Radiology

Question 1

Discovered the X-ray in 1895 while experimenting with a cathode Ray tube.

Answer 1

Wilhelm Roentgen

Question 2

Production of ions.

Answer 2

Ionization

Question 3

Radiation capable of producing ions by removing or adding an electron to an atom; X-rays produce ionization.

Answer 3

Ionizing radiation

Question 4

Propagation of wave-like energy (without mass; without particles) through space or matter. X-rays is an example

Answer 4

Electromagnetic radiation

Question 5

Speed of a wave

Answer 5

Velocity

Question 6

Wavelength

Answer 6

Distance between crest of one wave to the crest of the next wave

Question 7

Number of wavelengths that pass a point in a certain amount of time

Answer 7

Frequency

Question 8

Very short wavelength resulting from the bombardment of tungsten by highly accelerated electrons in a vacuum.

Answer 8

X-Ray

Question 9

What are X-rays absorbed by?

Answer 9

Matter

Question 10

How do X-rays travel?

Answer 10

In straight lines and cannot be focused to a point.

Question 11

High vacuum glass tube surrounded by refined oil with high insulating powers; the oil helps to absorb excess heat.

Answer 11

Protective leaded glass housing

Question 12

Made of tungsten filament and molybdenum sup; negative charge, supplies the electrons necessary to generate X-rays, thermionic emission.

Answer 12

Cathode

Question 13

Made of copper arm and focal spot; positive charge, focal spot is made of tungsten (target=tungsten)

Answer 13

Anode

Question 14

This happens inside the X-ray tube.

Answer 14

Electron stream travels from negative cathode to positive anode, 99% of the energy is lost as heat.

Question 15

Electrical pressure or potential difference between two electrical charges.

Answer 15

Voltage

Question 16

Determines the quality of the X-ray beam (quality refers to the penetrating power of the beam) regulates electrons from cathode to anode.

Answer 16

Kilovoltage Peak (kVp)

Question 17

Overall darkness or blackness of an image.

Answer 17

Density

Question 18

KVp is increased, what will the image exhibit?

Answer 18

Increased density and appears darker

Question 19

kVp is decreased, what will the image exhibit?

Answer 19

Decreased density and appears lighter

Question 20

How sharply dark and light areas are separated on an image

Answer 20

Contrast

Question 21

What results from a Low kVp (65 tp 70)?

Answer 21

High contrast image, short-scale of contrast, consider for viewing dental caries, density is low (lighter) resultant image is black and white.

Question 22

What results from a high kVp ( 90)?

Answer 22

Low contrast image, long-scale of contrast, consider for viewing periodontal disease. Density is high (darker) and resultant image is many grays.

Question 23

What affects contrast?

Answer 23

Only kVp and filtration

Question 24

What affects quality?

Answer 24

Only kVp and filtration

Question 25

Ampere is the unit of quantity of electric current. Controls the temp of the tungsten filament.

Answer 25

Milliamperage

Question 26

An increase in mA will result in?

Answer 26

Increased density and a darker image (mA does not affect image contrast)

Question 27

What does mA also control?

Answer 27

The temp of the tungsten filament (the hotter the filament, the greater number of X-rays produced)

Question 28

Intensity of radiation is inversely proportional to the square of the distance from the source of radiation.

Answer 28

Inverse square law

Question 29

If cone length is changed from 8 to 16 inches, how does this affect the intensity of the beam?

Answer 29

Intensity will decrease, 1/4 as intense.

Question 30

If cone length is changed from 16 to 8 inches, how does this affect the intensity of the beam?

Answer 30

Intensity will increase, 4x as intense.

Question 31

If a person standing 3 feet from an X-ray source receives 4 rads of exposure, how much would they receive at 6 feet?

Answer 31

1 RAD

Question 32

Time that elapses between exposure to radiation and appearance of observable clinical signs.

Answer 32

Latent period

Question 33

Follows latent period, cell death, changes in cell function and abnormal mitotic activity may result.

Answer 33

Period of injury

Question 34

Cells repair the damage in this phase.

Answer 34

Recovery period

Question 35

Caused by repeated radiation exposure leading to health problems that accumulates in the tissues and is unrepaired.

Answer 35

Cumulative effects

Question 36

What dose is the Panoramic dose equivalent to?

Answer 36

4 bitewings

Question 37

First sign of overexposure to x-radiation?

