SKULL.pdf

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PREPARED BY:
skull ALDRIN LOPEZ,
RRT, MSRT

9/3/20XX Presentation Title 1
SKULL PLANES, POINTS & LINE

Midsagittal plane (MSP)

Interpupillary line (IPL)
Acanthion
Outer canthus
Infraorbital margin
External acoustic meatus (EAM)
Orbitalmeatal line (OML)
Infraorbitomeatal line (IOML)/Frankpurt Line

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 Acanthiomeatal line (AML)
Mentomeatal line (MML)
Between OML & IOML: 7o difference
Between OML & GML: 8o difference

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PATHOLOGY

1. ) Basal Fx

Fx located at the base of the skull

2) Blowout Fx

Fx of the floor of the orbit

3.) Contre-Coup Fx

Fx to one side of a structure caused by trauma to the other side

4.) Depressed Fx

Fx causing a portion of the skull to be depressed into the cranial cavity

Presentation Title
 5.) Le Fort Fx

Bilateral horizontal fxs of the maxillae

6.) Linear Fx

Irregular or jagged fx of the skull

7.) Tripod Fx

Fx of the zygomatic arch & orbital floor/rim & dislocation of the frontozygomatic suture

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 8.) Mastoiditis

Inflammation of mastoid antrum & air cells

9.) Paget’s Disease

Thick, soft bone marked by bowing fxs

10.) Sinusitis

Inflammation of one or more of the paranasal sinuses
11.) TMJ Syndrome

Dysfunction of the temporomandibular joint

Presentation Title
 SKULL

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 PA PROJECTION
PP: Prone; forehead & nose against IR; MSP & OML
perpendicular to IR
RP: Nasion
CR: Perpendicular
SS: Petrous pyramid completely filled the orbits; frontal bone

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 AP PROJECTION

PP: Supine; MSP & OML perpendicular to IR

RP: Nasion

CR: Perpendicular

SS: Same as PA, but the image is MAGNIFIED

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 MODIFIED CALDWELL METHOD

PA AXIAL PROJECTION

PP: Prone; forehead & nose against IR; OML perpendicular to IR; MSP perpendicular to IR

RP: Nasion

CR: 15o caudad

SS:

-General Survey Examination:

Anterior & side walls of the cranium
Temporal fossae
Frontal sinuses & anterior ethmoid sinus
Crista galli
Upper 2/3 of orbits
Petrous pyramid to lower 1/3 of orbit

-Superior orbital fissure/sphenoid fissure (20-25o caudad) & foramen rotundum (25-30o caudad)

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 AP AXIAL PROJECTION
PP: Supine; OML perpendicular to IR
RP: Nasion
CR: 15o cephalad
SS: Same as PA axial but orbits are magnified & the distance b/n
lateral margin of orbits & temporal bones are less on AP than PA

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 TRUE/ORIGINAL CALDWELL
PP: Prone; forehead & nose against IR; GML perpendicular to
IR; MSP perpendicular to IR
RP: Nasion
CR: 23o caudad
SS: Same as above

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 LATERAL PROJECTION

PP: Semiprone; MSP & IOML parallel to IR; IPL perpendicular to IR

RP: 2 in. Above EAM or midway b/n inion & glabella

CR: Perpendicular

SS:

-General survey examination

Sella turcica
Anterior & posterior clinoid processes,
Dorsum sellae
Superimposed mandibular rami
Mastoid region
EAM & TMJ

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 CROSSTABLE LATERAL
PP: Dorsal decubitus (Robinson, Meares & Goree recommendation);
MSP perpendicular to IR
RP: 2 in. Above EAM
CR: Horizontal
ER: For traumatic sphenoid sinus effusion (basal skull fx)

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 TOWNE/ALTSCHUL/GRASHEY/CHAMBERLAINE
METHOD

AP AXIAL PROJECTION

PP: Supine; OML/IOML & MSP perpendicular to IR;

RP: 2.5-3 in. above glabella

CR: 30o caudad (OML ┴); 37o caudad (IOML ┴)

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 SS:

-“SPDOP”

Symmetric petrous pyramid
Posterior portion of foramen magnum
Dorsum sellae & posterior clinoid process w/in shadow of foramen magnum
Occipital bone
Posterior portion of parietal bone

-Tomographic studies of ears, facial canal, jugular foramina & rotundum foramina

-Entire foramen magnum jugular foramina (40-60o caudad to OML)

-Posterior portion of cranial vault (CR ┴ to midway b/n frontal tuberosities)

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 TOWNE/ALTSCHUL/GRASHEY/CHAMBERLAINE METHOD

AP AXIAL PROJECTION

PP: Lateral decubitus; OML/IOML & MSP perpendicular to IR

RP: 2.5-3 in. above glabella

CR: 30o caudad (OML ┴); 37o caudad (IOML ┴)

SS: Same as above

ER: For patient w/ pathologic condition, trauma or deformity (strongly
accentuated dorsal kyphosis)

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 HAAS METHOD

PA AXIAL PROJECTION

PP: Prone; MSP & OML perpendicular to IR; forehead & nose against the table; IR center 1 in. to nasion

