Pos III vertebral column Lumbar, Sacrum, Coccyx

PA/AP scoliosis series, place lower margin of IR a minimum of

1-2" below iliac crest

erect lateral scoliosis series, lower margin of IR should bea minimum of

1-2" below iliac crest

spinal fusion, lateral hyperflexion and hyperextension, views thoracic and lumbar including

1-2" of iliac crest

AP axial coccyx, central ray

10 caudad to 2" superior to pubic symphysis

AP axial coccyx, this projection may be performed prone with CR angle

10 cephalad

AP axial coccyx, with a greater anterior curvature of the coccyx if apparent CR angle will be changed to

15 caudad

AP axial sacrum, may also be performed prone with cR

15 caudad

AP axial sacrum, central ray

15 cephalad, 2" superior to pubic symphysis

AP oblique of SI joints, to demonstrate the inferior or distal part of the joint more clearly the cR may be angled

15-20 cephalad

PA/AP scoliosis series, how many projections are taken

2 PA, one recumbent, one erect

AP axial sacrum, pt with greater posterior curvature or tilt of sacrum and pelvis CR angle must be

20 cephalad

lumbar, what is percentage decrease of ovarian dose from AP to PA

25-30

for ferguson method, what height is the block used for the second image to elevate foot on convex side

3-4"

coccyx is composed of BLANK rudimentary vertebra that have a tendency to fuse into one bone into adult hood

3-5 (usually 4)

45 oblique is for the general lumbar region, if the interest is specifically L5-S1 area then oblique

30

each SI joint opens obliquely posteriorly at angle of

30

oblique proj of lumbar, how many degrees do we oblique for L5-S1

30

zygapophyseal joints for lower lumbar form an angle of BLANK from MSP

30

AP axial L5-S1, central ray for male pts

30 cephalad

AP axial proj of SI joints, central ray angle for men

30 cephalad

AP axial proj of SI joints, alternative PA axial projection central ray angle

30-35 caudad to L4

AP axial L5-S1, central ray

30-35 cephalad at ASIS

AP axial proj of SI joints, central ray

30-35 cephalad to 2" below ASIS

lumbar, Zygapophyseal joints form an angle (open posteriorly) from BLANK from the MSP

30-50

AP or PA proj of lumbar, tighter collimation IR size

30x35

AP axial L5-S1, central ray for female pts

35 cephalad

AP axial proj of SI joints, central ray angle for women

35 cephalad

AP or PA proj of lumbar, open collimation IR size

35x43

AP axial coccyx, SID

40"

AP axial sacrum, SID

40"

AP or PA proj of lumbar, SID

40"

lateral proj of lumbar, SID

40"

oblique proj of lumbar, SID

40"

spinal fusion, lateral hyperflexion and hyperextension, SID

40"

PA/AP scoliosis series, SID

40-60"

erect lateral scoliosis series, SID

40-60"

ferguson method, SID

40-60"

lumbar, what projection views the zygapophyseal joints the best

45 oblique

lateral L5-S1, central ray angle with no support

5-8 caudad

lateral proj of lumbar, pts with a wider pelvis and a narrow thorax may require a CR angle

5-8 caudad (even w/t support)

A 45º oblique is for the general lumbar region, If the interest is specifically in L1 or L2, then oblique

50

oblique proj of lumbar, how many degrees do we oblique for L1-2

50

zygapophyseal joints for upper lumbar form an angle of BLANK from MSP

50

PA projection for a scoli series results in a BLANK percent reduction in dosage to breast