Answer 37

Erythema

Question 38

Seen in the person irradiated; not transmitted to future generations.

Answer 38

Somatic effects

Question 39

Not seen in the person irradiated but are passed to future generations

Answer 39

Genetic effects

Question 40

Cells that divide frequently and more sensitive to radiation.

Answer 40

Mitotic activity

Question 41

Cells that are immature and more sensitive to radiation.

Answer 41

Cell differentiation

Question 42

Cells that have higher metabolism and more sensitive to radiation.

Answer 42

Cell metabolism

Question 43

Highest cell sensitivity to radiation.

Answer 43

Reproductive tissue, lymphoid sx, bone marrow, intestines, and mucous membranes

Question 44

Lowest cell sensitivity to radiation.

Answer 44

Nerve tissue-nosey radioresistant, skeletal muscle, heart, optic lens and mature bone

Question 45

Allows the more penetrating X-rays pass through by absorbing long wave radiation and removes the “soft” radiation.

Answer 45

Filtration

Question 46

Reduces the surface area exposed by the use of a lead diaphragm and reduction in size of beam of radiation.

Answer 46

Collimation

Question 47

What is the beam size at the patient’s face?

Answer 47

Can be no larger than 2.75 inches

Question 48

How much does the rectangular collimation reduce the skin surface area by?

Answer 48

60%

Question 49

Less volume of tissue is irradiated if a long cone is used; less scatter produced with a long cone

Answer 49

Position indicating device (PID, cone)

Question 50

This protects the reproductive and blood-forming tissues and absorbs 90% of the scatter radiation, lead equivalent is usually 0.25 mm.

Answer 50

Lead apron

Question 51

Most effective method of radiation protection; E-speed film is twice as fast as D-speed and needs half the exposure time.

Answer 51

Fast Film

Question 52

Reduce exposure time and reduce the amount of radiation needed to properly expose a film, therefore reducing the amount of radiation the patient receives

Answer 52

Intensifying screens

Question 53

What must the operator remember when performing X-rays?

Answer 53

Stand at least 6 feet away from X-ray tubehead, stand behind barrier or wall, be positioned at a 90-135 angle to the beam.

Question 54

What is the MPD for occupational use?

Answer 54

5 REM/year (5000 mrem) or 0.05 Sv/year (50mSv)

Question 55

What is the MPD for non-occupational use?

Answer 55

0.1 REM/year (100 mrem) or 0.001 Sv/year (1 mSv)

Question 56

What is ALARA?

Answer 56

As low as reasonably achievable

Question 57

The smaller the focal spot size increases this, composition of film emulsion influences this, the smaller the silver halide crystals the sharper the image appears, a loss of this occurs when the patient moves during exposure.

Answer 57

Sharpness

Question 58

Refers to an image that appears larger than the actual size of the object it represents.

Answer 58

Magnification

Question 59

What results in less image magnification and decrease in magnification?

Answer 59

Less image magnification-longer PID And target to film distance
Decrease in magnification-decrease in object to film distance

Question 60

How do you minimize distortion?

Answer 60

Object and film must be parallel to each other and the X-ray beam must be directed perpendicular to the tooth and film

Question 61

Manual film processing basics

Answer 61

Developer/wash/fixer/wash/dry

Question 62

Turns energized silver halide crystals into black metallic silver

Answer 62

Developer

Question 63

The 2 ingredients in developer that soften the film emulsion

Answer 63

Hydroquinone and Elon

Question 64

What’s the optimum time/temperature for developer?

Answer 64

5 mins at 68 degrees

Question 65

What does the rinsing step do?

Answer 65

Removes the developer from the film and stops the development process and usually takes 30 seconds

Question 66

Removes the unexposed, Unenergized silver halide crystals from the film emulsion. Removes ALL UNEXPOSED CRYSTALS; clears the film

Answer 66

Fixer solution

Question 67

2 main ingredients in fixer that harden the film emulsion

Answer 67

Sodium thiosulfate and ammonium thiosulfate

Question 68

How long does it take for fixer?

Answer 68

10 mins (twice the development time)

Question 69

Thermometer in which solution?

Answer 69

Developer

Question 70

Automatic film processing basics

Answer 70

Developer/fixer/wash/dry. Designed to work at higher temperatures and no rinse step exists between developer and fixer.

Question 71

Provides sufficient illumination in the darkroom, low wattage bulb (7 1/2 or 15 Watts) placed a minimum of 4 feet away from the film and working area, GBX-2 filter can be used for extraoral and intraoral films, extraoral films have an increased sensitivity to light.