RP: 1.5 in. below inion (entrance); 1.5 in. superior to nasion (exit)

CR: 25o cephalad to OML

SS:

Occipital bone
Symmetric petrous pyramid
Dorsum sellae & posterior clinoid processes w/in shadow of foramen magnum

ER: For obtaining image of sellar structures (DS & PCP) w/in FM on hypersthenic & obese patient

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 SCHULLER/PFEIFFER METHOD

SUBMENTOVERTICAL PROJECTION

PP: Supine or Seated-upright (more comfortable); IOML parallel to IR; MSP perpendicular to IR; head rested
on vertex; neck hyperextended

RP: ¾ in. anterior to EAM (sella turcica)

CR: Perpendicular to IOML; MSP of throat b/n gonion (entrance)

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 SS: Cranial base
Foramen ovale & spinosum (best demonstrated)
Symmetric petrosae
Mastoid processes
Carotid canals
Sphenoidal & ethmoidal sinuses
Mandible
Bony nasal septum
Dens of axis
Occipital bone
Maxillary sinus superimposed over the mandible
Zygomatic arches (well demonstrated if exposure factors are decreased)
Axial tomography of orbits, optic canals, ethmoid bone, maxillary sinuses & mastoid processes

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 SCHULLER METHOD

VERTICOSUBMENTAL PROJECTION

PP: Prone; chin fully hyperextended; MSP perpendicular to IR

RP: ¾ in. anterior to EAM (sella turcica)\

CR: Perpendicular to IOML; MSP of throat b/n gonion (entrance)

SS: Same as SMV

Distorted & magnified basal structures
Useful for anterior cranial base & sphenoidal sinuses
o IR in contact with the throat
o Reduces magnification & distortion

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 LYSHOLM METHOD

AXIOLATERAL METHOD

PP: Semiprone; MSP parallel to IR; IOML parallel to transverse axis of IR; IPL perpendicular to IR

RP: 1 in. distal to lower EAM (exit)

CR: 30-35o caudad

SS: Oblique position of lateral aspect of cranial base closest to IR

ER: For patients who cannot extend their head enough for a satisfactory SMV projection

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 VALDINI METHOD

PA AXIAL PROJECTION

PP: Recumbent or seated-erect (more comfortable); upper frontal region of skull against IR; MSP
perpendicular to IR; head acutely flexed; IOML 50o/OML 50o; line extending from inion to 0.5 cm distal to
nasion form 28o to CR

RP: 0.5 cm distal to nasion (dorsum sellae); foramen magnum/slightly above level of EAM (petrosae)

CR: Perpendicular; inion (entrance); 0.5 cm distal to nasion (exit)

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 SS:
DILA (IOML 50o): Dorsum sellae; Internal Auditory Meatus (IAM);
LAbyrinth
ETB “EaT Bulaga” (OML 50o): External auditory meatus;
Tymphanic cavity; Bony part of Eustachian tube
Dorsum sellae & posterior clinod processes within or above shadow
of foramen magnum
Tubeculum sellae, anterior clinoid processes & sella turcica below
shadow of foramen magnum
Mastoid pneumatization

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 SELLA TURCICA

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 LATERAL PROJECTION

PP: Semiprone; MSP & IOML parallel to IR; IPL perpendicular to IR

RP: ¾ in. anterior & ¾ in. superior to EAM
CR: Perpendicular
SS: Superimposed anterior & posterior clinoid processes; dorsum sellae

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 TOWNE METHOD

PP: Supine; OML/IOML & MSP perpendicular to IR;

RP: 2.5-3 in. above glabella

CR: 30o caudad (OML ┴); 37o caudad (IOML ┴)

SS: Sellar region

Dorsum sellae, tuberculum sellae & anterior clinoid processes through occipital bone above shadow of
foramen magnum (30o caudad)
Dorsum sellae & posterior clinoid processes w/in shadow of foramen magnum (37o caudad)
Symmetric petrous pyramid

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 HAAS METHOD

PA AXIAL PROJECTION

PP: Prone; MSP & OML perpendicular to IR; forehead & nose against the table; IR center 1 in. to nasion

RP: 1.5 in. below inion (entrance); 1.5 in. superior to nasion (exit)

CR: 25o cephalad to OML

SS:

Dorsum sellae & posterior clinoid processes w/in shadow of foramen magnum
Symmetric petrous pyramid

ER: For obtaining image of sellar structures (DS & PCP) w/in FM on hypersthenic & obese patients

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 PA PROJECTION

PP: Prone; forehead & nose against IR; MSP & OML perpendicular to IR

RP: Glabella

CR: 10o cephalad

SS: Dorsum sellae, tuberculum sellae, anterior & posterior clinoid processes
through frontal bone above ethmoidal sinuses

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 OPTIC CANAL/FORAMEN

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 RHESE METHOD

PARIETO-ORBITAL OBLIQUE PROJECTION

PP: Prone; affected orbit closest to IR; zygoma, nose & chin against IR (3-pt
Lower Landing); AML perpendicular to IR; MSP 53o angle to IR

