Quiz 3 Chapter 4

Question 1

All ionizing radiations are ___ and produce ____ changes in living tissues

Answer 1

harmful

biologic

Question 2

Radiation Biology

Answer 2

The study of the effects of ionizing radiation on living tissue

Question 3

Absorption

Answer 3

Refers to the total transfer of energy from the xray photon to patient tissues

Question 4

Two specific mechanisms of radiation injury are possible

Answer 4

1) Ionization

2) Free radical formation

Question 5

X-rays are a form of ionizing radiation; when

Answer 5

xrays strike patient tissues

Question 6

ionization is produced through the photoelectric effect or Compton scatter and results in the

Answer 6

formation of a positive atom and a dislodged negative electron.

The ejected high-speed electron is set into motion and interacts with other atoms within the absorbing tissues. The kinetic energy of such electrons results in further ionization, excitation, or breaking of molecular bonds, all of which cause chemical changes within the cell that result in biologic damage

Question 7

X-radiation causes cell damage primarily through the formation of __ ___

Answer 7

free radicals

Question 8

Free radical formation occurs when an x-ray photon ionizes ___ the primary component of living cells. Ionization of water results in the production of ___ and ____ ____ ____

Answer 8

water
hydrogen
hydroxyl free radicals

Question 9

A free radical is an _____ atom or molecule that exists with a single, unpaired electron in its outermost shell. It is highly reactive and unstable; the lifetime of a free radical is approximately ___ seconds.

Answer 9

uncharged neutral

10^ 10

Question 10

To achieve stability, free radicals may :
1.
2.
3.

Answer 10

(1) recombine without causing changes in the molecule, (2) combine with other free radicals and cause changes, or (3) combine with ordinary molecules to form a toxin (e.g., hydrogen peroxide [H 2 O 2 ]) capable of producing widespread cellular changes

Question 11

2 Theories used to describe how radiation damages biologic tissues

Answer 11

1. The direct theory

2. The indirect theory

Question 12

indirect theory of radiation injury suggests that:

Answer 12

x-ray photons are absorbed within the cell and cause the formation of toxins, which in turn damage the cell

Question 13

An indirect injury results

Answer 13

because the free radicals combine and form toxins, not because of a direct hit by x-ray photons.

Question 14

Indirect injuries from exposure to ionizing radiation occur
frequently or not
and why

Answer 14

frequently because the high water (70-80%) content of cells.

Question 15

To establish acceptable levels of radiation exposure, it is useful to plot the __ ___and the ___ ____

Answer 15

dose administered

damage produced

Question 16

With radiation exposure, a ___ ___ ___ can be used to correlate the “response,” or damage, of tissues with the “dose,” or amount, of radiation received.

Answer 16

dose response curve

Question 17

When dose and damage are plotted on a graph, a __, ____ relationship is seen

Answer 17

linear

nonthreshold

Question 18

A linear relationship indicates that :

Answer 18

the response of the tissues is directly proportional to the dose.

Question 19

A ____relationship indicates that a threshold dose level for damage does not exist.

Answer 19

nonthreshold

Question 20

A nonthreshold dose-response curve suggests that no matter how small the amount of radiation received, some __ ____does occur

Answer 20

biologic damage

Question 21

The deleterious effects of ionizing radiation on human tissue can be divided into two types: ___and ___

Answer 21

stochastic

nonstochastic

Question 22

Stochastic Effects

Answer 22

occur as a direct function of dose

Question 23

Stochastic Effects: The probability of occurrence increases with ___ ___ ____; however, the severity of effects does not depend on the magnitude of the absorbed dose. As in the case of nonthreshold radiation effects, stochastic effects do not have a dose threshold.

Answer 23

increasing absorbed dose

Question 24

Stochastic effects occur due to the effect of ionizing radiation on chromosomes that result in ___ ____Examples of stochastic effects include induction of leukemia and other cancers (i.e., tumors).

