Equine Radiography: Positioning Techniques & Tips for Acquiring Good Images
ShalynCrawfordGarman
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Aug 26, 2015
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About This Presentation
Equine Radiography
Slide Content
Equine Radiography:
Positioning, Techniques &
Tips for Acquiring Good
Images
Shalyn J. Crawford, DVM
Positioning, Techniques &
Tips for Acquiring Good
Images
Shalyn J. Crawford, DVM
Images
•Unless otherwise indicated, all positioning
photographs included in this lecture have been
reproduced with permission from Christine Garloff's
presentation Large Animal Radiology Digital X-ray of
the Front and Hind Limb
•All anatomical model and unlabeled radiographic
views drawn from Iowa State University College of
Veterinary Medicine Horse Limb Anatomy free
resource website. Accessed web 9 Aug 2015
•Unless otherwise indicated, all positioning
photographs included in this lecture have been
reproduced with permission from Christine Garloff's
presentation Large Animal Radiology Digital X-ray of
the Front and Hind Limb
•All anatomical model and unlabeled radiographic
views drawn from Iowa State University College of
Veterinary Medicine Horse Limb Anatomy free
resource website. Accessed web 9 Aug 2015
Restraint & Safety
•Horse holder preferred to cross tie
•Opposite front limb held up, or ipsilateral front limb
held up
•Twitch
•Sedation:
–Xylazine 150mg
–Detomidine 3mg
•ALL individuals wearing lead aprons and monitoring
badges, plate holder lead gloves
–Make sure to provide owner with lead apron
•Use an inanimate plate holder and tripod whenever
possible
•Horse holder preferred to cross tie
•Opposite front limb held up, or ipsilateral front limb
held up
•Twitch
•Sedation:
–Xylazine 150mg
–Detomidine 3mg
•ALL individuals wearing lead aprons and monitoring
badges, plate holder lead gloves
–Make sure to provide owner with lead apron
•Use an inanimate plate holder and tripod whenever
possible
Radiation Safety Aids
X100S Tripod Stand. Digital Image. Pacific Northwest
X-ray. Pacific Northwest X-ray. Web. 9 Aug 2015.
TOMAHAWK Portable Cassette/CR-Plate Holder/Positioner.
Digital Image. MinXray. MinXray. Web. 9 Aug 2015.
X100S Tripod Stand. Digital Image. Pacific Northwest
X-ray. Pacific Northwest X-ray. Web. 9 Aug 2015.
TOMAHAWK Portable Cassette/CR-Plate Holder/Positioner.
Digital Image. MinXray. MinXray. Web. 9 Aug 2015.
Positioning
•Standing square
•Level solid ground surface
•Stand horse on blocks L and R to level
•Stand out of direct or bright light to see
collimator guide light
•Position horse so cords can reach both L
and R sides
•Adequate power supply
•Standing square
•Level solid ground surface
•Stand horse on blocks L and R to level
•Stand out of direct or bright light to see
collimator guide light
•Position horse so cords can reach both L
and R sides
•Adequate power supply
EZ BLOX strap-on xray blocks. Digital
Image. EDSS Hoof Care Products. Equine
Digital Support Systems. Web. 9 Aug 2015.
Redden navicular xray block. Digital Image.
Nanric. Nanric. Web. 9 Aug 2015.
Redden Offset Lateral & D.P. X-Ray Positioning
Block. Digital Image. Nanric. Nanric. Web. 9
Aug 2015.
Positioning Aids
Image. EDSS Hoof Care Products. Equine
Digital Support Systems. Web. 9 Aug 2015.
Redden navicular xray block. Digital Image.
Nanric. Nanric. Web. 9 Aug 2015.
Redden Offset Lateral & D.P. X-Ray Positioning
Block. Digital Image. Nanric. Nanric. Web. 9
Aug 2015.
Positioning Aids
Technique
•Varying – plain film, CR, DR
•Contact generator manufacturer for technique chart
•Know focal distance for your generator
–Use the retractable tape measure!!