RP: Affected orbit closest to IR

CR: Perpendicular

SS: Optic canal/foramen (inferior & lateral quadrant of orbital shadow)

PAZAM: Prone; Affected orbit against IR; Zynoch; AML ┴; MSP 53o to IR

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 RHESE METHOD

ORBITO-PARIETAL OBLIQUE PROJECTION

PP: Supine; affected orbit away from IR; AML perpendicular to IR;
MSP 53o angle to IR

RP: Inferior and lateral margin of uppermost orbit CR: Perpendicular

SS: Magnified optic canal/foramen

Increased radiation dose to lens of eye

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 ALEXANDER METHOD

ORBITO-PARIETAL OBLIQUE PROJECTION

PP: Erect/supine; IR 15o angle from vertical; MSP 40o to IR; AML
perpendicular to IR

RP: Inferior and lateral margin of uppermost orbit

CR: Perpendicular

SS: Optic canal/foramen

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 MODIFIED LYSHOLM METHOD

ECCENTRIC ANGLE PARIETO-ORBITAL OBLIQUE PROJECTION

PP: Prone; forehead & nose against IR; IOML perpendicular to IR; MSP 20o from
vertical;

RP: Affected orbit (exit)

CR: 20o caudad or 30o caudad

SS: Optic canal/foramen & anterior clinoid processes (20o); superior orbital
fissure (30o)

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 SPHENOID STRUT

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 HOUGH METHOD

PARIETO-ORBITAL OBLIQUE PROJECTION

PP: Prone; superciliary ridge/arch & side of the nose against IR; IOML
perpendicular to IR; MSP 20o from vertical; MSP 20o toward the side of
interest

RP: Affected orbit (exit)

CR: 7o caudad

SS: Unobstructed & undistorted image of the sphenoid strut (lie b/n
sphenoidal sinus & combined shadows of anterior clinoid processes &
lesser wing of sphenoid bone)

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 SUPERIOR
ORBITAL/SPHENOID
FISSURES

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 CALDWELL METHOD

PA AXIAL PROJECTION

PP: Prone; forehead & nose against IR; OML perpendicular to IR

RP: Nasion

CR: 20-25o caudad or 15o caudad

SS: Superior orbital fissures

Lying on the medial side of orbits b/n greater & lesser wings of sphenoid)

Well demonstrated at 15o caudal angle (Caldwell)
Petrous portions at or below the inferior orbital margin

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 INFERIOR ORBITAL
FISSURES

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 BERTEL METHOD

PA AXIAL PROJECTION

PP: Prone; forehead & nose against IR; IOML perpendicular to IR

RP: Nasion

CR: 20-25o cephalad

SS: Inferior orbital fissures

b/n shadows of pterygoid process of sphenoid bone & mandibular ramus
Anterior image of each orbital floor

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 EYE- FOREIGN BODY
LOCALIZATION

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Presentation Title
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 LATERAL PROJECTION

PP: Semiprone; MSP parallel to IR; IPL perpendicular to IR; instruct
patient to look straight ahead during exposure

RP: Outer canthus

CR: Perpendicular

SS: Superimposed orbital roofs

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 PA AXIAL PROJECTION

PP: Prone; forehead & nose against IR; MSP & OML
perpendicular to IR; instruct patient to close the eyes

RP: Midorbits

CR: 30o caudad

SS: Petrous pyramids lying below orbital shadows

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 MODIFIED WATERS METHOD

PARIETOACANTHIAL PROJECTION

PP: Prone; chin against IR; MSP perpendicular to IR; OML 50o to IR
(new); OML 25-37o to IR (old); instruct patient to close the eyes

RP: Midorbits

CR: Perpendicular

SS: Petrous pyramids lying well below orbital shadows

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 VOGT-BONE-FREE POSITION

Taken to detect small or low density foreign particles located in the anterior
segment of the eyeball/eyelids
2 Projections: lateral & superoinferior
2 Movements:
o Vertical: 2 exposures (for lateral)
▪ Look up as far as possible
▪ Look down as far as possible
o Horizontal: 2 exposures (for superoinferior)
▪ Look to extreme right
▪ Look to extreme left

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 PARALLAX METHOD
First described by Richards
It determines whether the foreign body is located within the eyeball requires no special apparatus
Not considered as precision localization procedure
Widely used as preliminary check only
2 Projections:
o Lateral: 2 exposures

o PA: 2 exposures

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 SWEET METHOD

It determines the exact location of a foreign body by use of a geometric calculations
Apparatus:
o Sweet localizing device
o Sweet film pedestal
1 Projection:
o Lateral: 2 exposures

▪ CR perpendicular
▪ CR 15-25o cephalad

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 PFEIFFER-COMBERG METHOD

A leaded contact lens is placed directly over the cornea
Apparatus:
o Contact lens localization device
o Pedestal type of film holder
2 Projections:
o Waters Method:
▪ CR horizontal
o Lateral:
▪ CR perpendicular

