Principles of radiation biology

Question 1

What is radiation biology?

Answer 1

The branch of biology concerend with the effects of ionizing radiation on living systems

Question 2

What are these three things describing?

1. The sequence of events occuring afger the absorption of energy from ionizing radiation
2. The action of the living system to make up for the consequences of this energy assimilation
3. Injury to the living system that may be produced

Answer 2

Radiation biology

Question 3

At what level does potentially harmful effects of ionizing radiation primarily occur at?

Answer 3

The cellular level

Question 4

What percentage of interaction of ionzing radiation with tissues are harmless?

Answer 4

90% of interactions are harmless

Question 5

T/F

Interactions are a probablilty and may or may not result in damage

Answer 5

True

Question 6

T/F

The latent period duration of visible damage decreeases as dose increases.

Answer 6

True (the larger the radiation dose the quicker the reaction)

Question 7

T/F

Visible damage from radiation is indistinguishable from other causes.

Answer 7

True

Question 8

T/F

It is difficult to determine if low (diagnostic) levels of radiation cause damage

Answer 8

True

Question 9

How does ionizing radiation damage living systems?

Answer 9

By ionizing the atoms comprimising the molecular structure of these systems

Question 10

T/F

Ionzied atoms can bond properly with molecules provided that a low LET reaction occured.

Answer 10

False; ionzied atoms will not bond properly in molecules

Question 11

What does LET stand for?

Answer 11

Linear energy transfer

Question 12

What does RBE stand for?

Answer 12

Relative biologic effectivness

Question 13

What does OER stand for?

Answer 13

Oxygen enhancement ratio

Question 14

What attributes determine the extent to which different radiation modalilties transfer energy into biologic tissue?

Answer 14

Charge, mass and energy

Question 15

What are the three concepts that help us to understand the way ionizing radiation causes injury and how the effects may vary in biologic tisssue?

Answer 15

1. LET
2. RBE
3. OER

Question 16

What is the defenition of LET?

Answer 16

The average energy depositied as ionizing radiation passes through a medium (per unit lenth of track)

Question 17

What are the units for LET?

Answer 17

keV/um (kiloelectron volts per micron)

Question 18

T/F

An increased LET increases the chances of producing a significant biological response.

Answer 18

True

Question 19

What are the two categories of LET?

Answer 19

1. Low linear energy transfer radiation
2. High linear energy transfer raidation

Question 20

What type of LET is harder for the body to repair? Why?

Answer 20

High lET; becuase the there are more ionziations

Question 21

What does LET allow us to asses?

Answer 21

The potential tissue and organ damage from exposure to ionzing radiation

Question 22

T/F

When E deposits are spread out more, the body is able to fix them eaiser.

Answer 22

True

Question 23

What types of radiation are labled 1-3?

Answer 23

1. Alpha radiation
2. Beta radiation
3. X-ray radiation

Question 24

What types of radiation are considered low LET radiation?

Answer 24

1. Gamma rays
2. X-rays

Question 25

What types of radiation are considered high LET radiation?

Answer 25

1. Particulate radiation (alpha, neutrons)

Question 26

T/F

EMR is considered low LET

Answer 26

True

Question 27

What is the general mass (high or low) and charge (+/-) of low LET radiation?

Answer 27

-Low mass
-Negative charge

Question 28

What is the general mass (high or low) and charge (+/-) of high LET radiation?

Answer 28

-High mass and/or;
-High charge

Question 29

What is the penetrating ability of low LET radiation?

Answer 29

Highly penetrating

Question 30

What type of action is responsible for most damage that occurs to the cell with low LET radiation?

Answer 30

Indirect action

Question 31

T/F

With low LET raidation, ionziations are very frequent.

Answer 31

False; low LET radiation is sparsely ionzing

Question 32

What do the interactions with tissue look like for low LET radiation?

Answer 32

-Interactions (ionziations) spread out along the length of the tissue track
-Few ionziations over the distance that it traveled

Question 33

What is the penetrating ability of high LET radiation?

Answer 33

Less penetrating than low LET radiation

Question 34

What do the interactions with tissue look like for high LET radiation?

