Chapter 13

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Fig. 13 - 94 Scapula postion for AP projection, patient upright

AP: Arm abducted so humerus is perpendicular to long axis of body. Elbow flexed 90º

Fig. 13 - 56 Elbow position for the AP projection

AP: Arm fully extended w/hand supinated and posterior surface in contact w/IR. Coronal plane of humeral epicondyle parallel to IR.

Fig. 13 - 52 Forearm position for AP projection

AP: Arm fully extended w/hand supinated and posterior w/coronal plane or arm parallel to IR. A small sandbag in palm of hand can aid in maintaining position

Fig. 13 - 68 Humerus position for AP projection patient upright

AP: Arm slightly abducted w/palm of hand supinated. Coronal plane of humeral epicondyles parallel or IR

Fig. 13 - 44 Wrist position AP oblique projection

AP: Posteomedial surface of wrist is in contact w/IR so that coronal plane forms a 45º w/IR CR: Perpendicular to midcarpal area Collimation: 2.5 in (6 cm) proximal and distal to the wrist joint and 1 in (2.5 cm) on the sides Structures seen: Distral radius and ulna, carpal bones, and proximal halves of metacarpals

Fig. 13 - 59 Elbow lateral (lateromedial) projection

Elbow lateral (lateromedial) projection

Fig. 13 - 78 Shoulder AP projection-external (arm) rotation

Shoulder AP projection-external(arm) rotation

Fig. 13 - 79 Shoulder AP projection-internal (arm) rotation

Shoulder AP projection-internal (arm) rotation

Bone infection may be caused by a number of different bacteria including:

Staphylococcus, Mycobacterium tuberculosis

Fig. 13 - 14 Hand position for PA oblique projection-lateral rotation, using stair-step sponge

PA oblique: Hand is rotated laterally to place the anteromedial aspect in contact w/IR. Coronal plane of hand forms 45º angle w/IR. Stair-step sponge to support and maintain position so IP joints are clearly visualized. Central ray: PA oblique: Perpendicular to 3rd MCP (metacarpophalangeal)joint.

The thumb has only ___ phalanges with ____ IP joint

2, 1

The proximal end of a metacarpal is called its:

Base

The greatest degree of movement of the wrist is:

Anterior (flexion), followed by (posterior) extension, ulnar deviation, and radial deviation.

As a whole the wrist is capable of all joint motions, except rotation. It moves in four directions:

Anterior, posterior, medial, and lateral

Common fractures are:

Boxer's fracture, Colles fracture, Monteggia fracture, Radial fracture, and Scaphoid fracture

The inferior lip of the semiulnar notch is called:

Coronoid process

Fig. 13 - 90 Clavicle PA projection

Clavicle PA projection

Glenohumeral joint

Dislocation of the shoulder and maybe displaced from the glenoid fossa either by anteriorly or posteriorly.

Fig. 13 - 30 Thumb position for AP projection

Dorsal surface of thumb is in contact w/IR. Coronal plane of thumb is parallel to IR. Plane of palm of hand is perpendicular to IR.

Fig. 13 - 57 Elbow AP projection

Elbow AP projection

Fig. 13 - 74 Shoulder position for AP projection-external (arm) rotation patient upright

External rotation: Arm slightly abducted w/palm supinated. Arm adjusted to place coronal plane of humeral epicondyles parallel to IR

Fig. 13 - 53 Forearm AP projection with healing fracture of the ulnar shaft (arrow)

Forearm AP projection with healing fracture of the ulnar shaft (arrow)

Fig. 13 - 55 Forearm lateral projection with healing fracture of the ulnar shaft (arrow)

Forearm lateral projection with healing fracture of the ulnar shaft (arrow)

The distal end of a metacarpal is called its:

Head

Clavicle Routine Examination includes the upright PA and PA axial projections, or recumbent AP and AP axial projections. Examination of the clavicle is routinely done in the PA and PA axial projections to keep the clavicle as close to the IR as possible. But is pt is recumbent a supine position is more comfortable when clavicle has been injured. Under these circumstances, AP and AP axial projections are performed.