90

lumbar region, The pedicles are situated BLANK relative to MSP

90

lumbar spine 4 routine projections

AP (or PA), obliques, lateral, lateral L5-S1

lumbar spine 1 special projection

AP axial L5-S1

sacrum and coccyx 3 routine projections

AP axial sacrum, AP axial coccyx, lateral

SI joints 2 routine projections

AP axial, AP oblique

spinal fusion series and scoliosis series has the same 1 projection

AP or PA R and L bending (same positioning)

spinal fusion series 2 routine projections

AP or PA R and L bending, lateral hyperflexion and hyperextension

sacrum because of its posterior angle, what projection should be used

AP proj with cephalad angle

lateral proj of lumbar, the average male does not need

CR angle

lower costal margin

L2-3

iliac crest

L4-5

spondylolysis fx occurs most commonly on what specific vertebrae

L4-5

lateral L5-S1, anatomy demonstrated

L5 vertebral body, first and second sacral segment, L5-S1 joint space

spondylolisthesis most common at what vertebrae

L5-S1

AP axial L5-S1, anatomy demonstrated

L5-S1 joint space, SI joints

the right SI joint is open with an BLANK position

LPO

lumbar, 1 disadvantage to PA projection is increased

OID

PA/AP scoliosis series, which projection is preferred

PA

scoliosis series 2 special projections

PA or AP ferguson method, AP or PA R and L bending

scoliosis series 2 routine projections

PA or AP, erect lateral

AP axial L5-S1, clinical indications

Pathology of L5-S1, SI joints

lumbar spine, what positions are used to view left zygapophyseal joints

RAO, LPO

the left SI joint is open with an BLANK position

RPO

lumbar spine, what positions are used to view right zygapophyseal joints

RPO, LAO

oblique proj of lumbar, what positions

RPO, LPO, RAO, LAO

ASIS

S1-2

AP oblique of SI joints, anatomy demonstrated

SI joint farthest from IR

sacrums auricular surface articulates with auricular surface of ilium to form the

SI joints

AP axial proj of SI joints, anatomy demonstrated

SI joints, L5-S1 intervertebral joint space

AP or PA proj of lumbar, 35x43 collimation shows what vertebrae

T11 to distal sacrum

AP or PA proj of lumbar, 30x35 collimation shows what vertebrae

T12-S1

xiphoid tip

T9-10

another term for wings of the sacrum

ala

sacrum, "wings", large masses of bone lateral to 1st sacral segment

alae

sacrum BLANK surface is concave

anterior

Normally the coccyx curves

anteriorly and apex points to pubic symphysis

sacrum, points inferiorly and anteriorly

apex

the distal point tip of the coccyx is the

apex

sacrum, large articular process for articulation with similarly shaped process on the iliac bones of the pelvis.

auricular surface

superior margin of sacrum

base

the broader superior portion of coccyx is the

base

coccyx lateral projection, lead mat is used

behind pt

for females, the coccyx projects into the

birth canal (can impede birth process)

sacrum and coccyx lateral projection, what filter is used

boomerang (if coccyx is included)

which lumbar obliques are needed

both R and L

erect lateral scoliosis series, shielding

breast shielding

the most distal portion of the vertebral column is the

coccyx

what 2 things can you do to reduce scatter for thoracic-lumbar projections

collimation, lead matt

erect lateral scoliosis series, which side is against IR

convex side of curve is against IR

oblique proj of lumbar, clinical indication

defect of pars interarticularis, spondylolysis

PA or AP furguson method scoliosis, this method assists in differentiating

deforming curve from compensatory curve

PA/AP scoliosis series, clinical indications

determine severity of scoliosis

coccyx most common injury

direct blow to lower vertebrae (while sitting)

lateral proj of lumbar, if pt has lateral scoliosis place sag or convexity

down (on IR)

oblique proj of lumbar, RPO and LPO show BLANK zygapophyseal joints

downside

PA or AP with R and L bending, scoliosis series, these studies are used in pts with

early scoliosis

AP axial sacrum and coccyx, what should be done before this exam is performed

empty bladder, lower colon free of gas and fecal

erect lateral scoliosis series, pt position

erect, lateral position, arms elevated,

AP axial sacrum, respiration

expiration

AP or PA proj of lumbar, respiration

expiration

PA/AP scoliosis series, respiration

expiration

coccyx lateral projection, respiration

expiration

erect lateral scoliosis series, respiration

expiration

lateral proj of lumbar, respiration

expiration

oblique proj of lumbar, respiration

expiration

spinal fusion, lateral hyperflexion and hyperextension, respiration

expiration

which gender is most likely to fx coccyx

females

spondylolysis

fx of pars interarticularis

AP or PA of lumbar, clinical indications

fx, scoliosis, spina bifida

AP axial coccyx, for CR centering can be localized by using what structure

greater trochanter

spinal fusion, lateral hyperflexion and hyperextension, can localize a

herniated disk

occulta means

hidden

common sites for pathological processes are disks between BLANK region

inferior lumbar

lateral L5-S1, if waist is not supported efficiently CR must be angled 5-8 caudad so spine is parallel to the

