Oral and Dental Radiography

Question 1

what is ionising radiation ?

Answer 1

x-ray interacts with atom in human tissue, electron can go on to cause further ionisation and free radical formation

Question 2

what are the biological effects of ionising radiation?

Answer 2

stochastic effects e.g. cancer induction, non stochastic effects e.g. cataracts, radiation burns, sterility

Question 3

what is the role of the international commission on radiological protection (ICRP)

Answer 3

produce advice for creation of national legislation to govern use of ionising radiation

Question 4

what is the main source of radiation int he environment ?

Answer 4

background radiation

Question 5

what is the radiation dose of an OPG?

Answer 5

0.02mSv

Question 6

what is the radiation dose of a periapical?

Answer 6

0.001mSv

Question 7

what is the radiation dose of a chest x ray ?

Answer 7

0.02mSv

Question 8

what is the radiation dose of a whole body CT ?

Answer 8

15-20mSv

Question 9

what is the purpose of ionising radiation regulations 1999 (IRR99) ?

Answer 9

ensure ionising radiation from work activities are kept as low as reasonable practicable (ALARP) and does not exceed specified limits
relates to workplace, employees and public

Question 10

what are the requirements of IRR99?

Answer 10

risk assessment
employers written procedures
radiation protection adviser and supervisor 
local rules
controlled areas
restriction of exposure e.g. PPE
quality assurance program
dose limits/constraints
notification of equipment related incidents

Question 11

what are the stages of a risk assessment ?

Answer 11

identify hazards (dose)
determine who may be harmed
evaluate risks and implement control measures (protection)
record findings
periodic review and revision of risk assessment

Question 12

what must the RPA be consulted on ?

Answer 12

requirements for controlled areas
new equipment
regular calibration of dose monitoring equipment
testing safety features and warning devices
risk assessment and contingency plans
investigation after a radiation incident
training

Question 13

what is the role of the RPS ?

Answer 13

ensure local rules are followed

Question 14

what are local rules ?

Answer 14

rules on how to work safely in a controlled area

Question 15

what must local rules for radiation rooms/equipment contain ?

Answer 15

PRS and RPA name and contact info
identification of controlled area
summary of working instructions
contingencies for foreseeable accidents

Question 16

what is the controlled area ?

Answer 16

any area where it is necessary to follow special procedures to restrict significant exposure or
any area where >6mSv/y or 3/10 of any dose limit is likely

Question 17

what are dose limits ?

Answer 17

upper limits of dose that must not be exceeded

Question 18

to whom do dose limits apply ?

Answer 18

staff, trainees and other persons excluding the patient

Question 19

what are dose constraints ?

Answer 19

recommended limits that should not normally be exceeded with standard practice

Question 20

what are the recommended dose contracts for dental radiography ?

Answer 20

1mSv for operators directly involved with radiography

0.3mSv for employees not directly involved and comforters and carers

Question 21

what is a quality assurance programme?

Answer 21

regular testing and review of equipment, procedures and training to ensure optimal diagnostic results at minimal level of radiation dose

Question 22

what os the purpose of the ionising radiation (medical exposures) regulations 2000 (IR(ME)R 2000)

Answer 22

minimise the risks to patients undergoing medical exposures

Question 23

who enforces IR(ME)R 2000?

Answer 23

CQC, helathcare inspectorate wales

Question 24

what are the requirements of IR(ME)R 2000?

Answer 24

guidelines for referral criteria for radiographic examinations
written protocols for every type of standard radiographic examination
correct identification of the patient
identification of referrers, practitioners and operators
ensuring QA programmes are followed
assessment of patient dose
use of diagnostic reference values
carrying out and recording clinical evaluation of the outcome of each exposure
medical physics expert
clinical audit

Question 25

what are the 4 classes of duty holder defined by IR(ME)R 2000 ?

Answer 25

referrer, practitioner, operator, employer

Question 26

what does justification mean with regards to radiography ?