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 FACIAL BONE

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 LATERAL PROJECTION

PP: Semiprone; MSP & IOML parallel to IR; IPL perpendicular to IR

RP: Zygoma/malar bone

CR: Perpendicular

SS: Superimposed facial bones

Superimposed mandibular rami & orbital roofs

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 WATERS METHOD

PARIETO-ACANTHIAL PROJECTION

PP: Prone; MSP & MML perpendicular to IR; OML 37o to IR; nose ¾ in. (1.9 cm) away
from IR

RP: Acanthion (exit)

CR: Perpendicular

SS: Orbits, maxillae & zygomatic arches

Best projection for facial bones
Petrous ridges below the maxillae
Blow out fractures

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 MODIFIED WATERS

PP: Prone; MSP & MML perpendicular to IR; OML 55o to IR

RP: Acanthion (exit)

CR: Perpendicular

SS: Facial bones w/ less axial angulation

Petrous ridges below the inferior border of orbits

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 REVERSE WATERS METHOD

AP AXIAL PROJECTION

PP: Supine; MSP & MML perpendicular to IR; OML 37o to IR; chin up

RP: Acanthion (exit)

CR: Perpendicular

SS: Superior facial bones; same as True/Original Waters, but the image is
MAGNIFIED

ER: For patient who cannot be placed in the prone position

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 CALDWELL METHOD

PA AXIAL PROJECTION

PP: Prone; forehead & nose against IR; OML perpendicular to IR

RP: Nasion

CR: 15o caudad or 30o caudad (Exaggerated Caldwell)

SS: Orbital rims, maxillae, nasal septum, zygomatic bones & anterior nasal spine

Petrous ridges at lower third of orbits (15o caudad)
Petrous ridges below the inferior orbital margins (30o caudad)
Orbital floors (30o caudad)

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 LAW METHOD

PA OBLIQUE AXIAL PROJECTION

PP: Semiprone; zygoma, nose & chin against IR; unaffected side against IR; OML perpendicular to IR;
Center IR 2 in. above floor of maxillary sinuses

RP: Lower antrum

CR: 25-30o cephalad; posterior to gonion (entrance)

SS: Floor & posterior wall of maxillary sinus (antrum) of side down

External orbital wall

Zygomatic bone
Anterior wall of maxillary sinus of side up

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 NASAL BONE

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 LATERAL PROJECTION
PP: Semiprone; MSP & IOML parallel to IR; IPL perpendicular
to IR
RP: ¾ in. (old) or ½ in. (new) distal to nasion
CR: Perpendicular
SS: Nasal bones of side down & soft tissue structures

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 TANGENTIAL PROJECTION

PP:

Extraoral Film (Cassette): prone; chin rested on sandbags; chin fully extended; MSP & GAL
perpendicular to IR
Intraoral Film (Occlusal Film): supine; head elevated; MSP perpendicular to sponge; GAL parallel to
sponge & perpendicular to film

RP: Glabelloalveolar line

CR: Perpendicular

SS: Nasal bones with minimal superimposition

ER: For demonstration of any medial or lateral displacement of fragments in fractures

Contraindications:

Children or adults who have very short nasal bones, concave face or protruding upper teeth

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 WATERS METHOD
PARIETO-ACANTHIAL PROJECTION
PP: Prone; MSP & MML perpendicular to IR; OML 37o to IR;
nose ¾ in. (1.9 cm) away from IR
RP: Acanthion (exit)
CR: Perpendicular
ER: Displacement of bony nasal septum & depressed fx of nasal
wings

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 ZYGOMATIC ARCHES

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 SCHULLER/PFEIFFER METHOD

SUBMENTOVERTICAL PROJECTION

PP: Supine or Seated-upright (more comfortable); IOML parallel to IR; MSP perpendicular to IR; head rested
on vertex; neck hyperextended

RP: 1 in. posterior to outer canthi

CR: Perpendicular to IOML; MSP of throat b/n gonion (entrance)

SS: Best demonstrates bilateral symmetric zygomatic arches

Presentation Title
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 MODIFIED TITTERINGTON METHOD

PA AXIAL (SUPEROINFIOR) PROJECTION

PP: Prone; nose & chin against IR; MSP perpendicular to IR

RP: Vertex midway b/n zygomatic arches

CR: 23-38o caudad

SS: Well shown zygomatic arches

Presentation Title
 MAY METHOD

TANGENTIAL PROJECTION

PP: Prone/seated; neck fully extended; IOML parallel to IR; MSP rotated 15o
toward the side of interest; head tilted 15o

RP: Zygomatic arch at 1.5 in. posterior to outer canthus

CR: Perpendicular to IOML

SS: Zygomatic arch free of superimposition

ER: Useful with patients who have depressed fractures or flat cheekbones

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 MODIFIED TOWNE METHOD

AP AXIAL PROJECTION

JUG HANDLE VIEW

PP: Supine; OML/IOML & MSP perpendicular to IR;

RP: Glabella (1 in. above nasion)

CR: 30o caudad (OML ┴); 37o caudad (IOML ┴)