interiliac plane

lumbar vertebrae, Palpable lower tip of each spinous process lies at level of

intervertebral disk space inferior to each vertebral body

PA projection of lumbar, in prone position puts the BLANK more parallel with CR

intervertebral disks

When vertebrae are stacked the superior and inferior vertebral notches create the

intervertebral foramina

lateral proj of lumbar, anatomy demonstrated

intervertebral foramina L1-4, vertebral bodies, intervertebral joints

lumbar vertebral bodies are BLANK than cervical and thoracic

larger

lumbar spine, what projection is used to view intervertebral foramina

lateral

which of the following lumbar spine projections will best demonstrated the extent of a compression fx?

lateral

spinal fusion, lateral hyperflexion and hyperextension, is two images

lateral in hyperflexion, lateral in hyperextension

lumbar region, intervertebral foramina are demonstrated best on what projection

lateral proj

sacrum and coccyx lateral projection, pt position

lateral recumbent, flex hips and knees

PA or AP with R and L bending, scoliosis series, with pelvis acting as a fulcrum, pt is asked to bend

laterally as possible to either side

lumbar, AP oblique proj with LPO pos view what zygapophyseal joints

left

lumbar, PA oblique proj with RAO pos view what zygapophyseal joints

left

AP projections of lumbar spine are taken with knees flexed to reduce

lordosis of lumbar

scottie dog is seen on

lumbar oblique proj

AP or PA proj of lumbar, anatomy demonstrated

lumbar vertebral body, intervertebral joints, spinous process, transverse process, SI joints, sacrum

PA/AP scoliosis series, anatomy demonstrated

lumbar, thoracic, 1-2" below iliac crest

coccyx curve is more pronounced in what gender

males

lumbar-sacrum-coccyx, gonadal shielding should always be used for

males

formed by the fused spinous processes of the sacral vertebra

median sacral crest

lateral proj of lumbar, on most pts, the long axis of the bodies of the of the lumbar spine is situated in the

midcoronal plane

spinal fusion, lateral hyperflexion and hyperextension, used to assess

mobility at spinal fusion site

spondylolysis is the fx on what part of the scottie dog

neck

lumbar, The pars interarticularis is demonstrated radiographically on what projection

oblique proj

PA or AP furguson method scoliosis, two images are obtained

one standard, one with foot of convex side elevated

AP axial coccyx, coccygeal segments appear

open

lumbar region, Portion of each lamina between the superior and inferior articular processes is the

pars interarticularis

neck of scottie dog is the

pars interarticularis

oblique proj of lumbar, underrotation is indicated by

pedicle anterior to vertebral body

oblique proj of lumbar, overroation is indicated by

pedicle posterior to vertebral body

sacrum, 4 sets similar to intervertebral foramina, transmit nerves and blood vessels

pelvic sacral foramina

PA/AP scoliosis series, central ray

perpendicular

sacrum and coccyx lateral projection, interiliac line should be BLANK to IR

perpendicular

AP oblique of SI joints, Central ray

perpendicular to 1" medial to upside ASIS

lateral L5-S1, central ray if spine is parallel to IR w/t sufficient waist support

perpendicular to 1.5" inferior to iliac crest and 2" posterior to ASIS

coccyx lateral projection, central ray

perpendicular to 3-4" posterior and 2" distal to ASIS

sacrum and coccyx lateral projection, Central ray

perpendicular to 3-4" posterior to ASIS

oblique proj of lumbar, central ray

perpendicular to L3 (at lower costal margin), 1-2" above iliac crest, 2" medial to upside ASIS

lateral proj of lumbar, central ray for tighter collimation

perpendicular to L3 (lower costal margin)