Answer 24

genetic mutations

Question 25

Nonstochastic effects only occur after a threshold of exposure has been ____

Answer 25

exeeded

Question 26

have a threshold and increase in severity with increased absorbed dose.

Answer 26

Nonstochastic effects

Question 27

The severity of deterministic effects/nonstochastic effects increases as the dose of exposure ___

Answer 27

increases

Question 28

Because of an identifiable ___ ____, appropriate radiation protection mechanisms and occupational exposure dose limits can be put in place to reduce the likelihood of these effects occurring.

Answer 28

threshold level

Question 29

Nonstochastic effects are caused by ____ __ ___ (lethal DNA damage) or cell death. The physical effects occur when the cell death burden is large enough to cause obvious ___ ____ of a tissue or organ.

Answer 29

significant cell damage

functional impairment

Question 30

Examples of nonstochastic effects

Answer 30

skin erythema
Loss of hair
cataract formation
decreased fertility
radiation sickness
teratogenesis
fetal death

Question 31

Which radiation effect requires larger radiation doses to cause serious impairment or death

Answer 31

nonstochastic

Question 32

Chemical reactions (e.g., ionization, free radical formation) that follow the absorption of radiation occur rapidly at the molecular level. However, varying amounts of ___ are required for these changes to alter cells and cellular functions.

As a result the observable effects of radiation are not visible immediatlely after exposure, instead, following exposure a

Answer 32

• time

- latent period occurs

Question 33

Latent Period

Answer 33

time that elapses between exposure to ionizing radiation and the appearance of observable clinical signs

Question 34

latent period may be short or long, depending on the total dose of radiation received and the amount of time, or rate, it took to receive the dose. The more radiation received and the faster the dose rate, the ___ the latent period.

Answer 34

shorter

Question 35

After the latent period, a period of

Answer 35

injury occurs
-variety of cellular injuries may result including cell death, changes in cell function, breaking or clumping of chromosomes, formation of giant cells, cessation of mitotic activity, abnormal mitotic activity

Question 36

The last event in the sequence of radiation is the ___

Answer 36

recovery period

Question 37

Not all cellular injuries are permanent. With each radiation exposure, cellular damge is followed by

Answer 37

repair

Question 38

The effects of radiation exposure are additive and unreparied damage accumulates in the

Answer 38

tissues

Question 39

The Factors used to determine the degree of radiation injury include the following

Answer 39

Total Dose
Dose Rate
Amount of Tissue Irradiated
Cell Sensitivity
Age

Question 40

Quantity of radiation received, or the total amount of radiation energy absorbed. More damage occurs when tissues absorb large quantities of radiation.

Answer 40

Total Dose

Question 41

Rate at which exposure to radiation occurs and absorption takes place (dose rate = dose/time). More radiation damage takes place with high dose rates because a rapid delivery of radiation does not allow time for the cellular damage to be repaired.

Answer 41

Dose Rate

Question 42

Areas of the body exposed to radiation. Total-body irradiation produces more adverse systemic effects than if small, localized areas of the body are exposed. An example of total-body irradiation is the exposure of a person to a nuclear energy disaster. Extensive radiation injury occurs when large areas of the body are exposed because of the damage to the blood-forming tissues.

Answer 42

Amount of tissue irradiated

Question 43

Cell Sensitivity

Answer 43

More damage occurs in cells that are most sensitive to radiation, such as rapidly dividing cells and young cells

Question 44

Age

Answer 44

Children are more susceptible to radiation damage than are adults

Question 45

Following the latent period, effects that are seen within minutes, days or weeks are termed

Answer 45

short term effects

Question 46

Associated with large amounts of radiation absorbed in a short time (exposure to nuclear accident, atomic bomb)

Answer 46

Short Term Effects

Radiation

Question 47

short-term effect and includes nausea, vomiting, diarrhea, hair loss, and hemorrhage. Short-term effects are not applicable to dentistry.

Answer 47

Acute Radiation Syndrome

Question 48

Effects that appear after years, decades, or generations are termed

Answer 48

long-term effects

Question 49

associated with small amounts of radiation absorbed repeatedly over a long period.