Answer 26

the benefits to the patient must outweigh the risks

Question 27

what does authorisation mean with regards to radiography ?

Answer 27

recording that the justification has been carried out prior to the exposure in patients notes

Question 28

what is the role of the operator ?

Answer 28

carry out investigation

optimisation (ALARP)

Question 29

how is optimisation (ALARP) achieved ?

Answer 29

justification
selection criteria
sensitive image detector systems
field reduction to minimum required for OPG’s
rectangular collimation for intra orals
effective QA and equipment management programme

Question 30

what os the role of the employer ?

Answer 30

legal person 
implement IRR99 and IR(ME)R 2000 
notification of HSE 
risk assessment 
training 
dose limits

Question 31

what must HSE be notified of ?

Answer 31

installation of new equipment
new ownership of practice
change of address
not required when x ray equipment changed or renewed

Question 32

what are the duties of the employee ?

Answer 32

not knowingly expose themselves or others to ionising radiation greater than necessary
use PPE
report equipment defects
training

Question 33

what should the medical physics expert give advice on ?

Answer 33

patient dosimetry

use of new/complex techniques

Question 34

what are diagnostic reference levels (DRL’s) ?

Answer 34

doses for typical examinations for groups of average sized patients
based on entrance surface dose (skin entry dose)

Question 35

how is an IRMER incident reported ?

Answer 35

online

Question 36

what is the recommended amount of training in radiography for DCP’s ?

Answer 36

1 day course every 5 years

Question 37

what should dental nurses/therapists/hygienists possess in order to operate x ray equipment ?

Answer 37

NEBDN certificate

Question 38

what are x-rays ?

Answer 38

a form of electromagnetic radiation,
each x-ray is a photon and is equivalent to a packet of energy,
can be thought of as a wave with frequency and wavelength,
the x -ray beam used in dentistry is made up of trillions of individual photons

Question 39

what are the properties of x-rays ?

Answer 39

invisible, weightless, no charge, travel in straight lines, travel at speed of light in a vacuum, penetrating, ionising, obey inverse square law (intensity of radiation reduces to one quarter as distance from source is doubled

Question 40

what is the wavelength range of x-rays ?

Answer 40

0.01-0.05 nm

Question 41

what is an atomic mass unit (amu) ?

Answer 41

1/12 mass of 12C atom

Question 42

what is the charge and mass of a proton ?

Answer 42

+ charge and 1 amu

Question 43

what is the charge and mass of a neutron ?

Answer 43

no charge and 1 amu

Question 44

what is the charge and mass of an electron ?

Answer 44

• charge and 1/1840 amu

Question 45

what is meant by atomic number ?

Answer 45

Z, number of protons in the nucleus

Question 46

what is meant by atomic mass number ?

Answer 46

A, number of proteins and neutrons in a nucleus

Question 47

what determines the chemical properties of an atom ?

Answer 47

number of electrons

Question 48

what is electron binding energy ?

Answer 48

the work required to overcome attraction between the negative electron and positive nucleus and remove the electron from an atom

Question 49

for which electron shell is binding energy greatest and why?

Answer 49

K shell as closest to nucleus

Question 50

what is ionisation ?

Answer 50

the removal of one or more electrons form an atom, creates an ion pair - positive ion and an electron

Question 51

what is excitation ?

Answer 51

raising an electron to a higher energy level

Question 52

what are the stages in the production of x-rays ?

Answer 52

produce lots of electrons,
accelerate electrons to a high energy,
smash electrons onto heavy metal target,
process conducted in a vacuum to prevent collision of electrons with atoms of air or gas

Question 53

what are the main components of an x-ray tube head ?

Answer 53

glass x-ray tube insert (filament, coper block and tungsten target),
step up transformer (high voltage to accelerate electrons from cathode to anode),
step down transformer (low voltage to heat filament),
lead-lined casing,
oil surrounding insert,
aluminium filtration,
collimator,
beam indicating device

Question 54

what is the production process of x-rays in a tube head?