Answer 71

Safe lighting

Question 72

What error caused a completely black film?

Answer 72

Film was exposed to light before processing

Question 73

What error caused a completely clear film?

Answer 73

Film was not exposed to x-radiation

Question 74

What error results in a light film?

Answer 74

Underdeveloped film; Inadequate or depleted developer, developer too cool

Question 75

What error results in a dark film?

Answer 75

Overdeveloped film; excessive developing time, developer too hot, concentrated developer.

Question 76

What results in dark spots?

Answer 76

Developer spots; developer splashed on film before processing.

Question 77

What results in light spots?

Answer 77

Fixer spots; fixer splashed on film before processing

Question 78

What results in herringbone or tire track pattern?

Answer 78

Backwards film; film placed backwards in the mouth

Question 79

What results in diagonal black line?

Answer 79

Severely bent film

Question 80

What results in air space seen and lack of apices?

Answer 80

Patient not biting on bite block

Question 81

What results in overlapping of teeth contacts?

Answer 81

Overlapped images; incorrect horizontal angulation

Question 82

What results in short teeth with blunted roots?

Answer 82

Foreshortened images; too much vertical angulation.

Question 83

What results in long, distorted teeth?

Answer 83

Elongated images; too little vertical angulation.

Question 84

What results in an unexposed area on film?

Answer 84

Cone-cut; central ray not in center of film

Question 85

What may appear as dental caries and is radiolucent?

Answer 85

Cervical burnout; radiolucent artifact seen in areas of different densities

Question 86

Same lingual; opposite buccal.

Answer 86

SLOB rule

Question 87

How is an occlusal radiograph exposed?

Answer 87

Directing the central ray at a right angle (perpendicular) to the radiograph and shows the object in the buccal-lingual and anterior-posterior relationships

Question 88

What’s the standard receptor size?

Answer 88

Size 2; anterior and posterior teeth in adults.

Question 89

What’s the receptor size for occlusal?

Answer 89

Size 4

Question 90

Small ovoid RL between the roots of the maxillary central incisors.

Answer 90

Incisive foremen; hole in bone at midline of anterior portion of hard palate

Question 91

Thin RL line between max central incisors.

Answer 91

Median palatial suture; immovable joint between 2 palatine processes of maxilla.

Question 92

Large RL area above max incisors.

Answer 92

Nasal cavity; pear shaped compartment located superior to maxilla.

Question 93

Vertical RO partition that divides the nasal cavity.

Answer 93

Nasal septum; vertical bony wall/partition divides nasal cavity into right and left nasal fossae

Question 94

V shaped RO area located at intersection of floor of the nasal cavity and the nasal septum.

Answer 94

Anterior nasal spine; sharp projection of maxilla located at anterior and inferior portion of nasal cavity.

Question 95

RL area superior to the apices of the maxillary posterior teeth.

Answer 95

Maxillary sinus; paired compartments of bone located within the maxilla located above max premolar and molar teeth

Question 96

Thin RO lines that surround/divide the sinus.

Answer 96

Floor of the maxillary sinus

Question 97

RO upside down Y located superior to the max canine.

Answer 97

Inverted Y; intersection of max sinus and nasal cavity.

Question 98

RO bulge distal to third molar region.

Answer 98

Maxillary tuberosity; rounded prominence of bone that extend posterior to the third molar region

Question 99

RO hook like projection posterior to the maxillary tuberosity.

Answer 99

Hamulus

Question 100

J or U shaped RO located superior to the max first molar region

Answer 100

Zygomatic process of maxilla; bony projection of maxilla that articulates with the zygoma.

Question 101

Diffuse RO band extending posterior from the zygomatic process of the maxilla.

Answer 101

Zygoma; cheek bone composed of dense cortical bone

Question 102

Ring-shaped RO below the apices of the mandibular incisors

Answer 102

Genial tubercles; tiny bumps of bone that serve as muscle attachment sites

Question 103

Small RL dot surrounded by the genial tubercles.

Answer 103

Lingual foramen; hole in bone on internal surface of mandible near midline

Question 104

Vertical RL lines.

Answer 104

Nutrient canals; tube-like passageways that house nerves and blood vessels.7

Question 105

Thick RO band that extends from the premolars to the incisor region.

Answer 105

Mental ridge; linear prominence of bone.