Answer 49

Long term effects

Question 50

Repeated low levels of radiaiton exposrue are linked to the induction of

Answer 50

cancer, birth abnormalities, genetic defects

Question 51

All the cells in the body can be classified as either somatic or __

Define what both are:

Answer 51

genetic

Somatic cells are all the cells in the body except the reproductive cells. The reproductive cells (e.g., ova, sperm) are termed genetic cells .

Question 52

Somatic effects are seen in a person who has been irradiated. Radiation injuries that produce changes in somatic cells produce __ ___in the irradiated individual.

Answer 52

poor health

Question 53

Major somatic effects of radiation exposure include the induction of cataracts and cancer, including leukemia. These changes, however, are not transmitted to ___ ____

Answer 53

future generations

Question 54

Genetic effects are not seen in the irradiated person but are passed on to ___ ____ Radiation injuries that produce changes in genetic cells
(do or do not)
affect the health of the exposed individual. Instead, the radiation-induced mutations affect the health of the offspring (see Figure 4-5 ). Genetic damage cannot be repaired.

Answer 54

future generations

do affect the health

Question 55

Ionizing radiation may affect the nucleus, cytoplasm or the entire cell

The cell ___ is more sensitive to radiation than is the cytoplasm

Answer 55

nucleus

Question 56

A cell that is sensitive to radiation is termed

Answer 56

radiosenstive

Question 57

One that is resistant is termed

Answer 57

radioresistant

Question 58

The response of a cell to radiation exposure is determined by the following

Answer 58

-Mitotic Activity: Cells that divide frequently or undergo many divisions over time are moe sesntive to radiation

-Cell Differentiation
Cells that are immature or are not highly specialized are more sensitive to radiation.

-Cell Metabolism
Cells that have a higher metabolism are more sensitive to radiation. Cells that are radiosensitive include blood cells, immature reproductive cells, and young bone cells.

Question 59

Cels that are radiosensitve include

Answer 59

blood cells
immature reproductive cells
young bone cells

Question 60

The cell most sensitive to radiation is the small lymphocyte. Radioresisitant cells include

Answer 60

bone
muscle
nerve

Question 61

Radiosensitive organs are composed of radiosensitive cells and include :

Examples of radioresistant tissues include: the salivary glands, kidney, and liver.

Answer 61

lymphoid tissues, bone marrow, testes, and intestines.

Question 62

CRITICAL ORGAN IS AN ORGAN THAT

examples

Answer 62

if damaged diminishes the quality of a persons life.

• Thyroid gland
• Bone marrow
• Skin
• Lens of eye

Question 63

Radiation can be measured in the same manner as other physcial conecpts such as

Answer 63

time, distance, weight

Question 64

International Comission on Radiation Unit and Measurements has established special units for measurment of radiaiton. 3 QUANTITIES OF RADIAITON

Answer 64

1. EXPOSURE
2. DOSE
3. DOSE EQUIVALENT

Question 65

• Roentgen (R) • Radiation absorbed dose (rad) • Roentgen equivalent (in) man (rem)

Answer 65

TRADITIONAL UNITS

Question 66

Gray (Gy) • Sievert (Sv)

Answer 66

SI UNITS OF RADIATION

Question 67

exposure

Answer 67

refers to the measurement of ionization in air produced by x-rays.

Question 68

The roentgen has limitations as a unit of measure. It measures the amount of energy that reaches the surface of an organism but does not describe the amount of radiation absorbed. The roentgen is essentially limited to ____ _ _____. By definition, it is used only for x-rays and gamma rays and does not include other types of radiation.

Answer 68

measurements in air

Question 69

Dose

Answer 69

can be defined as the amount of energy absorbed by a tissue

Question 70

Radiation absorbed dose or rad

Answer 70

traditional unit of dose/can be applied to all forms of radiaiton

Question 71

Measurement that is used to compare the biologic effects of different types of radiation

Answer 71

dose equivalent

Question 72

The traditional unit of dose equivalent is the

Answer 72

roentgen equivalent man or rem

Question 73

In measuring the roentgen, a known volume of ___ is irradiated. The interaction of x-ray photons with air molecules results in ionization, or the formation of ions. The ions (electrical charges) that are produced are ____ and ____.