AP or PA proj of lumbar, Central ray for tighter collimation

perpendicular to L3, 1.5" above iliac (will only include lumbar vertebrae)

lateral proj of lumbar, central ray for open collimation

perpendicular to iliac crest

AP or PA proj of lumbar, Central ray for open collimation

perpendicular to iliac crest (to include lumbar vertebrae, sacrum, coccyx)

spinal fusion, lateral hyperflexion and hyperextension, central ray

perpendicular to site of fusion

spinal fusion, lateral hyperextension, using pelvis as fulcrum, ask pt to move torso legs

posterior

long axis of sacrum is angled

posteriorly

AP axial L5-S1, may also be performed

prone with caudal angle (it increases OID)

mid coccyx is about at the level of BLANK or BLANK

pubic symphysis, greater trochanter

PA or AP with R and L bending, scoliosis series, assessment of the

range of motion of vertebrae

why is PA preferred over AP for scoliosis series

reduce dose (to breast and thyroid)

scoliosis requires BLANK exams over several years

repeat

lumbar, AP oblique proj with RPO pos view what zygapophyseal joints

right

lumbar, PA oblique projection with LAO pos view what zygapophyseal joints

right

lumbar, AP oblique with RPO position demonstrates

right zygapophyseal joints

oblique proj of lumbar, pt position

rotate 45, equal rotation of hips and shoulders w/t sponge

continuation of vertebral canal in sacrum, contains sacral nerves

sacral canal

small tubercles that represent inferior articular processes and project inferiorly

sacral cornu

prominent ridge on base of sacrum

sacral promontory

Located inferior to lumbar vertebrae, is shovel-shaped or triangular-shaped

sacrum

AP axial sacrum, anatomy demonstrated

sacrum, SI joints, L5-S1 intervertebral joint space

sacrum and coccyx lateral projection, anatomy demonstrated

sacrum, coccyx, L5-S1 joint

AP axial sacrum, pathology of

sacrum, fx

lead matt placed posteriorly from pt for

scatter

lumbar transverse processes are BLANK than thoracic

smaller

a congenital condition in which the posterior aspects of the vertebrae fail to develop is termed

spina bifida

congenital malformation, consisting of a defect in the closure of the vertebral arch. It is the mildest form of spina bifida, and usually asymptomatic

spina bifida occulta

lumbar vertebrae, large, thick, and blunt, have an almost horizontal projection posteriorly

spinous processes

involves forward movement of one vertebrae in relation to another, commonly due to defects in pars interarticularis or may result from spondylolysis, severe cases require a spinal fusion

spondylolisthesis

lateral proj of lumbar, clinical indications

spondylolisthesis

lateral L5-S1, clinical indications

spondylolisthesis involving L4-5 or L5-S1

erect lateral scoliosis series, clinical indications

spondylolisthesis, degree of kyphosis, lordosis

lateral proj of lumbar, no rotation by

superimposed greater sciatic notches

AP axial coccyx, coccyx projected BLANK to pubic symphysis

superior

sacrum, Form zygapophyseal joints with inferior articular processes of 5th lumbar vertebrae

superior articular process

AP axial sacrum, Pt position

supine with legs extended, support under knees

AP oblique of SI joints, pt position

supine, 25-30 oblique, side of interest elevated

AP axial proj of SI joints, pt position

supine, legs extended with support under knees

AP axial L5-S1, pt position

supine, legs extended, support under knees

AP axial L5-S1, respiration

suspend

AP axial proj of SI joints, respiration

suspend

AP oblique of SI joints, respiration

suspend

sacrum and coccyx lateral projection, respiration

suspend

coccyx lateral projection, support

under waist, between knees

oblique proj of lumbar, RAO and LAO show BLANK zygapophyseal joints

upside

2 advantages of PA projections of lumbar

visualization of intervertebral disks, low ovarian dose

oblique proj of lumbar, anatomy demonstrated

zygapophyseal joints