SS: Bilateral symmetric zygomatic arches free of superimposition

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 MANDIBLE

Presentation Title
 PA PROJECTION

PP: Prone; forehead & nose against IR; OML & MSP perpendicular to
IR

RP: Acanthion (exit)

CR: Perpendicular

SS: Mandibular rami

ER: To demonstrate any medial or lateral displacement of fragments
in fractures of the rami

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 PA AXIAL PROJECTION

PP: Prone; forehead & nose against IR; OML & MSP perpendicular to
IR

RP: Acanthion (exit)

CR: 20 or 25o cephalad

SS: Condylar processes; mandibular rami

ER: To demonstrate any medial or lateral displacement of fragments
in fractures of the rami

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 PA PROJECTION
PP: Prone; nose & chin against IR; AML & MSP
perpendicular to IR

RP: Level of lips

CR: Perpendicular

SS: Mandibular body

Presentation Title
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 PA AXIAL PROJECTION

PP: Prone; nose & chin against IR; AML & MSP perpendicular to IR;
fill the mouth with air to obtained better contrast around TMJs (Zanelli
recommendation)

RP: Midway b/n TMJs

CR: 30o cephalad

SS: Mandibular body; TMJs; condylar processes

Presentation Title
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 AXIOLATERAL OBLIQUE PROJECTION

PP: Seated/semiprone/semisupine; head in true lateral & IPL perpendicular to IR (ramus); head rotated 30o
toward IR (body); head rotated 45o toward IR (symphysis); head rotated 10-15o toward IR (general survey);
mouth closed; neck extended (prevent superimposition of cervical spine)

RP: Mandibular region of interest

CR: 25o cephalad

SS: Mandibular body & TMJs

ER: To place the desired portion of the mandible parallel with the IR

Muscular/Hypersthenic Patients: MSP 15o & CR 10o cephalad

To reduce the possibility of projecting shoulder over the mandible

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 SCHULLER/PFEIFFER METHOD

SUBMENTOVERTICAL PROJECTION

PP: Supine or Seated-upright (more comfortable); IOML parallel to IR; MSP
perpendicular to IR; head rested on vertex; neck hyperextended

RP: Midway b/n gonions

CR: Perpendicular to IOML

SS: Mandibular body; coronoid & condyloid processes of rami

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 SCHULLER METHOD
VERTICOSUBMENTAL PROJECTION
PP: Prone; chin fully hyperextended; IR against throat; MSP
perpendicular to IR
RP: Level just posterior to outer canthi
CR: Perpendicular to IOML or occlusal plane
SS: Condyle & neck of condylar processes are better shown
(CR ┴ occlusal plane)
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 PANORAMIC TOMOGRAHY/
PANTOMOGRAPHY/ROTATIONAL TOMOGRAPHY

-technique employed to produced tomograms of curved surfaces-

Provides panoramic image of the entire mandible, TMJ, dental arches
Provides distortion-free lateral image of the entire mandible
Patients who sustained severe mandibular or TMJ trauma
Useful for general survey studies of dental abnormalities
Adjuvant for pre-bone marrow transplant

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 TEMPOROMANDIBULAR
JOINTS

Presentation Title
 TOWNE METHOD

AP AXIAL PROJECTION

PP: Supine; MSP & OML perpendicular to IR

Closed-mouth Position: posterior teeth in contact not incisors
o Rationale: prevents mandibular protrusion & condyles to be carried out of mandibular fossae
Opened-mouth Position: open as wide as possible
o Mandible not protruded (jutted forward)
o Not perform in trauma patients

RP: 3 in. above nasion

CR: 35o caudad

SS: Mandibular condyles & mandibular fossae of temporal bones

Closed-mouth: condyle lying in mandibular fossa
Opened-mouth: condyles lying inferior to articular tubercle

Presentation Title
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9/3/20XX Presentation Title 153
 AXIOLATERAL PROJECTION

PP: Semiprone; head in lateral position; IPL perpendicular to IR; MSP parallel to
IR; closed-mouth & opened-mouth position

RP: 0.5 in. anterior & 2 in. superior to upside EAM

CR: 25-30o caudad

SS: TMJ anterior to EAM

Closed-mouth: condyle lying in mandibular fossa
Opened-mouth: condyles lying inferior to articular tubercle

Presentation Title
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9/3/20XX Presentation Title 156
9/3/20XX Presentation Title 157
 SCHULLER METHOD

AXIOLATERAL OBLIQUE/LATERAL TRANSCRANIAL/AXIAL TRANSCRANIAL PROJECTION

PP: Semiprone; MSP rotated 15o toward the IR; AML parallel to transverse axis of IR;

RP: 1.5 in. superior to upside EAM

CR: 15o caudad; TMJ of sidedown (exit)

SS: Condyles & neck of the mandible

Closed-mouth: fracture of the neck & condyle of ramus
Opened-mouth: mandibular fossa; inferior & anterior excursion of the condyle

Presentation Title
9/3/20XX Presentation Title 159
9/3/20XX Presentation Title 160
 INFEROSUPERIOR TRANSFACIAL POSITION
PP: Semiprone; head in true lateral; IPL 10-15o from perpendicular;
MSP 15o from IR
RP: Uppermost gonion
CR: 30o cephalad
SS: TMJ

