Radiation

Question 1

What is the truth about radiation in the environment?

Answer 1

It is everywhere and you cannot avoid it

Question 2

Where does background radiation originate from?

Answer 2

Comic rays

Naturally occurring radiation in materials and living things

Question 3

What is ionizing radiation produced by?

Answer 3

Unstable atoms having excess energy, mass, or both

Trying to reach stability

Question 4

What are the 5 types of ionizing radiation?

Answer 4

Alpha, Beta, Gamma, X, and Neutron

Question 5

What is alpha radiation?

Answer 5

Heavy, very short-range particles, travels only a few inches in the air, not an external hazard
Can’t penetrate clothes and not really skin but bad inhaled, eaten or goes near open wounds
Cannot be identified with standard instruments

Question 6

What are examples of alpha radiation?

Answer 6

Radium, radon, uranium

Question 7

Describe beta radiation.

Answer 7

Ejected electron that can travel several feet in the air and can penetrate human skin to the germinal layer
High levels of beta-emitting contaminants
Harmful if deposited internally and needs special instruments to be detected

Question 8

What are examples of beta radiation?

Answer 8

Strontium-90, carbon-14, tritium and sulfer-35

Question 9

Describe gamma and X radiations.

Answer 9

Highly penetrating electromagnetic radiation and can travel many feet in the air and can travel on human tissue
Can penetrate most materials and is easily detectable by survey meters with sodium iodide detector probe

Question 10

What are some examples of gamma and X radiation?

Answer 10

Emission of alpha and beta rad in radioactive decay

Iodine-131, cesium-137, cobalt-60, radium-226

Question 11

Where could neutron radiation be found?

Answer 11

Nuclear power plants, high altitude flight and some industrial sources

Question 12

How is radiation measured in the US?

Answer 12

Gradation absorbed dose, dose equivalent, and exposure measured in rad, rem, or roentgen (R) and are all considered equal

Question 13

How is exposure measured?

Answer 13

Estimating curies (Ci)

Question 14

The greater the Ci the ____ the radioactivity and emitted radiation.

Answer 14

Greater

Question 15

What is the international system for radiation measurement?

Answer 15

Gray (Gy) and sievert (Sv) for absorbed dose and equivalent dose

Question 16

What does it mean to measure radioactivity?

Answer 16

The size or weight of a material does not indicate its activity level
Measured in curies per unit mass and depends on the half life

Question 17

What is the SI unit for radioactivity?

Answer 17

Becquerel (Bq)

Question 18

Radiation exposure should be limited—-

Answer 18

As Low As Reasonably Achievable (ALARA)

Question 19

What are the general rules of ionizing radiation injuries?

Answer 19

Damage increases 
proportionally to 
exposure
Effects may not appear 
for years following the 
exposure
Few show specificity
regarding radiation
etiology

Question 20

What are the most studied groups of those who suffer from radiation?

Answer 20

Atomic bomb survivors
Marshall islanders
Chernobyl survivors

Question 21

Describe characteristics of atomic bomb survivors?

Answer 21

Wide variety of malignancies
Overall incidence inc in proportion to rad dose
Breast cancer, leukemia, thyroid
Gene mutations, chromosome aberrations

Question 22

What occurs when a radiation injury effects blood forming tissues?

Answer 22

Highly radiosensitive and changes can occur within minutes after a 1 Sv dose
Profound depression in WBC and platelets in 3-5 weeks
10 Sv is lethal over minutes or days

Question 23

What can happen to the eye in ionizing radiation injuries?

Answer 23

Lens can obtain vision impairing cataracts in 2-3 Sv in a few minutes

Question 24

What happens to the reproductive organs in an ionizing radiation injury?

Answer 24

Sperm count depression in both tests (.15 Sv)
Permanent sterility (4 Sv)

Question 25

What occurs in carciongenesis?

Answer 25

Linked to radiation since roentgen discovery based on the radiation equipment

Question 26

What occurs in leukemia due to ionizing radiation injuries?

Answer 26

All major forms increase
following whole body or major hematopoietic system exposure
Increase appears 2-5 yrs
following exposure
Incidence of cases dose
dependant
Possible excess exposure to nuclear plants

Question 27

What occurs in breast cancer due to ionizing radiation injuries?