•Collimate, collimate, collimate...collimate
•Tip – always place the plate as close to the anatomy
of interest as possible
•Tip (80kVp/15mA generators) – shorten focal
distance to improve penetration
•Tip – if images are dark enough but grainy, cut kVp
15% and increase mAs ~20%.
•Varying – plain film, CR, DR
•Contact generator manufacturer for technique chart
•Know focal distance for your generator
–Use the retractable tape measure!!
•Collimate, collimate, collimate...collimate
•Tip – always place the plate as close to the anatomy
of interest as possible
•Tip (80kVp/15mA generators) – shorten focal
distance to improve penetration
•Tip – if images are dark enough but grainy, cut kVp
15% and increase mAs ~20%.
Technique Cont.
•Use positioning markers
–Custom LF, RF, LH, RH markers
–Can use coin or paper clip in a pinch
–Dorsal hoof wall markers: barium, horse shoe
nail, wire
•Patient preparation
–Clean visible dirt/mud from limbs
–Foot prep:
•Remove shoes
•Clean dirt/mud from bottom and outside of hoof
•Lightly pare sole if necessary
•Pack frog sulci with play-doh
•Use positioning markers
–Custom LF, RF, LH, RH markers
–Can use coin or paper clip in a pinch
–Dorsal hoof wall markers: barium, horse shoe
nail, wire
•Patient preparation
–Clean visible dirt/mud from limbs
–Foot prep:
•Remove shoes
•Clean dirt/mud from bottom and outside of hoof
•Lightly pare sole if necessary
•Pack frog sulci with play-doh
Markers
•Markers always to be placed dorsal or lateral to
the anatomy
•Affix to plate with velcro tabs or duct tape
•Tip – to only move the marker once take film
series in order of DP, DLPMO, DMPLO, then LM
•Tip – if taking a two foot series, stand horse one
foot on block and one on tunnel. Take the
tunnel series of one foot and the DP and LM of
the other foot then switch blocks only once
•Markers always to be placed dorsal or lateral to
the anatomy
•Affix to plate with velcro tabs or duct tape
•Tip – to only move the marker once take film
series in order of DP, DLPMO, DMPLO, then LM
•Tip – if taking a two foot series, stand horse one
foot on block and one on tunnel. Take the
tunnel series of one foot and the DP and LM of
the other foot then switch blocks only once
Know Thy Anatomy
•Sample resources:
–Iowa State University interactive horse limb anatomy (free!)
•http://vetmed.iastate.edu/limbanatomy/horse.html
–Clayton, Flood & Rosenstein, Clinical Anatomy of the Horse ~$120
–The Glass Horse, Elements of the Equine Distal Limb ~$50
•http://www.3dglasshorse.com/default.asp
–Horse Anatomy: Equine 3D, app for iOS & Android ~$10
•Sample resources:
–Iowa State University interactive horse limb anatomy (free!)