Answer 54

electrons produced by filament heating, thermionic emission at the cathode,
extent of filament heating controls the amount of electrons produced and hence the tube current (mA),
electrons accelerated to anode by high potential difference (kV),
rapid deceleration of electrons by target at the anode

Question 55

what causes heat producing collisions during x-ray production ?

Answer 55

when electrons bombard the tungsten target they are suddenly brought to rest, the energy lost by the electrons is transferred into heat (95%) or x-rays (1%)

Question 56

where does the heat produced during x-ray production go ?

Answer 56

removed and dissipated by copper block and surrounding oil

Question 57

why is the x-ray target tungsten?

Answer 57

high melting point,

high atomic number ensures lots of interactions between electrons from filament and target atoms

Question 58

what is meant by kV with reference to x-rays?

Answer 58

determines quality of x-ray beam i.e. energy of the photons,
determines penetrating power of the photons,
increased kV reduces image contrast

Question 59

what is meant by mAs ?

Answer 59

determines quantity of the x-ray photons,

affects degree of blackening of film (optical density)

Question 60

which 2 components are involved in the production of x-rays ?

Answer 60

Bremsstrahlung Radiation

Characteristic Radiation

Question 61

what causes Bremsstrahlung radiation ?

Answer 61

incoming electron penetrates the outer electron shells and passes close to the nucleus of the tungsten atom,
the electron is slowed down and deflected by the nucleus with a loss of energy which is emitted in the form of x-rays

Question 62

what is meant by filtration in x-ray production ?

Answer 62

the removal of low energy photons from the final x-ray beam due to their lack of penetrating power

Question 63

what causes characteristic radiation ?

Answer 63

the incoming electron collides with an inner shell tungsten electron displacing it to an outer shell or displacing it from the atom

Question 64

which electrons are of diagnostic importance in characteristic radiation ?

Answer 64

K shell electrons

Question 65

what energy does a bombarding electron need in order to displace a K shell electron in characteristic radiation ?

Answer 65

69.5kV

Question 66

how is an x-ray photon produced in characteristic radiation ?

Answer 66

following ionisation or excitation of tungsten atoms the orbiting tungsten electrons rearrange to return the atom to a neutral state,
this involves the electrons jumping from one energy level to another,
the jump result in an x-ray photon with a specific energy

Question 67

describe the photoelectric effect

Answer 67

process of pure x-ray absorption,
the incoming x-ray photon interacts with a bound inner shell electron of the tissue atom,
the inner shell electron (photoelectron) is ejected with considerable energy into the tissues and will undergo further interactions,
the x-ray photon disappears having given up all of its energy,
vacancy exists in the inner shell

Question 68

how is vacancy caused by the photoelectric effect filled ?

Answer 68

electrons drop from outer shells, the excess energy is released in the form of light or heat

Question 69

how is atomic stability achieved following the photoelectric effect ?

Answer 69

capture of a free electron

Question 70

what is the probability of a photoelectric effect proportional to ?

Answer 70

Z^3 (atomic number3) of tissue

1/KeV^3 (1/energy of x-ray beam ^3)

Question 71

what is the purpose of the photoelectric effect ?

Answer 71

produces the contrast between different tissues of different atomic numbers

Question 72

what is the significance of the photoelectric effect being a process of pure absorption ?

Answer 72

contributes to dose received by patient

Question 73

describe the compton effect

Answer 73

x-ray absorption and scattering process,
predominates with high energy photons,
the incoming x-ray photon interacts with a free or loosely bound outer shell electron of the tissue atom,
the outer shell electron (recoil electron) is ejected with some energy taken from the incoming photon (absorption),
the remaining incoming photon energy is scattered

Question 74

in which direction does the recoil electron travel ?

Answer 74

forwards

Question 75

what can happen to the scattered photon following the compton effect ?

Answer 75

undergo further compton interactions in the tissues,
undergo photoelectric interactions in the tissues,
escape the tissues as scattered radiation

Question 76

what are the differences between the photoelectric and compton effects ?