Presentation Title
 ALBERS-SCHONBERG METHOD

LATERAL TRANSFACIAL POSITION

PP: Semiprone; head in true lateral; IPL perpendicular to IR; MSP parallel to IR; IOML parallel to transverse
axis of IR

RP: TMJ closes to IR (exit)

CR: 20o cephalad
SS: TMJ

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 ZANELLI METHOD

LATERAL TRANSFACIAL POSITION

PP: Lateral recumbent; head in true lateral; head resting on parietal region; MSP 30o to IR

RP: Uppermost gonion (entrance)

CR: Perpendicular

SS: TMJ

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 SINUSES

9/3/20XX Presentation Title 164
 Cross & Flecker: pointed out the value of erect position

To demonstrate presence or absence of fluid
To differentiate between shadows caused by fluid & those
caused by pathology

Presentation Title
 LATERAL PROJECTION

PP: Upright RAO/LAO or dorsal decubitus (can’t assume upright); head in
true lateral; MSP parallel to IR; IPL perpendicular to IR; IOML parallel to
transverse axis of IR;

RP: 0.5-1 in. posterior to outer canthus

CR: Perpendicular

SS: All paranasal sinuses

Presentation Title
9/3/20XX Presentation Title 167
 PA PROJECTION

PP: Upright; forehead & nose against IR; MSP & OML perpendicular to IR

RP: Nasion (┴); glabella (10o cephalad); midregion of maxillary sinuses (┴)

CR: Perpendicular; 10o cephalad; perpendicular

SS:

Posterior ethmoid sinuses inferior to cranial bones & superior to anterior ethmoid sinuses (┴)
Sphenoidal sinuses through frontal bone & superior to frontal & ethmoid sinuses
Maxillary sinuses inferior to cranial base

Presentation Title
9/3/20XX Presentation Title 169
 CALDWELL METHOD

PA AXIAL PROJECTION

PP: Upright

Angle grid technique: nose & forehead against IR; IR tilted 15o; MSP & OML perpendicular to IR
Vertical grip technique: nose against IR; OML 15o from IR; sponge b/n forehead & IR; MSP perpendicular to IR

RP: Nasion

CR: Horizontal

SS: Frontal sinuses & anterior ethmoidal sinuses

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9/3/20XX Presentation Title 171
9/3/20XX Presentation Title 172
 WATERS METHOD

PARIETOACANTHIAL PROJECTION

PP: Upright; neck hyperextended & rested against IR; OML 37o to IR; MML perpendicular to IR

RP: Acanthion

CR: Horizontal

SS: Maxillary sinuses

Petrous pyramids inferior to floor of maxillary sinus

Foramen rotundum

Distorted frontal & ethmoidal sinuses

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9/3/20XX Presentation Title 175
 OPEN-MOUTH WATERS METHOD

PARIETOACANTHIAL PROJECTION

PP: Upright; neck hyperextended & rested against IR; OML 37o to IR; MML perpendicular to IR;
mouth wide open

RP: Acanthion

CR: Horizontal

SS: Sphenoidal sinuses projected through open mouth

Petrous pyramids inferior to floor of maxillary sinus

ER: For the patients who cannot be placed in position for SMV

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9/3/20XX Presentation Title 177
 SCHULLER METHOD

SUBMENTOVERTICAL PROJECTION

PP: Upright; IOML parallel to IR; MSP perpendicular to IR; head rested on vertex; neck
hyperextended

RP: ¾ in. anterior to EAM (sella turcica)

CR: Perpendicular to IOML; MSP of throat b/n gonion (entrance)

SS: Sphenoidal & ethmoidal sinuses

Anterior portion of the base of the skull

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9/3/20XX Presentation Title 179
 SCHULLER METHOD

VERTICOSUBMENTAL PROJECTION

PP: Seated-erect; chin fully hyperextended; MSP perpendicular to IR

RP: ¾ in. anterior to EAM (sella turcica)

CR: Perpendicular to IOML; MSP of throat b/n gonion (entrance)

SS: Sphenoidal sinuses

Posterior ethmoidal sinuses
Maxillary sinuses
Nasal fossae

Presentation Title
9/3/20XX Presentation Title 181
 PIRIE METHOD

AXIAL TRANSORAL POSITION

PP: Upright (prone; nose & chin against IR; mouth wide open; MSP perpendicular to IR; phonate “ah” during
exposure

RP: ¾ in. anterior to EAM (sella turcica)

CR: Perpendicular

SS: Sphenoidal sinuses projected through open mouth

Maxillary sinuses
Nasal fossae

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 RHESE METHOD

PA OBLIQUE POSITION

PP: Seated-erect; zygoma, nose & chin against IR; AML perpendicular to IR; MSP 53o from IR