IR: 10 x 12 in ( 24 x 30 cm) crosswise Grid: Yes SID: 40 in Body position: Standing or seated facing Bucky with coronal plane parallel to IR. Head turned away from side of interest. Arm at side CR: PA or AP perpendicular to midclavicle PA axial: 15º to 30 º caudad to midclavicle Collimation: Adjust to 8 x 12 in (18 x 30 cm) on collimator Pt. instructions: Stop breathing, don't move Structures Seen: Entire clavicle and articulations

Shoulder Routine Examination includes AP projections w/both internal and external humerus rotation. Examination of the shoulder requires rotation of the humerus and is possible for mild or chronic complaints and it is desirable to examine the shoulder girdle, and the routine study should include the: scapula, clavicle, and proximal humerus. Structures Seen: Entire clavicle and scapula and proximal third humerus.

IR: 10 x 12 in ( 24 x 30 cm) diagonal 14 x 17 in (35 x 43 cm) crosswise Grid: Yes SID: 40 in Body position: Standing or seated w/back to upright Bucky or grid cabinet or supine on table; coronal plane of body parallel to IR CR: Perpendicular to a point 1 in inferior to coracoid process Collimation: Adjust to 10 x 12 in (24 x 30 cm) on the collimator

Forearm Routine Examination includes the AP and lateral projections and is usually ordered when the area of clinical interest is in the shaft of the radius and or the ulna.

IR: 10 x 12 in ( 24 x 30 cm) diagonal 14 x 17 in (35 x 43 cm) lengthwise Grid: none SID: 40 in Body position: Seated at end of table w/axilla (armpit) at table level.

Scapula Routine Examination includes the AP and lateral projections

IR: 10 x 12 in ( 24 x 30 cm) lengthwise Grid: Yes SID: 40 in Body position: Standing or seating at Bucky or grid cabinet, or recumbent on table. CR: Perpendicular to midscapula Collimation: Adjust 10 x 12 in (24 x 30 cm) on collimator Pt. instructions: Stop breathing, don't move Structures Seen: Entire scapula and articulations w/clavicle and humerus. AP demonstrates portions of scapula not obscured by ribs and clavicle.

Acromioclavicular Joints Routine Examination includes bilateral AP projections both w/and w/o weights. The purpose is to determine ligament integrity by demonstrating change in relative positions of the acromion and clavicle when under stress.

IR: 14 x 17 in ( 35 x 43 cm) crosswise or two 10 x 12 in (24 x 30) cm lengthwise-one for each shoulder Grid: none SID: 40 in Body position: Standing w/back to IR(s)

Hand Routine Examination includes the PA, PA oblique-lateral rotation and lateral projections. Structures seen: entire hand (including fingertips), carpus and most distal aspects of radius and ulna.

IR: 8 x 10 (18 x 24 cm) or 10 x 12 in (24 x 30 cm) Grid: none SID: 40 in Body position: Seated @ end @ table w/elbow flexed @ 90º and arm fully extended. Part position: PA: hand open, fingers extended, w/palmar surface in contact w/IR, fingers moderately separatedCollimation: 1 in (2.5 cm) on all sides of hand, including 1 in (2.5 cm) proximal to the ulnar styloid Pt. Instructions: Don't move

Elbow Routine Examination positions are at the same for the forearm. B/c its often impossible for pets w/an injured elbow to fully extend the elbow joint, alternatives are presented for the AP projection w/the elbow partially flexed. The routine examination of the elbow includes the AP and lateral projections. Structures Seen: elbow joint w/portions of distal humerus and proximal forearm

IR: 8 x 10 (18 x 24 cm) or 10 x 12 in (24 x 30 cm) lengthwise Grid: none SID: 40 in Body position: Seated @ end @ table w/axilla at level of table w/arm fully extended w/hand supinated and posterior w/coronal plane or arm parallel to IR. Collimation: 3 in (8cm) proximal and distal to the elbow joint and 1 in (2.5 cm) on the sides

Finger Routine Examination includes the PA, PA oblique-lateral rotation, lateral projections and although the fingers are included in the examination of the hand, separate finger studies are often performed when the area of clinical interest is limited specific finger

IR: 8 x 10 in (18 x 24 cm) lengthwise Grid: none SID: 40 in min Body position: Seated @ end of table w/elbow flexed & arm resting on table CR: Perpendicular to proximal IP joint Collimation: 1 in (2.5 cm) on all sides of the digit, including 1 in (2.5 cm) proximal to the MCP joint. Structures seen: Entire digit & distal position of metacarpal w/IR and MCP joint spaces open and clearly visualized.