Answer 76

in the compton effect the incoming x-ray photon does not distinguish between one electron and another so the interaction is not dependent on the atomic number as with the photoelectric effect
the compton effect does not give much diagnostic information as there is not good discrimination between tissues on the final radiograph

Question 77

in which 2 ways can x-rays case harm?

Answer 77

direct and indirect damage

Question 78

how can x-rays cause direct damage ?

Answer 78

the x-ray photon or ejected high energy electron breaks nucleic acid bonds leading to defective chromosomes

Question 79

what are the potential effects of defective chromosomes ?

Answer 79

failure to pass on information
abnormal replication
cell death
temporary damage

Question 80

what is the possible effect of direct damage on somatic cells ?

Answer 80

radiation induced malignancy

Question 81

what is the possible effect of direct damage on stem cells?

Answer 81

congenital abnormality

Question 82

how can x-rays cause indirect damage ?

Answer 82

ionisation of intracellular water,
production of free radicals,
recombination of free radicals to form hydrogen peroxide,
hydrogen peroxide damages the cell by breaking down proteins e.g. DNA

Question 83

what are the biologically damaging effects of radiation ?

Answer 83

tissue reactions (deterministic effects) - early and late tissue reactions 
stochastic effects - cancer induction, heritable effects

Question 84

what are the effects of therapeutic doses of radiation on the oral cavity ?

Answer 84

mucositis, loss of taste, atrophic mucosa, dry mouth, radiation caries, tooth defects during development

Question 85

what are the differences between stochastic and tissue effects ?

Answer 85

stochastic effects -
have no known threshold dose,
the size of exposure to ionising radiation does not effect the severity of the damage induced, only the pronanility of it occurring

Question 86

what are the possible heritable effects of ionising radiation ?

Answer 86

damage DNA in sperm or egg cells,
congenital abnormality,
dose of 0.5-1.0 Sv doubles rate of spontaneous mutation

Question 87

what is the absorbed dose (D) ?

Answer 87

a measure of the amount of energy absorbed form the radiation beam per unit mass

Question 88

what unit is used to measure absorbed dose ?

Answer 88

Gray (1 joule/Kg)

Question 89

what is the equivalent dose (H)?

Answer 89

a measure which allows the potential harm (radiobiological effectiveness) from different types of radiation to be considered

Question 90

what is the equation for the equivalent dose ?

Answer 90

H = absorbed dose X radiation weighting factor (Wr)

Question 91

what unit is sued to measure equivalent dose ?

Answer 91

Sievert (Sv)

Question 92

what is the radiation weighting factor of x-rays, gamma rays and beta particles ?

Answer 92

Wr = 1

Question 93

what is the radiation weighting factor of protons and neutrons ?

Answer 93

Wr = 5-10

Question 94

what is the radiation weighting factor of alpha particles ?

Answer 94

Wr =20

Question 95

why do protons, neutrons and alpha particles have a higher Wr than x-rays, gamma rays and beta particles ?

Answer 95

have mass and charge so are more ionising

Question 96

what is the relationship between equivalent and absorbed dose for x-rays ?

Answer 96

the equivalent dose measured in sieverts = the absorbed dose measured in Grays

Question 97

what is the purpose of the effective dose (E) ?

Answer 97

allows doses from different investigations of different parts of the body to be compared

Question 98

why is the effective dose important ?

Answer 98

some parts of the body are more radiosensitive e.g. gonads, lens
can be thought of as a broad indication of the risk to health form any exposure to ionising radiation

Question 99

what is the equation for effective dose ?

Answer 99

E = dose equivalent x tissue weighting factor (Wt)

if more than one organ is exposed the effective dose is the sum of effective doses to all exposed organs

Question 100

what units are used to measure effective dose ?

Answer 100

sieverts

Question 101

how much dose can a patient receive in a year ?

Answer 101

as much as required to diagnose and treat effectively

Question 102

how much background radiation is a periapical radiograph equivalent to ?

