Radiation Biology pt. 2

Question 1

Fukushima Daichi,
March 11, 2011

Answer 1

An 8.9 magnitude earthquake and subsequent tsunami
overwhelmed the cooling systems of an aging reactor along
Japan’s northeast coastline. The accident triggered
explosions at several reactors at the complex, forcing a
widespread evacuation in the area around the plant

Question 2

San Onofre Nuclear Power Plant, San Diego County

Answer 2

San Onofre is at the northwest
corner of San Diego County and
is surrounded by Camp
Pendleton and San Onofre
State Park. Interstate 5 passes
right by.

Question 3

ACUTE RADIATION SYNDROME
(2)

Answer 3

• A collection of signs and symptoms
  following acute whole-body radiation
  exposure
• Information derived from animal
  experiments, patient therapeutic
  radiation exposures, atomic bombings
  and radiation accidents.

Question 4

ACUTE RADIATION SYNDROME
* Sub-lethal exposure
* Lethal exposure
* Supralethal exposures

Answer 4

< 2 Gy (200 Rads)
~ 2 –8 Gys (~ 200 to 800 Rads)
> 8 Gys (800 Rads)

Question 5

Higher dose, — latent period and —
onset of severe symptoms

Answer 5

shorter
rapid

Question 6

Acute radiation syndrome
periods (4)

Answer 6

1. Prodromal period
2. Hematopoietic syndrome
3. Gastrointestinal syndrome
4. Central nervous system and
   cardiovascular syndrome
   (CNS/CVS syndrome)

Question 7

1. Prodromal period

Answer 7

(<200 R; <2Gy)

Question 8

2. Hematopoietic syndrome

Answer 8

(200- 1,000R; 2-10 Gy)

Question 9

3. Gastrointestinal syndrome

Answer 9

(1,000 – 10,000R; 10 – 100 Gy)

Question 10

4. Central nervous system and
   cardiovascular syndrome

Answer 10

(>10,000R; >100 Gy)

Question 11

PRODORMAL SYNDROME

Answer 11

• Shortly after exposure to whole-body
  radiation, an individual may develop
  nausea; vomiting;
  diarrhea; anorexia;
  Causes general malaise, fatigue,
  drowsiness and listlessness
  Symptoms resolve after several weeks

Question 12

ACUTE RADIATION SYNDROME
Lethal exposure range
Supralethal exposures

Answer 12

~ 2 – 8 Gys
(~ 200 to 800 Rads)
> 8 Gys
(> 800 Rads)
short latent period and rapid onset of severe symptoms

Question 13

HEMOPOIETIC SYNDROME

Answer 13

• irreversible injury to the proliferative
  capacity of the spleen and bone
  marrow with loss of circulating
  peripheral blood cells

Question 14

HEMOPOIETIC SYNDROME
* infection from the
(2)

Answer 14

lymphopenia and
granulocytopenia
* hemorrhage from thrombocytopenia
* anemia from the erythrocytopenia
* Death within 10 - 30 days.

Question 15

GASTROINTESTINAL SYNDROME
(2)

Answer 15

• extensive damage to the GI system (in
  addition to the hemopoietic system)
• There is extensive injury to the rapidly
  proliferating basal epithelial cells of the
  intestinal villi which leads to atrophy and
  ulceration.

Question 16

GASTROINTESTINAL SYNDROME
(5)

Answer 16

• loss of plasma and electrolytes
• hemorrhage and ulceration
• diarrhea, dehydration, weight loss
• Infection
• Death in 3 - 5 days

Question 17

CARDIOVASCULAR
and
CENTRAL NERVOUS SYSTEM
SYNDROME
(3)

Answer 17

• radiation induced damage to neurons and fine vasculature of brain
• Intermittent stupor, incoordination, disorientation, and convulsions from extensive CNS damage
• irreversible damage with death in a few minutes to 48 hours.