Thumb Routine Examination includes the AP, PA oblique, and lateral projections and the examination of the thumb must include the 1st metacarpal rather than only a portion of it:

IR: 8 x 10 in (18 x 24 cm) lengthwise Grid: none SID: 40 in min CR: AP: Body position: Seated @ end of table leaning forward, arm abducted 90º w/forearm rotated internally into exaggerated degree of pronation PA oblique & lateral: Seated @ end of table w/elbow flexed 90º, arm fully support and palm resting on the IR

Wrist Routine Examination includes the PA, PA oblique-lateral rotation and lateral projections. The wrist is a complex structure w/many bones and joints. Structures seen: Distal portion of radius and ulna, carpal bones, and proximal halves of metacarpals

IR: 8 x 10 in (18 x 24 cm) lengthwise Grid: none SID: 40 in min CR: Perpendicular to the mid carpal area Body position: Seated @ end of w/elbow flexed 90º and forearm resting on table. Collimation: 2.5 in (6 cm) proximal and distal to the wrist joint and 1 in (2.5 cm) on the sides

Humerus Routine Examination w/pt upright includes AP and lateral projections. The humerus may be radiographed w/pt either upright or supine, depending on pt condition. The thickness of the shoulder joint usually indicates that this study be done using a Bucky or grid. For relatively small pts, however, a grid is not necessarily required.

IR:14 x 17 in (35 x 43 cm) lengthwise Grid: Yes SID: 40 in Body position: Seated or standing w/back to upright Bucky or grid cabinet. Body position, whether oblique or facing toward or away from the IR is not critical as long as the epicondyles are oriented appropriately for the projection CR: Perpendicular to midhumerus Collimation: 2 in (5 cm) distal to the elbow joint and superior to the shoulder and 1 in (2.5 cm) on the sides

Fig. 13 - 75 Shoulder position AP projection-internal (arm) rotation, patient upright

Internal rotation: Humerus and arm rotated internally until back of hand is against thigh. Arm adjusted to place coronal plane of humeral epicondyles perpendicular to IR

The hinge joints that connect the phalanges are called the____ ____ and are distinguished as proximal and distal:

Interphalangeal (IP) joints

Joint effusion

It is the increased fluid in the joint capsule that occurs due to a fracture at the elbow

Fig. 13 -34 Thumb position for lateral projection

Lateral: Beginning w/hand positioned for PA oblique thumb, pt. flexes MCP joints 2 - 5 w/the fingers extended, "tenting" hand until thumb is in lateral position

Fig. 13 - 58 Elbow position for lateral (lateromedial) projection

Lateral: Elbow flexed 90º w/medial surface in contact w/IR. Coronal plane of humeral epicondyles perpendicular to IR. Wrist is in lateral position to degree pt can achieve

Fig. 13 - 69 Humerus position for lateral projection patient upright

Lateral: Elbow flexed ~ 45º and palm of hand against hip so that fingertips point down and elbow is lateral w/coronal plane of humeral epicondyles perpendicular to IR

Fig. 13 - 54 Forearm position for lateral projection

Lateral: Elbow is flexed 90º w/medial surface in contact w/IR. Wrist is in lateral position

Fig. 13 - 42 Wrist position for lateral projection

Lateral: Medial surface of wrist is in contact w/IR. Coronal plane wrist is perpendicular to IR.

Fig. 13 - 18 A. Hand ulnar lateral position finger in extenstin Fig. 13 - 18 B. Hand ulnar lateral position fingers fanned

Medial aspect hand is in contact w/IR w/coronal plane of hand perpendicular to IR. Thumb is positioned as for PA projection and is supported on a radiolucent sponge. Wrist will be slightly pronated. Finger may be separated (fanned out) so as not to be superimposed, if desired. Lateral: Perpendicular to 2nd MCP joint

The hinge joints b/w the metacarpals and the proximal phalanges are called the:

Metacarpophalangeal (MCP) joints

Fig. 13. 23 Finger position for PA oblique projection-lateral rotation

PA oblique: Hand rotated lateral to place the anteromedial (palmar/ulnar) surface in contact w/IR. Coronal plane of fingers @ 45º angle to IR. Fingers supported by stair-step sponge.

Fig. 13 - 32 Thumb position for PA oblique projection

PA oblique: Palmar surface of hand is in contact w/IR as for PA projection of hand. Coronal plane of thumb will be 45º to plane of IR.

Fig. 13 - 40 Wrist Position for PA oblique projection lateral

PA oblique: anteromedial surface of wrist is in contact w/IR so that coronal plane of wrist forms a 45º angle w/IR. Position may be supported by wedge sponge, or pt's thumb.