•http://vetmed.iastate.edu/limbanatomy/horse.html
–Clayton, Flood & Rosenstein, Clinical Anatomy of the Horse ~$120
–The Glass Horse, Elements of the Equine Distal Limb ~$50
•http://www.3dglasshorse.com/default.asp
–Horse Anatomy: Equine 3D, app for iOS & Android ~$10
P3 Lateromedial (LM)
•Position: weight bearing on blocks
•Casette: against medial aspect of limb on ground,
perpendicular to limb
•Beam: centered at mid coronary band with heel
bulbs visually superimposed, generator on the
ground
•Use dorsal hoof wall markers for rotation/sinking
eval
•Position: weight bearing on blocks
•Casette: against medial aspect of limb on ground,
perpendicular to limb
•Beam: centered at mid coronary band with heel
bulbs visually superimposed, generator on the
ground
•Use dorsal hoof wall markers for rotation/sinking
eval
P3 Dorsopalmar (DP)
•Position: weight bearing on blocks
•Casette: on ground palmar/plantar aspect of limb,
perpendicular to limb
•Beam: parallel to ground, centered at coronary band
•Make sure to radiograph in reference to the hoof, if
horse toes out place on block accordingly and direct
beam straight at toe
•Position: weight bearing on blocks
•Casette: on ground palmar/plantar aspect of limb,
perpendicular to limb
•Beam: parallel to ground, centered at coronary band
•Make sure to radiograph in reference to the hoof, if
horse toes out place on block accordingly and direct
beam straight at toe
P3 Dorsolateral-Palmaromedial Oblique (DLPMO),
Dorsomedial-Palmarolateral Oblique (DMPLO)
•Position: weight bearing on tunnel
•Casette: in tunnel
•Beam: 60°PrDi, 45° off DP (either lateral or medial),
just distal to coronary band
Dorsomedial-Palmarolateral Oblique (DMPLO)
•Position: weight bearing on tunnel
•Casette: in tunnel
•Beam: 60°PrDi, 45° off DP (either lateral or medial),
just distal to coronary band
P3 Dorso-Proximal Palmaro-Distal Oblique Views
(D65Pr-PaDiO, Solar Margin and Dorsal Navicular)
•Position: weight bearing on tunnel
•Casette: inside tunnel
•Beam: centered 2cm above dorsal coronary band
60-65° angle
•This view can also be taken with foot on Redden block and
beam parallel to ground
•Increase mAs to view navicular bone, decrease mAs to not
burn through solar margin
(D65Pr-PaDiO, Solar Margin and Dorsal Navicular)
•Position: weight bearing on tunnel
•Casette: inside tunnel
•Beam: centered 2cm above dorsal coronary band
60-65° angle
•This view can also be taken with foot on Redden block and
beam parallel to ground
•Increase mAs to view navicular bone, decrease mAs to not
burn through solar margin
P3 Palmaroproximal-Dorsodistal Oblique
(PaPr-DDiO, Navicular skyline)
•Position: weight bearing on tunnel with limb placed
caudally
•Casette: in tunnel
•Beam: 50-55°PaPr centered just above heel bulbs
50-55°
(PaPr-DDiO, Navicular skyline)
•Position: weight bearing on tunnel with limb placed
caudally
•Casette: in tunnel
•Beam: 50-55°PaPr centered just above heel bulbs
50-55°
Fetlock Lateromedial (LM)
•Position: weight bearing
•Casette: medial to limb, perpendicular to ground
•Beam: parallel to floor, centered on PIP joint
•Distal condyles of cannon bone should be
superimposed in a true lateral
•Position: weight bearing
•Casette: medial to limb, perpendicular to ground
•Beam: parallel to floor, centered on PIP joint
•Distal condyles of cannon bone should be
superimposed in a true lateral
Fetlock Dorsopalmar/plantar (DP)
•Position: weight bearing
•Casette: palmar/plantar aspect of limb, on ground
parallel to pastern
•Beam: 20° proximally angled
•Proximal sesamoids should be offset proximally
from joint when viewing radiograph
•Ergot is clearly visible in this view
•Position: weight bearing
•Casette: palmar/plantar aspect of limb, on ground
parallel to pastern
•Beam: 20° proximally angled
•Proximal sesamoids should be offset proximally
from joint when viewing radiograph
•Ergot is clearly visible in this view
Oblique Views