Question 18

RADIATION TREATMENTS TO THE
ORAL CAVITY

Answer 18

• Combined surgical, radiation and chemotherapy
  often provides the optimum treatment

Question 19

RADIATION TREATMENTS TO THE ORAL
CAVITY
* Oral tissues are subjected to high doses of
radiation during the treatment of malignant
tumors of the (5)

Answer 19

soft palate, tonsils, floor of the
mouth, nasopharynx, and hypopharynx

Question 20

RADIATION TREATMENTS TO THE ORAL
CAVITY
* Total radiation doses to treat malignant
tumors ranges from

Answer 20

6,000 - 8,000 Rads. Or
60 -80 Gy

Question 21

Previous Radiation Therapy for Cancer
* Dose
– Solid tumors =
– Lymphomas =
– Intraoral cancer =

• 1 Gy =

Answer 21

60 –80 Gy
20 –40 Gy
50 Gy

1 million μSv

Question 22

Single intraoral — μSv
FMX (20 images) — μSv
Panoramic radiograph — μSv

Answer 22

1.3
35
9

Question 23

RADIATION TREATMENTS TO THE ORAL
CAVITY
* Fractionation of the total dose into multiple
small doses provides

Answer 23

greater tumor destruction
than a single large dose
* Fractionation also increases cellular repair of the
normal tissues

Question 24

Mucosa: -

Answer 24

mucositis
- 20 infections

Question 25

Taste Buds: -

Answer 25

loss of taste

Question 26

Salivary Glands: -

Answer 26

xerostomia

Question 27

Teeth:

Answer 27

• lack of or retarded development
• radiation caries

Question 28

Bone: -

Answer 28

osteoradionecrosis

Question 29

Muscle: -

Answer 29

fibrosis

Question 30

Hypoguesia
(2)

Answer 30

• Epithelial atrophy,
  xerostomia and
  mucositis all result in
  loss of taste
  (hypoguesia) by the 2nd
• 3rd week of treatment
• recovery of taste
  sensitivity will occur in
  2 - 4 months following
  treatment

Question 31

SALIVARY GLANDS
There is marked and
progressive loss of

Answer 31

salivary secretion

Question 32

Adult teeth are very resistant to the

Answer 32

direct
effects of radiation exposure

Question 33

There is no discernible effect on the

Answer 33

crystalline
structure of enamel, dentin, or cementum

Question 34

Radiation does not increase the —- of
teeth

Answer 34

solubility

Question 35

When teeth are irradiated during the
developmental stage, their growth may be

Answer 35

severely retarded

Question 36

If the radiation precedes calcification, the
tooth bud may be

Answer 36

destroyed

Question 37

Irradiation after initiation of calcification,
teeth may demonstrate

Answer 37

malformations and
arresting general growth

Question 38

Generally, if some portion of the salivary gland
has been spared, the dryness of the mouth
subsides in

Answer 38

6 month to 1 yeAR

Question 39

However, xerostomia may persist without any

Answer 39

significant return of salivation

Question 40

Major salivary glands are often exposed
unavoidably to radiation during

Answer 40

treatment
for carcinoma of the oral cavity or
oropharynx

Question 41

Parenchymal cells (especially of the parotid
glands) are very sensitive to X-rays and are
replaced by

Answer 41

fibrosis and adiposis with
parenchymal degeneration and loss of fine
vasculature

Question 42

The scanty saliva makes the mouth

Answer 42

dry
(xerostomia) and tender. Swallowing is difficult
and painful

Question 43

The residual saliva has a lowered pH (from 6.5
to 5.5), which is acidic enough to initiate

Answer 43

decalcification of enamel

Question 44

The buffering capacity of saliva is reduced

Answer 44

40 -
45%

Question 45

Children may show defects in the permanent
dentition, such as

Answer 45

retarded root development,
dwarfed teeth, or failure to form one or more
teeth

Question 46

A dose as low as 200 R at the age of 5 months
has been reported to cause

Answer 46

hypoplasia of the
enamel.

Question 47

Although irradiation may retard or abort tooth
formation, the — mechanism is much
more radiation resistant

Answer 47

eruptive

Question 48

Irradiated teeth with —
will still erupt

Answer 48

altered root formation

Question 49

RADIATION CARIES
* A rampant form of decay that

Answer 49

may affect
individuals who received a course of
radiation therapy that include exposure of
the salivary glands

Question 50

BONE
Osteoradionecrosis
The primary damage to bone is from
irradiation to
(2)

Answer 50

– fine vasculature
– marrow –affecting vascular and hemopoietic
elements.

Question 51

Radiation Effects –Oral Tissues
– Musculature
* Inflammation and fibrosis –results in

Answer 51

contracture and
trismus in the muscles