Answer 102

16 hours

Question 103

how much background radiation is an OPG equivalent to ?

Answer 103

3 days

Question 104

what is the risk of malignancy from 1 intraoral film?

Answer 104

traditional x-ray set and D speed film - 1 in 2000000

70 kV x-ray set and E speed film - 1 in 20 000000

Question 105

what is the risk of malignancy from an OPG ?

Answer 105

0.21-1.9 per million exposures

Question 106

when is collective dose measure used ?

Answer 106

when considering the total effective dose to the population

Question 107

what is the equation for collective dose ?

Answer 107

CD = effective dose X population

Question 108

what unit is used to measure collective dose ?

Answer 108

man-sievert

Question 109

which 3 groups are the population divided into for the purpose of limiting radiation dose ?

Answer 109

patients, occupationally exposed, general public (by the ICRP)

Question 110

what should the decision to perform a radiograph on a patient be based on ?

Answer 110

correct assessment of indications,
expected diagnostic yield,
how results will influence diagnosis,
clinician having adequate knowledge of ionising radiation

Question 111

what is the definition of a classified worker ?

Answer 111

a worker who receives >6mSv per year

Question 112

what are the practical methods of dose reduction ?

Answer 112

distance , shielding, time

Question 113

how big should the controlled area be for an x-ray set operating up to 70Kv?

Answer 113

1.0M

Question 114

how big should the controlled area be for an x-ray set operating above 70Kv?

Answer 114

1.5 M

Question 115

what materials are appropriate to shield from x-rays ?

Answer 115

lead, lead rubber/glass, concrete, barium plaster

Question 116

how can dose be limited by x-ray set design and use ?

Answer 116

higher Kv (60-70KVp),
rectangular collimation,
aluminium filtration,
> 20 cm away from skin, 
accurate timer, 
adequate warning signals

Question 117

how can dose be reduced by quality assurance ?

Answer 117

check x- ray equipment every 3 years,
check processing equipment,
image quality evaluation and audit

Question 118

what is meant by the entrance surface dose ?

Answer 118

max dose to tissues, measured using thermoluminescent dosimeters

Question 119

what are the 2 dose measurements in radiography ?

Answer 119

ESD and dose area product

Question 120

what are the advantages of film badges to measure personal dose ?

Answer 120

cheap, permanent record, can be reassessed, record type of radiation

Question 121

what are the disadvantages of film badges to measure personal dose ?

Answer 121

processing required

Question 122

what is the definition of thermoluminescence ?

Answer 122

a form of luminescence where stored radiation energy is emitted as light on heating

Question 123

what is the active component in TLD’s ?

Answer 123

lithium fluoride crystals

Question 124

what are the advantages of TLD’s to measure personal dose ?

Answer 124

sensitive, re-usable, quick read out, no processing

Question 125

what are the disadvantages of TDL’s to measure personal dose ?

Answer 125

destructive read out, expensive, provide limited information on energy of radiation received

Question 126

what are the 3 types of intra oral radiographs ?

Answer 126

periapicals, bitewings and occlusals

Question 127

what does a periapical radiograph show ?

Answer 127

2-3 teeth from crown to apex and the surrounding apical tissue

Question 128

what does a bitewing radiograph show ?

Answer 128

the crowns of upper and lower pre-molars and first and second molars (8 teeth on one film)

Question 129

what does a vertical bitewing radiograph show ?

Answer 129

more root but fewer teeth than regular bitewing

Question 130

what extra-oral radiographic techniques can be used ?

Answer 130

panoramic radiography,
lateral cephalometric radiography,
oblique lateral,
postero-anterior mandible,
occipito-mental (OM)

Question 131

what does a DPT show ?

Answer 131

all teeth and supporting structures in one image

Question 132

what does a lateral cephalometric radiograph show ?

Answer 132

lateral view of the facial bones and jaw,

relationship of upper and lower arches and the soft tissue outline

Question 133

what does an oblique lateral radiograph show ?