Answer 34

-Transferes a large amount of ionizations over a small area of tissue

Question 35

What are the chances of low LET radiation damging the structure of the DNA? What is this interaction called?

Answer 35

-Very low
-It is called a direct hit

Question 36

If low LET radiation does cause a direct hit, it this reparable or unreparable?

Answer 36

Reparable

Question 37

Why are direct hits to DNA less common with low LET radiation?

Answer 37

There is a higher chance it will miss the DNA because the ionziations are spread out

Question 38

T/F

With high LET, there as more of a chance for a direct hit to the DNA

Answer 38

True

Question 39

What is the defenition of RBE?

Answer 39

The relative capabilites of radiation with differing LETs to produce a particular biologic reaction

Question 40

How do you calculate RBE?

Answer 40

RBE=Dose of standard radiation necessary to produce a given effect OR dose in Gy from 250 keV x rays/dose of test radiation necessary to produce the same effect

Question 41

What is the typical amount of reference necessary to produce a given effect?

(for the RBE calculation)

Answer 41

Conventionally 250 kVp x rays

Question 42

What does WR stand for?

Answer 42

The radiation weighing factor

Question 43

What is the WR for x-rays?

Answer 43

1

Question 44

What is the WR for alpha radiation?

Answer 44

20

Question 45

What is the purpose of the Raidaiton weighing factor?

Answer 45

-It is more practical for radiation protection dose levels in humans as it is used to calculate the EqD

Question 46

What does EqD determine?

Answer 46

Determines the ability of a dose of any kind of ionizng radiation to cause biological damage

Question 47

T/F

Tissues in an oxygenated state are more sensitive to radiation

Answer 47

True

Question 48

How do you calculate the OER?

Answer 48

OER=Radiation dose required to cause biologic response without O2/Radiation dose required to cause biologic response with O2

Question 49

T/F

High LET radiation will have a high RBE

Answer 49

True

Question 50

T/F

OER is the measure of the damage that will ocur in comparison with the x rays for the same radiation dose.

Answer 50

False; RBE is the measure of the damage that will ocur in comparison with the x rays for the same radiation dose.

Question 51

T/F

OER is the ratio fo the radiation dose needed to cause the same biological damage when there is oxygen absent to when there is oxygen present.

Answer 51

True

Question 52

Why is it that equal doses of ionzing radiation produce different degrees of damge in different kinds of human cells?

Answer 52

It is because of the differences in cell radiosensitivity

Question 53

T/F

The more mature and specialized in performing functions a cell is, the less sensitive it is to radiation

Answer 53

True

Question 54

What law is this describing?

Radiosensitivity of cells is directly proportional to thier repoructive activity and inversely proportional to their degree of differentiation.

Answer 54

The law of Bergonie and Tribondeua

Question 55

What 3 cells of the body are more radioinsensitive?

Answer 55

1. Brain cells
2. Muscle cells
3. Nerve cells

Question 56

Name three cells of the body that are more radiosensitive:

Answer 56

1. Reproductive (germ) cellls
2. Basal cells of the skin
3. Intestinal crypt cells

Question 57

Why is there an increase in radiosensitivity when the patient is older?

Answer 57

There is less healing able to take place

Question 58

What is more sensitive to radiation, spermatogonia or spermatozona?

Answer 58

Spermatogonia

Question 59

T/F

LET can influence cell radiosensitivy

Answer 59

True

Question 60

T/F

Oxygen enchances the effects of ionzing radiation by increasin the tissue radiosensitivity.

Answer 60

True

Question 61

How does radiotherapy take advantage of the oxygen enhancement effects of tissues.

Answer 61

In radiotherapy, high pressure oxygen has sometimes beeen used in conjunction with radiation to increase tumor radiosensitivity

Question 62

What is the target of the cell?

Answer 62

It is the master orkey molecule that is believed to be in every cell, necessary for the survival of the cell

Question 63

What theory can be used to explain cell death and non fatal cell abdomalities caused by exposure to radiation?

Answer 63

Target theory

Question 64

T/F

Both indirect and direct hits to a cell can cause damage.