RP: Upper parietal region

CR: Perpendicular

SS: Oblique image of posterior & anterior ethmoidal sinuses

Frontal & sphenoidal sinuses
Profile image of the optic canal

a
Presentation Title
 LAW METHOD

PA OBLIQUE POSITION

PP: Seated-erect; zygoma, nose & chin against IR; neck fully
extended

RP: Uppermost gonion

CR: 25-30o cephalad

SS: Relationship of teeth to maxillary sinuses

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 MASTOID

Presentation Title
 LAW METHOD

AXIOLATERAL POSITION

Double Angulation Method

PP: Prone; head in true lateral; tape auricle forward; MSP & IOML parallel to IR; IPL perpendicular to IR

RP: 2 in. posterior & 2 in. superior to uppermost EAM

CR: 15o caudad & 15o anterior

Lange Recommendations:

25o caudad & 20o anterior
Auricles taped forward

Single Angulation Method

PP: Prone; tape auricle forward; MSP rotated 15o toward IR

RP: 2 in. posterior & 2 in. superior to uppermost EAM

CR: 15o caudad

Presentation Title
9/3/20XX Presentation Title 187
 Part Angulation Method

PP: Prone; head rested on flat surface of cheek; tape auricle forward; MSP rotated 15o towards IR; IPL 15o
from vertical

RP: 2 in. posterior & 2 in. superior to uppermost EAM

CR: 15o caudad & 15o anterior

SS: Mastoid cells

Sigmoid sinus
Lateral portion of pars petrosa
Tegmen tymphani
Superimposed internal & external auditory meatuses
Mastoid emissary vessel (when present)

Presentation Title
 MODIFIED HICKEY METHOD

AP TANGENTIAL POSITION

PP: Supine; tape auricles forward; face rotated away from side of interest; MSP 55o from IR or 35o from
vertical; IOML perpendicular to IR; IR caudally inclined 15o

RP: 1 in. superior to tip of mastoid process

CR: 15o caudad

SS: Mastoid process free of superimposition

Projected below the shadow of occipital bone

Presentation Title
 PA TANGENTIAL POSITION

PP: Prone; IR cranially inclined 15o; tape auricles forward; cheek against IR; face
rotated away from side of interest; MSP 55o from IR or 35o from vertical; IOML
perpendicular to IR

RP: 1 in. superior to tip of mastoid process

CR: 15o cephalad

SS: Mastoid process free of superimposition

Projected below the shadow of occipital bone

Presentation Title
 TOWNE METHOD

AP AXIAL PROJECTION

PP: Supine; OML/IOML & MSP perpendicular to IR;

RP: 2 in. above glabella or 2.5 in. above nasion

CR: 30o caudad (OML ┴); 37o caudad (IOML ┴)

SS:

Internal auditory canals
Petrous portion of temporal bone
Labyrinths
Mastoid antrum
Middle ears

Dorsum sellae w/in foramen magnum

Presentation Title
 HENSCHEN, SCHULLER, & LYSHOLM METHODS

AXIOLATERAL POSITIONS

PP: Semiprone; head in true lateral; MSP parallel to IR; IPL perpendicular to IR; IOML parallel to transverse axis of IR; auricles
taped forward

RP: Dependent EAM closest to IR

CR: 15o caudad (Henschen/Cushing); 25o caudad (Schuller); 35o caudad (Lysholm/Runstrom II)

SS: Mastoid & petrous portion

Mastoid cells, mastoid antrum, IAM & EAM & tegmen tympani (Henschen)
Tumors of the acoustic nerve (Cushing)
Pneumatic structures of mastoid process, mastoid antrum, tegmen tympani, IAM & EAM, sinus & dural plates & mastoid emissary
when present (Schuller)
Mastoid cells, matoid antrum, IAM & EAM, tegmen tympani, labyrinthine area & carotid canal (Lysholm/Runstrom II)

Runstrom Recommendation:

Exposure made with open mouth
For visualization of petrous apex between anterior wall of EAM & mandibular condyle

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9/3/20XX Presentation Title 193
 PETROUS PORTION

9/3/20XX Presentation Title 194
 TOWNE METHOD

AP AXIAL PROJECTION

PP: Supine; OML/IOML & MSP perpendicular to IR;

RP: MSP b/n EAMs

CR: 30o caudad (OML ┴); 37o caudad (IOML ┴)

SS: Petrosae above base of the skull

IAM
Arcuate eminences

Labyrinths
Mastoid antrum
Middle ears
Dorsum sellae w/in shadow of foramen magnum

9/3/20XX Presentation Title 195
 HAAS METHOD

PA AXIAL PROJECTION

PP: Prone; MSP & OML perpendicular to IR; forehead & nose against the table; IR center 1 in. to nasion

RP: Nasion

CR: 25o cephalad

SS: Symmetric axial frontal image of petrous portions projected above the base of the skull

IAM
Labyrinths
Mastoid antrums
Middle ears
Dorsum sellae & posterior clinoid processes w/in shadow of foramen magnum

ER: For patients who cannot assume AP axial position

9/3/20XX Presentation Title 196
 VALDINI METHOD

PA AXIAL PROJECTION

PP: Recumbent or seated-erect (more comfortable); upper frontal region of skull against IR; MSP
perpendicular to IR; head acutely flexed; IOML 50o/OML 50o; line extending from inion to 0.5 cm distal to
nasion form 28o to CR