Question 106

RL area located above the mental ridge.

Answer 106

Mental fossa; scooped out, depressed area of bone.

Question 107

Small ovoid or round RL in the apical region of the mandibular premolars.

Answer 107

Mental foramen; hole in bone located on external surface of mandible in the region of the mandibular premolars.

Question 108

RL band outlined by RO lines and appears below the apices of mandibular molars.

Answer 108

Mandibular canal; tube like passageway thru bone that travels length of mandible.

Question 109

RO band extending downward from the ramus; May continue on as the mylohyoid ridge. Also is the inferior land mark.

Answer 109

Internal oblique ridge; linear prominence of bone located on the internal surface of mandible and extends downward and forward from the ramus.

Question 110

RO band extending downward from the ramus and typically ends in third molar region.

Answer 110

External oblique ridge; linear prominence of bone located on external surface of body of mandible.

Question 111

RL area in the mandibular molar region below the mylohyoid ridge.

Answer 111

Submandibular fossa; scooped out, depressed area of bone on internal surface of mandible.

Question 112

Triangular RO superimposed over the max tuberosity region; only mandibular landmark to appear on maxillary films.

Answer 112

Coronoid process; marked prominence of bone on anterior ramus of mandible.

Question 113

Completely RO with irregular borders.

Answer 113

Amalgam; overhangs; and fragments

Question 114

Completely RO; smooth borders

Answer 114

Gold restorations; crown, bridges, gold foil.

Question 115

RO, but not as dense as amalgam, does not appear to fit the tooth well; “see through areas”

Answer 115

Stainless steel and chrome crowns

Question 116

RL to RO

Answer 116

Composite restorations

Question 117

Seen in endodontically treated teeth.

Answer 117

Post extends into the pulp canal and core resembles the prepped portion of a tooth

Question 118

Slightly RO; appearance similar to enamel.

Answer 118

Porcelain restorations

Question 119

Metal component is completely RO and porcelain component is slightly RO

Answer 119

Porcelain fused to metal crown

Question 120

Slightly RO to RL; endodontic materials.

Answer 120

Gutta percha

Question 121

RO endodontic material

Answer 121

Silver points

Question 122

RO posts places within the bone to support restorations for missing teeth.

Answer 122

Dental implants

Question 123

Used to ensure strength and stability with a larger restoration; generally appear RO.

Answer 123

Retention pins

Question 124

Fixed bridge in which the Pontic is supported only on one side

Answer 124

Cantilevered bridge

Question 125

Seen on panoramic, between the palate and tongue horizontal RL band.

Answer 125

Palatoglossal air space

Question 126

Seen on panoramic, refers to portion of pharynx posterior to the nasal cavity, diagonal RL

Answer 126

Nasopharyngeal air space

Question 127

Seen on panoramic, refers to portion of pharynx posterior to the tongue, vertical RL band.

Answer 127

Glossopharyngeal air space

Question 128

Seen on panoramic, passes through the floor of the orbit and the external auditory meatus.

Answer 128

Frankfort plane

Question 129

Seen on panoramic, divides the body into right and left sides

Answer 129

Midsagittal plane

Question 130

Seen on panoramic, 3D curved zone in which structures are clearly demonstrated on a panoramic radiograph.

Answer 130

Focal trough

Question 131

Maxillary incisors appear blurred and magnified; reverse smile line; hard palate superimposed over the maxillary apices.

Answer 131

Frankfort plane upwards (chin up)

Question 132

Mandibular incisors blurred; exaggerated smile line; condyles may not be visible.

Answer 132

Frankfort plane down (chin down)

Question 133

Anterior teeth appear skinny and out of focus.

Answer 133

Teeth anterior to focal trough.

Question 134

Anterior teeth appear fat and out of focus.

Answer 134

Teeth posterior to focal trough

Question 135

Unequal magnification; posterior teeth are larger on one side than the other.

Answer 135

Midsagittal plane not centered (head turned)

Question 136

Cervical spine appears as a RO in the center of the image.

Answer 136

Position of the spine (pt. Slumped or slouched, ex. Scoliosis).

Question 137

A dark RL shadow obscures the apices of the max teeth; cannot see maxillary teeth well.

Answer 137

Position of the tongue (tongue not against hard palate)

Question 138

RO cone-shaped artifact obscuring the mandible; no thyroid collars with panoramic X-rays

Answer 138

Lead apron placed too high.