Oblique Views and Large Animal Distal
Limb Normal Anatomy, Anderson K L, 2011
D-L-P-M
D-M-P-L
Lateral structures will be
viewed/highlighted on the palmar/plantar
aspect of the radiograph
Medial structures will be
viewed/highlighted on the palmar/plantar
aspect of the radiograph
Markers always placed laterally
Oblique Views and Large Animal Distal
Limb Normal Anatomy, Anderson K L, 2011
D-L-P-M
D-M-P-L
Lateral structures will be
viewed/highlighted on the palmar/plantar
aspect of the radiograph
Medial structures will be
viewed/highlighted on the palmar/plantar
aspect of the radiograph
Markers always placed laterally
Fetlock Dorsolateral-Palmaromedial Oblique (DLPMO),
Dorsomedial-Palmarolateral Oblique (DMPLO)
•Position: weight bearing
•Casette: palmaro/plantaro-medial or lateral to limb,
parallel to pastern
•Beam: 45° off DP (medial or lateral) centered at
fetlock joint
•Proximal sesamoid of interest should be clearly
offset
Dorsomedial-Palmarolateral Oblique (DMPLO)
•Position: weight bearing
•Casette: palmaro/plantaro-medial or lateral to limb,
parallel to pastern
•Beam: 45° off DP (medial or lateral) centered at
fetlock joint
•Proximal sesamoid of interest should be clearly
offset
Fetlock Flexed Lateromedial
•Position: held in flexion
–Tip – hold toe of foot with one gloved hand and
the plate with the opposite hand
•Casette: medial and parallel to limb
•Beam: parallel to ground/perpendicular to limb,
centered at PIP joint
•Make sure to have generator and computer settings
set before having plate/limb holder get in position
•Position: held in flexion
–Tip – hold toe of foot with one gloved hand and
the plate with the opposite hand
•Casette: medial and parallel to limb
•Beam: parallel to ground/perpendicular to limb,
centered at PIP joint
•Make sure to have generator and computer settings
set before having plate/limb holder get in position
MC/MT II & IV (Splint bones)
Dorsolateral-Palmaromedial Oblique (DLPMO),
Dorsomedial-Palmarolateral Oblique (DMPLO)
•Position: weight bearing
•Casette: palmaro/plantaro- lateral or medial to limb
•Beam: 45° off DP (medial or lateral) centered at
area of interest on splint bone
•Decrease mAs to not overexpose the delicate splint
bones
•To offset MC/MT IV → DLPMO/PMDLO
•To offset MC/MT II → DMPLO/PLDMO
Dorsolateral-Palmaromedial Oblique (DLPMO),
Dorsomedial-Palmarolateral Oblique (DMPLO)
•Position: weight bearing
•Casette: palmaro/plantaro- lateral or medial to limb
•Beam: 45° off DP (medial or lateral) centered at
area of interest on splint bone
•Decrease mAs to not overexpose the delicate splint
bones
•To offset MC/MT IV → DLPMO/PMDLO
•To offset MC/MT II → DMPLO/PLDMO
Carpus Lateromedial (LM)
•Position: weight bearing
•Casette: medial to limb, perpendicular to ground
•Beam: parallel to floor, centered on mid-carpus
•Position: weight bearing
•Casette: medial to limb, perpendicular to ground
•Beam: parallel to floor, centered on mid-carpus
Carpus Dorsopalmar (DP)
•Position: weight bearing
•Casette: palmar aspect of limb, perpendicular to
ground
•Beam: parallel to floor, centered mid-carpus
•Position: weight bearing
•Casette: palmar aspect of limb, perpendicular to
ground
•Beam: parallel to floor, centered mid-carpus
Carpus Dorsolateral-Palmaromedial Oblique (DLPMO),
Dorsomedial-Palmarolateral Oblique (DMPLO)
•Position: weight bearing
•Casette: palmaromedial/lateral to limb
•Beam: parallel to floor, 30° off LM or ML, centered
mid-carpus
Dorsomedial-Palmarolateral Oblique (DMPLO)
•Position: weight bearing
•Casette: palmaromedial/lateral to limb
•Beam: parallel to floor, 30° off LM or ML, centered
mid-carpus
Carpus Flexed Lateromedial
•Position: held in flexion 60°
–Tip – hold toe of foot with one gloved hand and the plate with the
opposite hand
•Casette: medial and parallel to limb
•Beam: parallel to ground/perpendicular to limb,
centered between proximal and distal row of carpal