RP: 0.5 cm distal to nasion (dorsum sellae); foramen magnum at or slightly above level of EAM (petrosae)

CR: Perpendicular; inion (entrance); 0.5 cm distal to nasion (exit)

SS:

DILA (IOML 50o): Dorsum sellae; Internal Auditory Meatus (IAM); LAbyrinth

ETB “EaT Bulaga” (OML 50o): External auditory meatus; Tymphanic cavity; Bony part of Eustachian tube

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 SCHULLER/PFEIFFER METHOD

SUBMENTOVERTICAL (SUBBASAL) PROJECTION

PP: Supine or Seated-upright (more comfortable); OML parallel to IR or CR perpendicular to OML

(cannot fully extend the neck) or supraorbitomeatal line (SOML) parallel to IR; MSP perpendicular to IR; head rested on vertex; neck hyperextended

RP: ¾ in. anterior to EAM (sella turcica)

CR: Perpendicular to OML at midway b/n EAMs or 15-20o anteriorly at MSP of throat 1 in. anterior to EAMs

SS: Symmetric petrosae

Mastoid processes

Labyrinths

EAMs

Tympanic cavities

Acoustic/auditory ossicles

Hirtz Method:

RP: Midway b/n & 1 in. anterior to EAMs

CR: 5o anteriorly

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 MAYER METHOD

AXIOLATERAL OBLIQUE PROJECTION

PP: Supine; auricles taped forward; outer side of IR elevated (reduces part-film distance); MSP 45o from IR; chin
depressed; IOML parallel to IR

RP: Dependent EAM

CR: 45o caudad

SS: Axial oblique of petrosa

Petrosa inferior to mastoid air cells
EAM
Tympanic cavity & ossicles
Epitympanic recess (attic)
Aditus

Mastoid antrum

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 Owen Modifications: cited by Pendergrass, Schaeffer & Hodes

PP: MSP 40o to IR; IR & head angled 10o caudally
CR: 28o caudally

Owen Modifications: described by Etter & Cross

PP: MSP 30o to IR
CR: 25-30o caudally

Owen Modifications: described by Compere

PP: MSP 30-45o to IR

CR: 30o caudally

Owen Modifications: used by Zizmor

PP: MSP 15o to IR
CR: 35o caudally

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9/3/20XX Presentation Title 201
9/3/20XX Presentation Title 202
 STENVERS METHOD

POSTERIOR PROFILE POSITION

PP: Prone; forehead, nose & zygoma against IR (3-pt Upper Landing); IOML parallel to transverse axis of
IR; face rotated away from side of interest; MSP 45o to IR

RP: 1 in. anterior to EAM closest to IR (exit)

CR: 12o cephalad

SS: Pars petrosa closest to IR
Petrous ridge
Cellular structure of mastoid process
Mastoid antrum
Area of tympanic cavity
Labyrinth
IAM
Cellular structure of petrous apex

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9/3/20XX Presentation Title 204
 ARCELIN METHOD

ANTERIOR PROFILE POSITION

REVERSE STENVERS METHOD

PP: Supine; IOML perpendicular to IR; face rotated away from side of interest; MSP 45o
to IR

RP: 1 in. anterior & ¾ in. superior to EAM closest to IR (exit)

CR: 10o caudad

SS: Magnified pars petrosa away from IR

ER: Useful with children & with adults who cannot be position for Stenvers Method

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9/3/20XX Presentation Title 206
 MODIFIED LAW METHOD

AXIOLATERAL POSITION

Single Angulation Method

PP: Prone; taped auricle forward; Head rotated 15o toward IR; MSP 15o

RP: 2 in. posterior & 2 in. superior to uppermost EAM

CR: 15o caudad

SS:

Mastoid cells
Lateral portion of pars petrosa
Superimposed IAM & EAM
Mastoid emissary vessel (when present)

9/3/20XX Presentation Title 207
 Styloid process of
temporal bone

9/3/20XX Presentation Title 208
 PA AXIAL PROJECTION
CAHOON METHOD
PP: prone; forehead and nose ; OML perpendicular
CR: 25 cephalad
SS: styloid process of temporal bone

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9/3/20XX Presentation Title 210
 Jugular
Foramina

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 SUBMENTOVERTICAL AXIAL PROJECTION
KEMP HARPER M ETHOD
ERASO MODIFICATION2
PP: OML is parallel to IR
CR: 25 caudad
RR: EAM

Eraso modification:
OML 25 degree to IR
CR: 2 inches distal to mandibular symphesis

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9/3/20XX Presentation Title 213
 Hypoglossal
Canal

9/3/20XX Presentation Title 214
 AXIOLATERAL OBLIQUE PROJECTION
MILLER METHOD
Anterior profile
PP: supine position; head 45 degrees away from the side
being examined; OML // to IR
CR: 12 caudad ; 1inch inferior of EAM
SS: hypoglossal canal

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9/3/20XX Presentation Title 216