Answer 27

Dose-dependent inc
5-10 yrs following exposure and first age of exposure
May be no threshold effects

Question 28

What occurs in thyroid due to ionizing radiation injuries?

Answer 28

Malignancies seen in all major groups of exposed to radiation
Tumors primarily adeomas/carcinomas with low mortality and latent periods of 10-25 yrs
Females and younger ppl more incidence

Question 29

Describe radon.

Answer 29

Colorless, odorless, naturally occurring, radioactive gas formed from decay of radium
Found in confined areas like basements or in rocks and spring water

Question 30

What is the major health concern of radon?

Answer 30

Radon daughters which produce alpha particles and lodge in respiratory tract

Question 31

Is radon found in public water supply?

Answer 31

No

Question 32

What element contains radon and might cause lung cancer?

Answer 32

Uranium

Question 33

What does the EPA recommend as the standard for non-mining indoor radon levels?

Answer 33

4 pCi/L of air

Question 34

What is non-ionizing radiation

Answer 34

Energizes or excites molecules without breaking them apart

Series of energy waves composed of oscillating electric and magnetic fields traveling at the speed of light

Question 35

Where would non-ionizing radiation be found?

Answer 35

Power lines, electrical appliances, TVs, video displays, radar, microwaves

Question 36

What are the different types f non-ionizing radiation?

Answer 36

Extremely low frequency (ELF)
Electromagnetic fields (EMF)
Magnetic Resonance Imaging (MRI)
Radiofrequency and Microwave rad (RF)
Ultraviolet (UV)
Ultrasound

Question 37

Describe extremely low frequency (ELF) radiation.

Answer 37

Produced at 60 Hz, produced by power lines and electrical wiring
Can effect Ca homeostasis, chromosome damage/RNA transcription, cell response to hormones and enzymes and NTs, cellular immune response and interacts with cancer cells

Question 38

Describe electromagnetic fields (EMF).

Answer 38

Include 50-60 Hz wave lengths

Associated with alternating currents in electric power generation, power lines

Question 39

Describe radiofrequency (RF) and microwave radiation (MW).

Answer 39

MW absorbed near the skin, RF maybe absorbed through body

Damage through heating

Question 40

What is the larges source of RF and MW?

Answer 40

Microwave ovens

Question 41

What are the health concerns of RF and MW?

Answer 41

Neurologic, behavioral, reproductive, teratogenic

Question 42

Describe infrared radiation (IR).

Answer 42

Skin and eye absorb infrared radiation (IR) as head

Furnaces, heat lamps, IR lasers

Question 43

What are the health related effects of IR?

Answer 43

Skin (sunburns), eye (opacities)

Question 44

Describe ultraviolet light (UV).

Answer 44

High photon energy range
No immediate symptoms of excessive exposure
Sun, black lights, welding arcs and UV lasers

Question 45

What are the health related effects of UV light?

Answer 45

Inc skin exposure and exposure to artificial light

Skin damage, melanotic skin cancer, non-melanotic skin cancer

Question 46

Describe video display terminals (VDTs).

Answer 46

Radiation non-issue

No harmful emissions

Question 47

L.A.S.E.R.S.

Answer 47

Light Amplification by Simulated Emissions of Radiation

Question 48

Describe lasers.

Answer 48

Produce coherent, tightly focused beams of x-ray, UV, visible, or IR rad
Emit optical radiations, eye and skin hazard

Question 49

What are the health effects of lasers in medical use?

Answer 49

Type, power output, viewing angle, length of exposure

Question 50

What are some adverse heath effects of lasers?

Answer 50

Skin - erythema, blistering, incineration
Respiratory tract effects due to airborne contaminates produced
Eye - epthelial stripping, granuales, haze, opacities, depends on exposure type, dependent on whether exposure is infrared, UV, or visible

Question 51

Class I laser

Answer 51

No risk even if viewed directly

Question 52

Class II laser

Answer 52

No injury if direct beam is viewed for 0.25 sec or less; low risk

Question 53

Class IIA laser

Answer 53

Output not intended to be viewed; exposure must not exceed class I radiation for 1,000 sec

Question 54

Class III laser

Answer 54

Can produce eye injury if beam is viewed even momentarily; moderate risk
Medical surveillance required

Question 55

Class IV laser

Answer 55

Even diffuse reflection can produce eye damage; can injure skin and may pose fire hazard
Medical surveillance required