bones
•Make sure to have generator and computer settings
set before having plate/limb holder get in position
•Position: held in flexion 60°
–Tip – hold toe of foot with one gloved hand and the plate with the
opposite hand
•Casette: medial and parallel to limb
•Beam: parallel to ground/perpendicular to limb,
centered between proximal and distal row of carpal
bones
•Make sure to have generator and computer settings
set before having plate/limb holder get in position
Carpus Skyline Views (proximal and distal rows)
•Position: held in flexion
–Hold limb in flexion and push forward to expose distal
row of carpal bones
•Casette: plate held against dorsal aspect of cannon with
carpus centered
•Beam: steep dorsoproximal-palmarodistal angle
downward standing in front of the horse, adjust angle to
focus on proximal vs distal row of carpal bones
Distal – ulnar, 4
th
, 3
rd
, 2
nd
Proximal – ulnar, intermediate, radial
•Position: held in flexion
–Hold limb in flexion and push forward to expose distal
row of carpal bones
•Casette: plate held against dorsal aspect of cannon with
carpus centered
•Beam: steep dorsoproximal-palmarodistal angle
downward standing in front of the horse, adjust angle to
focus on proximal vs distal row of carpal bones
Distal – ulnar, 4
th
, 3
rd
, 2
nd
Proximal – ulnar, intermediate, radial
Tarsus Lateromedial (LM)
•Position: weight bearing
•Casette: medial to limb, perpendicular to ground
•Beam: parallel to floor, centered proximal intertarsal
joint
•Position: weight bearing
•Casette: medial to limb, perpendicular to ground
•Beam: parallel to floor, centered proximal intertarsal
joint
Tarsus Dorsoplantar (DP)
•Position: weight bearing
•Casette: plantar aspect of limb, perpendicular to
ground
•Beam: slightly proximodistal angle, centered
proximal intertarsal joint
•Position: weight bearing
•Casette: plantar aspect of limb, perpendicular to
ground
•Beam: slightly proximodistal angle, centered
proximal intertarsal joint
Tarsus Dorsolateral-Plantaromedial Oblique (DLPMO),
Dorsomedial-Plantarolateral Oblique (DMPLO)
•Position: weight bearing
•Casette: plantaromedial/lateral to limb
•Beam: parallel to floor, 45° off DP,
centered proximal intertarsal joint
DMPLO
DLPMO
Dorsomedial-Plantarolateral Oblique (DMPLO)
•Position: weight bearing
•Casette: plantaromedial/lateral to limb
•Beam: parallel to floor, 45° off DP,
centered proximal intertarsal joint
DMPLO
DLPMO
Stifle Lateromedial (LM)
•Position: weight bearing
•Casette: medial to limb, as dorsal as possible
–Move slowly and carefully as horse's can be very
sensitive to the plate in this area!!
•Beam: parallel to floor, centered stifle joint
•Femoral condyles should be superimposed
•Make sure to get the entire patella and proximal tibia in the image; if
your plate is too small/horse too large you may have to take two
views to image all of the anatomy
•Position: weight bearing
•Casette: medial to limb, as dorsal as possible
–Move slowly and carefully as horse's can be very
sensitive to the plate in this area!!
•Beam: parallel to floor, centered stifle joint
•Femoral condyles should be superimposed
•Make sure to get the entire patella and proximal tibia in the image; if
your plate is too small/horse too large you may have to take two
views to image all of the anatomy
Stifle Lateromedial (LM)
•Position: weight bearing
•Casette: medial to limb, as dorsal as possible
–Move slowly and carefully as horse's can be very
sensitive to the plate in this area!!
•Beam: parallel to floor, centered stifle joint
•Femoral condyles should be superimposed
•Make sure to get the entire patella and proximal tibia in the image; if
your plate is too small/horse too large you may have to take two
views to image all of the anatomy
•Position: weight bearing
•Casette: medial to limb, as dorsal as possible
–Move slowly and carefully as horse's can be very
sensitive to the plate in this area!!
