -demonstrates carpal boss
what to do before starting exam
1. aidet 2. What is the patient wearing? 3.patients position - sit close to the table, get gonads out of primary beam DONT put lap under the table 4. table height- shoulder in the same plane as elbow joint 5. use a 10 x 12 plate line part up with long axis of plate and center part to the plate, position to patient 6. central ray placement- right angle to plate and use centering points 7. collimation- within 1 inch of soft tissue and joints 8. shielding- gonads within 2 inches, reproductive, not in field of view, SHIELD EVERY PT 9. markers- markers are face up 10. hanging protocol- fingers, hands, wrists are hung by the fingertips 11. comparisons- should be done separately
you can also angle the part instead of the tube for a PA axial wrist by these two options
1. angle the plate on the sponge and do PA wrist with ulnar deviation and the central ray is perp. 2. leave plate flat and place wrist on a 20 degree sponge but will give magnification (not the best choice)
collimation for a PA projection of the wrist
2 1/2 inches from wrist joint
PA wrist with radial deviation uses what kVp
60 +/- 5
PA wrist with ulnar deviation uses what kVp
60 +/- 5
kVp range for PA oblique projection of digits 2-5
60 +/- 5
kVp range for PA oblique projection of the hand
60 +/- 5
kVp range for PA projection of digits 2-5
60 +/- 5
kVp range for a PA projection of the hand
60 +/- 5
kVp range for lateral projection of digits 2-5
60 +/- 5
kVp range for radiographs of the thumb
60 +/- 5
kvp range for a PA axial wrist
60 +/- 5
what is the kVp range for a AP oblique wrist
60 +/- 5
what is the kVp range for a PA oblique projection of the wrist
60 +/- 5
what is the kVp range for a PA projection of the wrist
60 +/- 5
the best view for the scaphoid is
a PA Axial wrist also known as stecher method
For a thumb radiograph, if the patient can't do an internal rotation, you can do:
a PA but the OID will increase
the CR for a carpal bridge (tangential projection)
angled 45 degrees towards the finger tips centered 1 1/2 inches proximal to the wrist joint
CR for Gaynor-Hart method
angled 25-30 degrees proximally, enter 1 inch distal to the base of the 3rd metacarpal -if your patient cant bring the palm vertical, angle 15 degrees to the long axis of the metacarpals
for a carpal bridge (tangential projection) hang markers by the
dorsum of the wrist
structures shown in a PA wrist with ulnar deviaton
it corrects the foreshortening of the scaphoid also opens up the intercarpals spaces on the lateral side
what structures do a PA wrist with radial deviation show
open interspaces between carpals on the medial side
the CR for a lateral forearm
perp. to mid forearm
CR for a AP oblique wrist
perp. to mid-carpal area
CR for a PA oblique projection
perp. to mid-carpal area
CR for a PA projection of the wrist
perp. to mid-carpal area
CR for a PA wrist with radial deviation
perp. to mid-wrist
CR for a PA wrist with ulnar deviation
perp. to scaphoid (clinically perp. to mid wrist)
CR for lateral projection of the hand
perp. to the 2nd MCP
CR for a PA oblique projection of the hand
perp. to the 3rd MCP
CR for a PA projection of the hand
perp. to the 3rd MCP
what is the CR for the lateral wrist
perp. to the mid-carpal area
CR is what for a AP forearm
perp. to the mid-forearm -collimate an inch beyond soft tissue on each side and 2 inches beyond each joint
CR for a lateral projection of digits 2-5
perpendicular to PIP
CR for thumb radiographs
perpendicular to the MCP
CR for PA oblique projection of digits 2-5
perpendicular to the PIP
central ray for PA projection of digits 2-5
perpendicular to the PIP (proximal interphalangeal joint)
structures shown by a AP forearm
radius and ulna with humerus and carpals showing