Answer 133

upper and lower posterior teeth on one side

Question 134

when is an oblique lateral radiograph useful ?

Answer 134

poor tolerance of film in mouth/small children

Question 135

what are the alternative methods to radiography to obtain diagnostic images ?

Answer 135

cone beam computed tomography (CBCT),
computed tomography (CT),
ultrasound,
magnetic resonance imaging (MRI),
radionuclide imaging

Question 136

what is CBCT useful for ?

Answer 136

imaging in multiple planes, good for bone not soft tissue

Question 137

what is CT useful for ?

Answer 137

imaging in multiple planes, good for bone and soft tissue

Question 138

how does ultrasound work ?

Answer 138

probe gives off high frequency sound waves,
sound waves reflected back at the interfaces between different tissues,
the reflection is picked up by probe which produces the images
does not use ionising radiation

Question 139

how does MRI work?

Answer 139

strong magnetic field lines up the protons in hydrogen atoms,
short bursts of radio waves knock protons out of alignment,
as the protons realign with the magnetic field their rotation produces an electrical signal in a receiving coil
does not use ionising radiation

Question 140

what os MRI useful for ?

Answer 140

soft tissue imaging

Question 141

how does radionuclide imaging work ?

Answer 141

uses a pharmaceutical attached to a radioisotope,
small amount introduced to body,
different pharmaceuticals go to different organs,
radioactive part emits gamma rays,
gamma rays detected by gamma camera

Question 142

what does a dental x-ray set consist of ?

Answer 142

tubehead, positioning arms, control panel and security

Question 143

what are the dental x-ray set requirements ?

Answer 143

safe,
accurate,
capable of generating x-rays of appropriate Kv,
small,
easy to manoeuvre,
easy to position,
stable and balanced once positioned, 
easily folded and stored,
simple to operate,
robust

Question 144

what does the dot on the tube head indicate ?

Answer 144

position of the target

Question 145

what is used for filtration of the x-ray beam?

Answer 145

1. 5mm al below 70Kv,

2. 5mm al above 70Kv

Question 146

what is the purpose of the x-ray beam filter ?

Answer 146

removes low energy photons,

decreases dose to patient

Question 147

what is the advantage of rectangular collimators over round collimators ?

Answer 147

rectangular matches the beam size and shape to the image receptor decreasing dose to the patient by 50 %

Question 148

what features are on the control panel of an x-ray machine ?

Answer 148

on/off switch,
timer, 
exposure time selection,
warning lights/audible signals,
exposure button

Question 149

what does the Kv control ?

Answer 149

quality or penetrating power of the beam

Question 150

what will a higher Kv do ?

Answer 150

decrease patient dose,
decrease contrast,
increase scatter,
give photons higher energy so more penetrating power

Question 151

what does mA/time control ?

Answer 151

quantity of x-ray photons

Question 152

what does a higher mA do ?

Answer 152

increase patient dose,

increase film blackening

Question 153

what are the advantages of constant potential ?

Answer 153

x-ray production per unit time is more efficient,
more high energy photons per exposure,
fewer low energy harmful photons are produced,
shorter exposure times

Question 154

why is the beam indication device better than the spacer cone ?

Answer 154

spacer cone has a short focal skin distance,
spacer cone has a divergent beam leading to image magnification and irradiation of a greater areas
beam indicating device - 20 cm long focal skin distance,
near parallel beam

Question 155

what is a direct action film ?

Answer 155

the x-ray photons interact with the film

Question 156

what is an indirect action film ?

Answer 156

the x-ray photons interact with an intensifying screen producing light which then interacts with the film

Question 157

what is inside a film packet ?

Answer 157

black paper, film, lead foil, moisture resistant outer cover,

Question 158

describe the cross sectional structure of x-ray film

Answer 158

protective coating, emulsion, adhesive on both sides of a blue tinted transparent plastic base
both sides of the film are active

Question 159

what does the emulsion in x-ray film contain ?

