Radiobiology chapter 7

The _______________ particle, which is composed of two protons and two neutrons and therefore carries an electric charge of +2 strongly attracts the negatively charged electrons as it passes.

Alpha

Examples of high LET radiation are : ________________________, ________________________________, ___________________________________________

Alpha particles, -Ions of heavy nuclei -Charged particles released from interactions between neutrons and atoms

In apoptosis the cell shrinks and produces tiny membrane-enclosed structures called _______________.

Blebs

______________________________________ a grossly misshapen chromosome may be produced. Ring chromatids, dicentric chromosomes, and anaphase bridges are examples of such distorted chromosomes and chromatids.

Broken-end Rearrangement

____________________________________________ whereby the chromatids genetic material has been rearranged yet the chromatid appears normal. Translocations are examples of such rearrangements.

Broken-end rearrangement without visible damage to the chromatids

____________________ cell death occurs when a cell dies after one or more divisions.

Mitotic Death

Exposing a cell to as little as 10 cGy of ionizing radiation just before it begins dividing can result in _________________________ the failure of the cell to start dividing on time.

Mitotic Delay

The loss or change of a base in the DNA chain represent a __________________________.

Mutation

DNA molecules can also become covalently linked to a protein molecule, these linkages are potentially _____________ to the cell if they are not correctly repaired.

Fatal

A ____________________ is a molecular unit that has no net electrical charge but, because of having an unpaired valence electron, it is an extremely reactive entity.

Free radical

_____________________ are solitary atoms for example, a non-molecular hydrogen atom (H) or most often a combination of atoms such as (OH) that behave as single entities and are chemically reactive as a result of the presence of unpaired valence electrons.

Free radicals

____________________________ exhaust their energy rapidly in matter unless they are of extremely high energies, they cannot travel or penetrate as far as x-ray and gamma ray photons.

High LET radiation

Direct action is much more likely to occur after exposure to _______________________ radiation such as alpha particles, which produce a vast number of ionizations in a very short distance of travel.

High-LET

(H2O2) is also known as _________________________.

Hydrogen Peroxide

A hydroxyl radical (OH*) can bond with another hydroxyl radical (OH*) and form __________________________________ which is a substance that is very poisonous to the cell.

Hydrogen peroxide (OH* + OH* = H2O2)

(HO2*) is also known as _______________________.

Hydroperoxyl radical (HO2*)

________________________________ is formed when a hydrogen free radical (H*) combines with molecular oxygen (O2).

Hydroperoxyl radical (HO2*)

Approximately two thirds of all radiation-induced damage is believed to be ultimately caused by ____________________________.

Hydroxyl free radical (OH*)

(OH*) is also known as ________________________.

Hydroxyl radical

A neutral oxygen-hydrogen combination is called a ________________________.

Hydroxyl radical (OH*)

Essentially all effects of low LET irradiation in living cells result from ________________________.

Indirect action

________________________ is always a multi-stage process that first involves the production of free radicals that are usually created by the interaction of the radiation with water molecules.

Indirect action

Cross-linking may occur between complimentary DNA strands or between entirely different DNA molecules this is called _________________________ cross-linkng.

Interstrand

Cross-linking between two different places on the same strand of DNA is called a ________________________ cross-link.

Intrastrand

LET is usually described in units of __________________________________

Kiloelectron volts (keV) per micron

The ___________________________________ states that the radiosensitivity of cells is directly proportional to their reproductive activity and inversely proportional to their degree of differentiation.

Law of Bergonie and Tribondeau

The __________________________________ is calculated by dividing the total energy deposited in the medium by the total length of the track.

Linear Energy Transfer (LET)

The average energy deposited per unit length of track is _____________________________________.

Linear Energy Transfer (LET)

Point lesions commonly occur with _______________ radiation.

Low LET

___________________________, which carry no electrical charge are also a form of high LET radiation.

Low-energy neutrons

An _______________________ is any organic compound with two oxygen atoms joined together.

Organic peroxide

If __________________ is present when a tissue is irradiated, more free radicals will be formed in the tissue; this increases the indirect damage potential of the radiation.

Oxygen

The ___________________________________ refers to the enhancement of the therapeutic or detrimental effect of ionizing radiation due to the presence of oxygen.

Oxygen Enhancement Ratio (OER)

____________________________________ describes the comparative capabilities of radiation with differing LETs to produce a particular biologic reaction.

Relative Biologic Effectiveness (RBE)

The process of healing by ____________________ is believed to be how 95% of single-chromosome breaks mend.

Restitution

_______________________ the chromosome breaks rejoin in their original configuration with no visible damage. No injury to the cell occurs.

Restitution

A positively charged water molecule (HOH+) may recombine with an electron to reform a ___________________________.

Stable water molecule

The concept of radiation damage to specific sensitive locations resulting from discrete and random events is known as __________________________.

Target Theory

Reproductive death generally results from exposure of cells to doses of ionizing radiation in the range of ___ to ____ Gy.

1-10 Gy

When LET increases, the chance of producing a significant biologic response in the radiosensitive DNA macromolecule also _____________________.

increases

LET is calculated by dividing the total energy deposited in the medium by the total length of the ________________.

track

When passing through a medium such as human tissue, ionizing radiation may interact with that medium during its passage and as a result lose its energy along its path called a _______________

track

________________ and ________________ ray photons can impart energy to orbital electrons in atoms if the photons happen to pass near the electrons

x-ray and gamma

(HOH-) becomes a _______________________ and a _______________________.

- Hydroxyl ion (OH-) - Hydrogen radical (H*)

When tissue is irradiated in an oxygenated state, the tissue is more sensitive to radiation than when it is exposed to radiation under _________________ or __________________ conditions.