Fig. 13 - 38 Wrist position for PA projection

PA: Anterior surface of wrist is in contact w/IR. Fingers are flexed to form a loose fist, placing wrist in firmer contact w/IR and opening intercarpal joints.

Fig. 13-21 Finger position for PA projection

PA: Hand open w/palmar surface in contact w/IR. Finger moderately separated

Fig. 13 -12 Hand position for PA projection

PA: Hand open, fingers extended w/palmar surface in contact w/IR, fingers moderately separated Central ray: Perpendicular to 3rd MCP (metacarpophalangeal)joint.

Fig. 13 - 50 Wrist position for tangential projection of carpal canal (Gaynor-Hart method)

Part position: Arm extended and parallel to long axis of table for correct alignment w/angled x-ray beam. Wrist extended as much as possible w/palm of hand paced perpendicular to IR

Fig. 13 - 48 Wrist position for PA axial projection

Part position: Arm is extended and parallel to long axis of table for correct alignment w/angled x-ray beam. 1 end of the IR is elevated so the plane of the IR is 20º w/respect to tabletop. Wrist positioned w/anterior aspect on IR as for PA wrist, w/finger oriented to the elevated end of the IR

Fig. 13 - 46 PA projection-ulnar deviation

Part position: Same as for PA wrist w/fingers extended. Hand in then deviated outward in the direction of ulna to the extent that pt. can tolerate

Located toward the proximal end on the shaft of the radius; small prominence that is a point of attachment for tendons of the bicep muscle.

Radial tuberosity

Forearm consist of two long bones:

Radius and ulna

The proximal end of the radius is referred to as:

Radius head

Tangential projection (Gaynor-Hart Method) is used to demonstrate the carpal canal usually in pts w/symptoms of carpal tunnel syndrome of suspected fracture.

Structures Seen: Carpal canal-anterior arch of carpal bones, including portions of the scaphoid, trapezium, pisiform, and hood hamate

Large distal projection on lateral side of radius:

Styloid

Fig. 13-19 A. Hand lateral (lateromedial) projection

Superimposition of 2nd - 5th metacarpals. Superimposition of 2nd - 5th phalanges (extension) or phalanges individually demonstrated

Supplemental projection AP oblique projection-medial rotation:

The AP oblique projection w/medial rotation is useful for demonstration of the medial aspect of the carpus, particularly the lunate and the pisiform.

Fig. 13 - 31 Thumb AP projection

Thumb AP projection

Fig. 13 - 33 Thumb PA oblique projection

Thumb PA oblique projection

Fig. 13 - 19 B. Hand lateral (lateromedial) projection fingers fanned

Thumb is seen in PA projection

Fig. 13 - 35 Thumb lateral projection

Thumb lateral projection

Fig. 13 - 95 Scapula position for lateral projection (anterior oblique position) forearm behind back, patient upright

Upright lateral: Anterior oblique body position w/affected side nearest IR. Adjust rotation of body (45 to 60º) so that blade (body) scapula is perpendicular to IR.

Fig. 13- 88 Clavicle position for PA projection, patient upright

Upright: Standing or seated facing Bucky with coronal plane parallel to IR. Head turned away from side of interest. Arm at side

Fig. 13 - 45 Wrist AP oblique projection

Wrist AP oblique projection

Fig. 13 - 49 Wrist PA axial projection

Wrist PA axial projection (Stretcher method)

Fig. 13 -39 Wrist PA projection

Wrist PA projection

Fig. 13 - 47 Wrist PA projection ulnar deviation

Wrist PA projection-ulnar deviation

Fig. 13 - 43 Wrist lateral projection

Wrist lateral (lateromedial) projection

Fig. 13 - 51 Wrist tangential (inferosuperior) projection

Wrist tangential (inferosuperior) projection

Scaphoid fracture

carpal bone injury often caused by a fall on an outstretched arm and when they are new these fractures may be occult (very subtle) of completely invisible on a radiograph

The upper limb, also called the upper extremity includes the:

fingers, thumb, hand, wrist, forearm, elbow, humerus, and shoulder girdle

Boxer's fracture:

fracture of the 5th metacarpal usually caused when the pt strikes a solid object w/a closed fist

Colles fracture:

fracture of the distal radius, accompanied by posterior or medial displacement

Radial fracture

fracture of the elbow that is a result of a fall on an outstretched arm

Monteggia fracture

fracture of the ulna and dislocation of the radial head


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