Answer 64

True

Question 65

What is the target molecule in all cells?

Answer 65

The DNA

Question 66

T/F

If a molecule misses the key molecule, no damage to the cell will occur.

Answer 66

True

Question 67

What are the two classifications of ionzing radiation interaction on a cell?

Answer 67

1. Direct action
2. Indirect action

Question 68

What do the majority of effects of irradiation in living cells result from? Why?

Answer 68

Indirect action, because the human body is composed of 80% water, and less than 1% DNA

Question 69

T/F

Indirect action increases the effective target size

Answer 69

True

Question 70

Define radiolysis:

Answer 70

The breakdown of rater caused by radiation

Question 71

What are the effects of the radiolysis of water?

Answer 71

1. Production of free radicals
2. Production of undesirable chemical raeactions and biologic damage
3. Production of cell damaging substances
4. Organic free radical formation

Question 72

What is a free radical?

Answer 72

Formed by the radiolysis of water

Question 73

What is an ion pair made up of?

Answer 73

HOH+ and e-

Question 74

T/F

HOH+ on its own is stable.

Answer 74

False; HOH+ on its own is unstable

Question 75

T/F

A positive ion on its own is unstable.

Answer 75

True

Question 76

What are the different possibilities that can occur with ion pairs from the radiolysis of water?

Answer 76

1. Positively charged water milecule may recombine with the e-
2. Can break apart into smaller molecules
3. Free e- can combine with another water molecule

Question 77

What reaction has to occur for an ion pair to turn from unstable to stable? Will any damage occur?

Answer 77

-HOH+ will recombine with the electron to form a stable water molecule.
-No damage will occur

Question 78

If a positive does not recombine with an electron, and breaks apart into smaller molecules, what will it decompose into? Will this cause damage?

Answer 78

1. H+ (hydrogen ion)
2. OH (hydroxyl radical)
   -Will cause damage

Question 79

What is OH?

Answer 79

-It is a free radical, with an uneven # of electrons that is highly reactive

Question 80

If a positive does not recombine with an electron, but instead, the free e- combines with another water molecule, what will this create? What will it eventually decompose into?

Answer 80

-Creates HOH- (Negative water ion)
-Will decompose into OH- (hydroxyl ion) and H (hydrogen radical)

Question 81

What is H (hydrogen radical)?

Answer 81

It is a free radical with an uneven number of elecrons that is very reactive

Question 82

Summary

What are the 2 formations that can occur from the interaction of radiation with water?

Answer 82

1. Hydrogen ion and a hydroxyl ion (H+ and OH-)-safe
2. Two free radicals-Hydrogen radical and a hydroxyl radical (unsafe)

Question 83

What can occur if H and OH radicals interact and transfer energy to other molecules?

Answer 83

Can break chemical bonds causing point lesions that lead to cell death

Question 84

What is the radiolysis of water considered; direct or indirect?

Answer 84

Indirect action

Question 85

What interaction can occur with free radicals other than the transfer of energy to tissues?

Answer 85

OH (free radical) could bond with another OH, causing the creation of hydrogen peroxide, which is poisinous to the cell

Question 86

What free radical is considered to be the most harmful to the cell?

Answer 86

Hydriperoxyl radical (HO2)

Question 87

What is the chemical equation for the interaction that occurs when an ion pair recombines?

Answer 87

H2O+radiation—>HOH+ + e-

Question 88

What is the chemical equation for the interaction that occurs when an e- attaches to another water molecule?

Answer 88

H2O+e—-> HOH-

Question 89

What is the equation for the dissasosiation of HOH+?

Answer 89

HOH+—>H+ + OH

Question 90

What is the equation for the dissasosiation of HOH-?

Answer 90

HOH- —>H+ + OH-

Question 91

T/F

Free radicals are diffusible.

Answer 91

True

Question 92

What are the 3 possibilities with free radical interactions?

Answer 92

1. Recombination
2. Combination of free radicals
3. React with normal biologic molecules forming new or damaged structures

Question 93

How do free radicals initiate damage?

Answer 93

Through indirect action