-Anoxic (without oxygen) -Hypoxic (Low oxygen)

Two types of chromosome anomalies have been observed they are: __________________ and ___________________.

-Chromosome aberrations -Chromatid aberrations

Vital biologic macromolecules include: ______________________, ____________________, _________________________, __________________________.

-DNA -RNA -Enzymes -Proteins

HOH+ decomposes into a ____________________ and ______________________.

-Hydrogen Ion (H+) -Hydroxyl radical (OH*)

The ________________________________ and ____________________________ are believed to be among the primary substances that produce biologic damage directly after the interaction of radiation with water.

-Hydroperoxyl radical (HO2*) -Hydrogen peroxide (H2O2)

When low-LET radiation interacts with biologic tissue, it causes damage to a cell primarily through an ________________ action that involves the production of molecules called __________________________.

-Indirect -Free Radicals

To be able to understand how ionizing radiation causes injury and how the effects can vary in biologic tissue, three essential concepts must be studied: _____________________________________________, _____________________________________, and _____________________________________.

-Linear energy transfer -relative biologic effectiveness -oxygen enhancement ratio

After irradiation and during cell division some radiation induced chromosome breaks may be viewed microscopically during the ____________________ and ___________________ stages of the cell division cycle, when the length of the chromosome is visible.

-Metaphase -Anaphase

Both ______________ and _____________________ cells are subject to chromosome breaks induced by radiation.

-Somatic -Reproductive

The most pronounced radiation effects occur in cells with the : -________________________________________ -________________________________________ -________________________________________

-The least maturity & specialization - Greatest reproductive activity - Longest mitotic phases

High-energy charged particles such as _____________ and _______________ particles and _________________ also may ionize atoms by interacting electromagnetically with orbital electrons.

-alpha and beta particles -protons

Chromatid aberration leads to ___________ daughter cell(s) being affected.

1

The OER of high LET radiation is approximately equal to ________.

1

A free radical exists for approximately _______________________ before pairing up with another electron, even if to do this it has to break a chemical bond in a vital molecule.

1 millisecond

The body is less than ______ DNA

1%

The alpha particle is ________________ times the LET of the electron.

1000

Instant death of large numbers of cells occurs when a volume is irradiated with an x-ray or gamma-ray dose of ___________________ in seconds or a few minutes.

1000Gy

X-rays and gamma rays, which are low LET types of radiation, have an OER of approximately ______________ when the radiation dose is high.

3

The rate of transfer of energy from ionizing radiation, used for diagnostic purposes (x-rays), to soft biologic tissue is estimated to be __________________which is considered to be relatively low LET radiation compared with other types of radiation.

3 keV/um

Deletion, a part of the chromosome or chromatid is lost at the next cell division, thus creating an aberration known as an _____________________________ which results in a cell mutation.

Acentric fragment

It should be noted that the phenomenon of apoptosis is considered by many to be integrally related to the ________________________.

Ageing process

A classic method of displaying the sensitivity of a particular type of cell to radiation is the _____________________________

Cell survival curve

Solitary ____________________________________, result when irradiation of individual chromatids occurs later in interphase, after DNA synthesis has taken place.

Chromatid aberrations

With a double strand break in the same rung of the DNA ladder-like structure, complete _____________________________ occurs.

Chromosome Breakage

_________________________ result when irradiation occurs early in interphase, before DNA synthesis takees place.

Chromosome aberration

__________________________ in this situation the break caused by ionizing radiation is in a single strand of chromatin, which is the original chromosome.

Chromosome aberration

____________________________________ is the process of chemically joining two or more molecules by a covalent bond, which is the sharing of one or more pairs of electrons between the molecules.

Covalent cross-linking

_____________________ a part of the chromosome or chromatid is lost at the next cell division.

Deletion

In __________________________, biologic damage occurs as a result of the ionization of atoms on essential molecules produced by an immediate interaction with incident radiation.

Direct action

Also but much less likely the low LET radiation may _________________ induce single-strand breaks in the ladder like DNA structure.

Directly

The ____________________________________ is the ratio of the radiation dose required to cause a particular biologic response of cells in an oxygen-deprived environment to the radiation dose required to generate an identical response under normal oxygenated conditions.

Oxygen Enhancement Ratio (OER)

Without oxygen, the damage created by the indirect action of radiation on a biologic molecule may be repaired, but when damage occurs through an oxygen-mediated process, the final result is lasting or fixed, this phenomenon is called the ________________________________________.

Oxygen fixation hypothesis

______________________ are altered areas caused by the fracturing of a single chemical bond.

Point lesions

________________________ is the branch of biology concerned with the effects of ionizing radiation on living systems.

Radiobiology

________________________ refers to the dissociation of molecules by ionizing radiation.

Radiolysis

Identical doses of radiation of different LET's do not render identical biologic effects. True or False?

True

Cells that are _________________ are about three times more resistant than cells that are well oxygenated at the time of irradaition.

anoxic

A non-mitotic or non division form of cell death that occurs when cells die without attempting division during the interphase portion of the cell life cycle is ______________________

apoptosis

The characteristics of ionizing radiation vary among different types of radiation. Characteristics include: _________________, _________________, and _______________.

charge mass and energy

These attributes determine the extent to which different radiation modalities transfer energy into biologic tissue. __________________, ________________, and ____________________.

charge mass and energy

For low LET radiation a significant fraction of bioeffects are caused by indirect actions in which a _____________________ is formed.

free radical

Biologic damage produced by radiation __________________ as the LET of radiation increases.

escalates

High LET radiation includes particles that possess substantial ________________ and ________________.

mass and charge

Because low-LET radiation generally causes ________________ damage to DNA, repair enzymes can usually reverse the cellular damage.

sublethal