Answer 73

air
collected
measured

Question 74

1 roentgen =

Answer 74

2 billion ion pairs in one cubic centimeter of air

Question 75

Roentgen measures the amount of energy that reaches the surface of an organism but does not describe the amount of radiation ____

Answer 75

absorbed

Question 76

used only for xrays and gamma rays and does not include other types of radiaiton

Answer 76

Roentgen

Question 77

Coulomb

Answer 77

unit of electrical charge. The unit C/kg measures the number of electrical charges, or the number of ion pairs, in 1 kg of air.

Question 78

Dose

Answer 78

Defined as the amount of energy absorbed by a tissue

Question 79

Radiation absorbed dose or rad is the ____ unit of dose

Non traditional or Traditional

Answer 79

Traditional

Question 80

Different types of radiation have different effects on

Answer 80

tissues

Question 81

measurement is used to compare the biologic effects of different types of radiaiton

Answer 81

Dose Equivalent

Question 82

The traditional unit of dose equivalent is the

Answer 82

roentgen equivalent (in) man, or rem

Question 83

To place the exposure effects of different types of radiation on a common scale, a __ ___ , or dimensionless multiplier, is used.

Answer 83

Quality Factor

Question 84

Each type of radiation has a specific ___ ____ based on different types of radiation producing different types of biologic damage. For example, the QF for x-rays is equal to 1.

Answer 84

QF or Qualtiy Factor

Question 85

In dental imaging, the gray and __ are equal, and the roentgen, __ and __ are considered approximately equal.

Answer 85

Sievert

rad and rem

Question 86

Natural or Background Radiation sources include

Answer 86

Radon in the air

Uranium

Radium

Thorium in the earth

Cosmic rays

Radioactive potassium in food and water

Radioactive material found within human

body

Question 87

The single greatest source of expsoure to background radiation in the united states

Answer 87

Radon gas

Question 88

is the greatest contributer to human made radiaiton exposure

Answer 88

Medical Radiaiton

Question 89

___ to background radiation varies depdning on where a person lives

Answer 89

exposure

Question 90

depends on the elevation above sea level; the higher the altitude, the more exposure to cosmic rays.

Answer 90

Cosmic exposure

Question 91

comes from the ground; an example includes naturally occurring uranium-enriched soil.

Answer 91

terrestrial Exposure

Question 92

___ radiation depends on the food and water that person ingests

• bananas and brazil nuts example
• water supply

Answer 92

Internal radiaiton

Question 93

In the United States, the average person is exposed to a total of __ mSv of radiation per year (__ mSv from natural sources + __mSv from human-made sources = __mSv total).

Answer 93

6.2 mSv

3. 1 mSv from natural sources
4. 1 mSv from human made

Question 94

luminous wristwatches
televisions
computer screens
fallout atomic weapons
nuclear fuel cycle

Answer 94

human made radiation exposure

Question 95

__ radiation is the greatest contributer to human made radiation exposure

Answer 95

medical

Question 96

medical imaging procedures
dental imaging
radiation therapy
nuclear medicine
computed tomography

Answer 96

medical radiation

Question 97

Dental Imaging Critical Organs or Risk Elements

Answer 97

Thyroid Gland
Bone Marrow
Skin
Eyes

Question 98

To calculate the risk from dental imaging procedures, ___ to crtitical organs must be measured

Answer 98

doses

Question 99

The amount of exposure varies depending on the follwoing

Answer 99

Receptor choice-digital F
Collimation
Technique

Question 100

The amount of exposure varies depending on the follwoing

Answer 100

Receptor choice-digital F
Collimation: Rectangular
Technique: Radiation exposure can be limited by increasing the target receptor distance /paralleling