Answer 159

90% silver halide crystals in a gelatin matrix,

10% iodo - bromide (increases sensitivity)

Question 160

what is the function of the emulsion in x-ray films ?

Answer 160

the silver halide crystals are sensitised by x -ray or light photons forming the latent image,
the sensitised crystals are reduced to black metallic silver int the developer

Question 161

what does film speed control ?

Answer 161

the exposure required to produce an optical density of 1.0 above background fog
the faster the film the less exposure required so less dose to the patient

Question 162

what are the slowest to fastest x-ray films and how do they reduce dose ?

Answer 162

slowest - D speed
E speed (1/2 dose of D speed) 
F speed (60 % dose of E speed) 
fastest - digital (50% dose of F speed)

Question 163

what factors determine film speed ?

Answer 163

the number and size of silver halide crystals in the emulsion - more crystals with larger size means greater speed but some loss of image quality

Question 164

how do indirect action films work ?

Answer 164

x-ray photons interact with intensifying screens which sandwich the film between them and produce light which then interacts with the film

Question 165

what is the purpose of a cassette ?

Answer 165

light tight aluminium or carbon fibre casings which contain the intensifying screens and film
used to penetrate thicker structures

Question 166

what are intensifying screens ?

Answer 166

fluorescent phosphors embedded in a plastic matrix which emit light when excited by x rays via the photoelectric effect

Question 167

how do intensifying screens reduce patient dose ?

Answer 167

one x-ray photon produces many light photons therefore fewer x-ray photons are required to produce an image

Question 168

what is image resolution ?

Answer 168

the ability to differentiate between different structures that are close together on the radiograph

Question 169

what is the resolution of direct action film ?

Answer 169

10 line pairs per mm

Question 170

what is the resolution of indirect action film ?

Answer 170

5 line pairs per mm

Question 171

what is intensification factor ?

Answer 171

exposure required when screens not used / exposure required with screens

Question 172

what are the advantages of rare earth screens ?

Answer 172

they are 5 times faster than calcium tungstate screens therefore lower dose to patient

Question 173

what colour light do terbium activated screens emit ?

Answer 173

green

Question 174

what screen emits blue light ?

Answer 174

thulium activated screens

Question 175

what colour light does yttrium emit ?

Answer 175

ultraviolet

Question 176

what is important to remember with rare earth screens ?

Answer 176

films must be matched to the screens

Question 177

what happens during film processing ?

Answer 177

the invisible latent image is converted into the visible radiographic image

Question 178

what are the advantages of automatic x-ray processing ?

Answer 178

time saving,
no darkroom required,
controlled, standardised processing conditions,
automatic replenishment of chemicals

Question 179

what are the stages of film processing ?

Answer 179

development, fixation, washing, drying

Question 180

describe the developing solution used in x-ray processing

Answer 180

alkaline pH 10.5,
oxidised by air over time making it less effective,
should be changes every 14 days

Question 181

what conditions of the developing solution will produce an overdeveloped image ?

Answer 181

concentration too high, left in for too long, too hot

Question 182

what conditions of the developing film will produce an underexposed image ?

Answer 182

concentration too low, solution too old, too cold

Question 183

describe the fixation stage of x-ray processing

Answer 183

unsensitised silver halide emulsion is removed to reveal the transparent/white parts of the image
the fixer firmly anchors the silver grains onto the film base
2 stages :
clearing - time taken for unsensitised silver bromide crystals to be removed from the film
fixing - 2X clearing time

Question 184

what is the pH of the fixing solution ?

Answer 184

4.0-4.5

Question 185

what does under fixed film look like ?

Answer 185

greenish yellow/milky

over time will discolour to brown

Question 186

what is the purpose of the washing stage of film development ?

Answer 186

remove residual fixer

if fixer remains on the film it will be stained brown

Question 187

how is a digital image constructed ?

Answer 187

digital images are made up of pixels,
each mixl has a specific grey shade ranging between black and white,
pixels are arranged in a matrix of fixed dimension,
smaller pixels allow finer image detail

Question 188

what is spatial resolution ?