•Beam: parallel to floor, centered stifle joint
•Femoral condyles should be superimposed
•Make sure to get the entire patella and proximal tibia in the image; if
your plate is too small/horse too large you may have to take two
views to image all of the anatomy
Stifle Caudolateral-Craniomedial Oblique
(CdLCrMO)
•Position: weight bearing
•Casette: held against dorsomedial aspect of stifle
•Beam: centered at stifle 30° caudolateral (from true
lateral)
•Medial femoral condyle should be clearly visible
(CdLCrMO)
•Position: weight bearing
•Casette: held against dorsomedial aspect of stifle
•Beam: centered at stifle 30° caudolateral (from true
lateral)
•Medial femoral condyle should be clearly visible
Stifle Caudocranial (CdCr)
•Position: weight bearing
•Casette: held against dorsal aspect of limb centered
at patella
•Beam: stand directly behind the horse (CAUTION)
with generator held close to hindquarters, angle
proximodistally (downward) aiming for middle of joint
•Position: weight bearing
•Casette: held against dorsal aspect of limb centered
at patella
•Beam: stand directly behind the horse (CAUTION)
with generator held close to hindquarters, angle
proximodistally (downward) aiming for middle of joint
Humeroradial Joint (Elbow)
•Medial-lateral (ML):
–Position: weight bearing or limb held extended
forward (more motion)
–Casette: against lateral aspect elbow
–Beam: directed medial-lateral
•Craniocaudal (CrCd):
–Position: weight bearing or limb held up with
radius parallel to floor
–Casette: against caudal aspect elbow
–Beam: centered elbow joint, for standing view
may need to direct beam slightly caudodistally
•Medial-lateral (ML):
–Position: weight bearing or limb held extended
forward (more motion)
–Casette: against lateral aspect elbow
–Beam: directed medial-lateral
•Craniocaudal (CrCd):
–Position: weight bearing or limb held up with
radius parallel to floor
–Casette: against caudal aspect elbow
–Beam: centered elbow joint, for standing view
may need to direct beam slightly caudodistally
Selected Dental Radiographs
•Tip – helps to have horse markedly sedate and
resting head on a stand, tall trash can, hay
bales, etc. to minimize motion
•Tip – use a rope halter, no metal fittings
•Remember! plate MUST be closest to the
anatomy of interest
•Incisor block can be used for oblique views
•Can use malleable metal probe to mark draining
facial tracts or contrast material
•Tip – helps to have horse markedly sedate and
resting head on a stand, tall trash can, hay
bales, etc. to minimize motion
•Tip – use a rope halter, no metal fittings
•Remember! plate MUST be closest to the
anatomy of interest
•Incisor block can be used for oblique views
•Can use malleable metal probe to mark draining
facial tracts or contrast material
Dental Radiographs Cont.
•LM – plate L or R of head depending on anatomy of
interest, beam centered near rostral aspect facial
crest
•DV – plate against mandible, beam perpendicular
centered near rostral facial crest
•DV oblique (for viewing maxillary tooth roots) –
beam centered rostral facial crest, angled 30-45°
(from lat) dorsal-ventral
•VD oblique (for viewing mandibular tooth roots) –
beam centered ventral edge mandible, angled 45-
60° (from lat) ventral-dorsal
•LM – plate L or R of head depending on anatomy of
interest, beam centered near rostral aspect facial
crest
•DV – plate against mandible, beam perpendicular
centered near rostral facial crest
•DV oblique (for viewing maxillary tooth roots) –
beam centered rostral facial crest, angled 30-45°
(from lat) dorsal-ventral
•VD oblique (for viewing mandibular tooth roots) –
beam centered ventral edge mandible, angled 45-
60° (from lat) ventral-dorsal
Maxillary cheek teeth are highlighted – which view was taken?