Answer 188

sharpness of the image,
measured in line pairs per mm,
human eye can only resolve 8 lp/mm without magnification,
current dental systems have resolutions between 6 and 22 lp/mm

Question 189

what determines the pixel shade in digital imaging ?

Answer 189

the amount of radiation that has reached the sensor assigns each pixel a shade of grey

Question 190

what determines the number of grey shades possible in a digital image ?

Answer 190

bit depth of the image file

Question 191

what is the main difference between direct digital and indirect digital imaging techniques ?

Answer 191

direct digital is a virtually instant image but with indirect the plate must be read so there are several seconds before the image is available

Question 192

describe the process of direct digital imaging

Answer 192

2 stage process:

1. scintillation layer converts x-rays to light,
2. semi conductor based pixel ray converts light to electron charge

Question 193

which imaging technique are charged coupled devices (CCD) involved with ?

Answer 193

direct digital imaging

Question 194

why are CCD’ s expensive to manufacture ?

Answer 194

have to transport charge across the chip without distortion

Question 195

what are the advantages of CCD’s ?

Answer 195

create high quality low noise images, higher fill factor, better pixel uniformity

Question 196

which digital imaging technique are complementatry metal oxide semiconductor active pixel sensors associated with ?

Answer 196

direct

Question 197

compare CCD’s and CMOS-AP’s

Answer 197

CMOS-AP:
lower power requirements, 
easier to manufacture,
cheaper,
lower light sensitivity,
noisier

Question 198

what type of digital imaging are photostimulable phosphor plates (PSP’s) involved in ?

Answer 198

indirect digital

Question 199

what are PSP’s ?

Answer 199

plastic plate coated with a storage phosphor material sensitive to x-rays

Question 200

how do PSP’s work ?

Answer 200

the phosphor stores the x-ray energy,
psp plate placed in a laser reader/computer which releases the photon energy as light,
image generation is not instant

Question 201

what are PSP’s also known as ?

Answer 201

computed radiography

Question 202

describe the process of computed radiography

Answer 202

phosphor material is europiam activated barium fluorohalide,
the stored energy is released as blue light when stimulated by red light from a helium/neon laser,
the released light is detected by a photomultiplier which converts the light signal to an electrical signal,
the signal is amplified and converted into a digital signal by an analogue to digital converter (ADC),
data is transferred to a workstation for computation into an image,
the imaging plate is erased after use by exposure to an intense light source

Question 203

what are the advantages of PSP over CCD/CMOS ?

Answer 203

larger variety of imaging areas,
no connecting cable,
slimmer imaging plate, 
cost, 
has a linear response to x-rays over a wider range than most CCD/CMOS

Question 204

what does blooming mean in digital imaging ?

Answer 204

overload of pixels and bleeding of signals into adjacent pixels

Question 205

what are the disadvantages of PSP ?

Answer 205

plates must be processed within 8 hours,
require separate processing,
requires careful handling to prevent scratches

Question 206

what happens to a digital image when the brightness is altered ?

Answer 206

all the grey levels are raised or lowered by the same amount

Question 207

what are the disadvantages of the physical archival of images and notes ?

Answer 207

requires lots of space,
staff must manage archive and retrieve notes,
may only be viewed in one place at a time,
limited options for electronic transfer,
risk of data loss e.g. fire/flooding,
misfiling

Question 208

what is DICOM ?

Answer 208

digital imaging and communications in medicine,

industry standard for the communication and management of medical imaging information

Question 209

what are the advantages of digital imaging compared to film ?

Answer 209

potential reduced radiation dose,
instant image,
electronic storage,
manipulation possible,
reduced consumables as sensors are reusable, 
no noxious chemicals so safer,
fewer processing errors

Question 210

what are the disadvantages of digital imaging ?

Answer 210

outlay cost,
cross infection control,
bulky rigid sensors,
damage to sensors,
limitation on size of sensors,
images may be manipulated by fraud