Scapulohumeral Joint (Shoulder)
•Requires high output machine due to large
soft tissue mass
•Medial-lateral view:
–Position: holder extends front limb of interest
as far out in front of the horse's body as
possible
–Casette: held against lateral aspect shoulder
–Beam: directed medial-lateral
–Try to superimpose shoulder joint over
trachea to reduce soft tissue overlap
•Requires high output machine due to large
soft tissue mass
•Medial-lateral view:
–Position: holder extends front limb of interest
as far out in front of the horse's body as
possible
–Casette: held against lateral aspect shoulder
–Beam: directed medial-lateral
–Try to superimpose shoulder joint over
trachea to reduce soft tissue overlap
Temporomandibular Joint (TMJ) - R45°V30°L-CdDO
●
Position: Standing with head extended on head stand
●
Casette: Dorsal aspect of poll/occipital protuberance, 15°
angle centered on TMJ of interest
●
Beam: Directed 30° lateral to DV, 45° rostroventral-
caudodorsal angle
Positioning of the head on the post and the placement of the cassette
holder, From: Ebling, A.McKnight, A., Seiler, G., & Kircher, P. (2009). A
Complementary Projection of the Equine Temporomandibular Joint.
Veterinary Radiology and Ultrasound 50 (4) 388.
●
Position: Standing with head extended on head stand
●
Casette: Dorsal aspect of poll/occipital protuberance, 15°
angle centered on TMJ of interest
●
Beam: Directed 30° lateral to DV, 45° rostroventral-
caudodorsal angle
Positioning of the head on the post and the placement of the cassette
holder, From: Ebling, A.McKnight, A., Seiler, G., & Kircher, P. (2009). A
Complementary Projection of the Equine Temporomandibular Joint.
Veterinary Radiology and Ultrasound 50 (4) 388.
References
Butler, Janet A. Clinical Radiology of the Horse. Oxford, UK: Wiley-Blackwell
Pub., 2008. Print.
Ebling, Alessia J., Alexia L. Mcknight, Gabriela Seiler, and Patrick R. Kircher.
"A Complementary Radiographic Projection Of The Equine Temporomandibular
Joint." Veterinary Radiology & Ultrasound 50.4 (2009): 385-91. Print.
Griffin, Cleet. "EQ8 Dental Imaging." Proc. of Western Veterinary Conference,
Las Vegas. Web.O'Brien, Timothy R.
O'Brien's Radiology for the Equine Ambulatory Practitioner. Jackson, WY:
Teton NewMedia, 2005. Print.
Redden, R. F. "The Equine Foot In-Depth: Clinical and Radiographic
Examination of the Equine Foot." 49th Annual Convention of the American
Association of Equine Practitioners, 2003. New Orleans. 21 Nov. 2003. Web. 1
Aug. 2015.
Thrall, Donald E. Textbook of Veterinary Diagnostic Radiology. St. Louis, MO:
Saunders Elsevier, 2007. Print.
Butler, Janet A. Clinical Radiology of the Horse. Oxford, UK: Wiley-Blackwell
Pub., 2008. Print.
Ebling, Alessia J., Alexia L. Mcknight, Gabriela Seiler, and Patrick R. Kircher.
"A Complementary Radiographic Projection Of The Equine Temporomandibular
Joint." Veterinary Radiology & Ultrasound 50.4 (2009): 385-91. Print.
Griffin, Cleet. "EQ8 Dental Imaging." Proc. of Western Veterinary Conference,
Las Vegas. Web.O'Brien, Timothy R.
O'Brien's Radiology for the Equine Ambulatory Practitioner. Jackson, WY:
Teton NewMedia, 2005. Print.
Redden, R. F. "The Equine Foot In-Depth: Clinical and Radiographic
Examination of the Equine Foot." 49th Annual Convention of the American
Association of Equine Practitioners, 2003. New Orleans. 21 Nov. 2003. Web. 1
Aug. 2015.
Thrall, Donald E. Textbook of Veterinary Diagnostic Radiology. St. Louis, MO:
Saunders Elsevier, 2007. Print.
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