Heat Related Disorders, Sun Care/Skin Damage

Question 1

The hypothalamus maintains core body

temperature at ~______C .

Answer 1

~37 degree C

Question 2

How does the body acquires heat?

Answer 2

by several mechanisms (shivering, physical activity, etc.

Question 3

How does the body eliminates heat?

Answer 3

by several mechanisms (evaporation, radiation, conduction, and convection)

Question 4

Causes of Heat illness (2)

Answer 4

• from an imbalance of the body’s process of acquires heat and eliminates heat
• as ambient temperature and humidity increase, heat
  dissipation becomes less efficient.

Question 5

List Heat-related illnesses in order of severity:

Answer 5

1. Heat Rash
2. Heat Edema
3. Heat Cramps
4. Heat Syncope
5. Heat Exhaustion
6. Heat Stroke

Question 6

Heat-related illnesses:

Risk Factors? (5)

Answer 6

1. Age
2. Outdoor labourers
3. Competitive athletes
4. Individuals in poor socioeconomic situations
5. Other medical / demographic factors or medications

Question 7

Heat-related illnesses:

What risk do Infants and young children have?

Answer 7

Due to physiologic and thirst-response differences, plus their dependence on caregivers

Question 8

Heat-related illnesses:

What risk do Older adults have?

Answer 8

Due to comorbid illnesses, medications, poor thermoregulatory response, and social factors such as isolation and inability to provide self-care

Question 9

Heat-related illnesses:

Examples of Other medical / demographic factors or medications:

Answer 9

• alcoholism, dehydration, psychiatric or pulmonary
  disorders, hyperthyroidism, vascular diseases, lack of
  acclimatization, lack of breaks, strenuous activity, etc.

- drugs that increase heat production (thyroid drugs), 
  decrease sweating (anticholinergics), or cause 
  vasoconstriction (MAOIs)

Question 10

Slide 24 - Medications as a Risk Factor???

Answer 10

Look at table

Question 11

non-pharm for Heat-related illnesses:

1st 5 types of heat-related illnesses:

Answer 11

 Heat rash – small blisters or rash that appear as a
result of irritation from excessive sweating
* Keep cool and dry, avoid humidity

 Heat edema – in the extremities from vasodilation or
water / sodium retention
* Elevate hands and feet

 Heat cramps – common in the arms, legs, and
stomach due to water/sodium depletion
* Stop activity, rest, rehydrate, and stretch affected
muscles
- Seek attention if no improvement in ~1 hour

 Heat syncope – dizziness / fainting
* Stop activity, get up slowly (patients often recover
quickly)

 Heat exhaustion – weakness, dizziness, headache,
elevated core body temperature (~40C), tachycardia
/ hypotension
* Stop activity, rehydrate
- Seek attention with severe symptoms or if no
improvement in ~2-3 hours

Question 12

non-pharm for Heat-related illnesses:

Heat Stroke:

Answer 12

 This is a medical emergency!
* Can lead to hepatic and renal failure, CNS injury,
coagulopathy, and CV collapse
- “Classic” heat stroke normally affects the elderly
and can develop over several days
- “Exertional” heat stroke normally affects younger,
active individuals after strenuous activity and
can develop rapidly

 Symptoms are similar to heat exhaustion plus…

* Hot, dry skin and >40C core body temperature
* Altered mental status / confusion / hallucinations
* Ataxia (lack of coordination)
* Seizures
* Coma

 Call 911, and …
* Stop activity, get in cool / shaded area with good
air circulation, remove excessive clothing,
rehydrate, and cool the body with ice water towels
applied to the groin, neck, head, and axillae

Question 13

pharm for Heat-related illnesses:

What should NOT be used?

What CAN be used?

Answer 13

 Antipyretics should not be used

 Some medications can be used to treat complications
of heat stroke
* e.g., benzodiazepines to control seizures

Question 14

Heat-related illnesses:

Prevention:

Which group of people may be at risk?

Answer 14

The elderly, athletes, homeless, infants/children, cognitive disabilities, those with risk factors

Question 15

Heat-related illnesses:

Prevention:

If unable to control exposure, ways to prevent Heat-related illnesses?

Answer 15

 Ensure proper hydration and continuously consume
fluids during exertion. Oral rehydration solutions are
helpful, but be mindful of sugar / salt content in these
products.
* Thirst should not be relied upon as a reason to drink
 Stay out of the sun
 Avoid strenuous activity / take breaks
 Wear light coloured / lightweight clothing
 Acclimatize to the environment

Question 16

Heat-related illnesses:

Monitoring and Follow-Up:

Answer 16

 In terms of hydration, can monitor for light-yellow
coloured urine
 heat exhaustion should resolve within hours, but the
individual should avoid repeated heat exposure for 1-
2 days. Those requiring hospitalization may require
longer- term monitoring due to possible complications

Question 17

Sun Care and Skin Damage:

What are the 3 Ultraviolet Radiations:

Answer 17

• UVA (320-400nm)
• UVB (290-320nm)
• UVC (270-290nm)

Question 18

Sun Care and Skin Damage:

Characteristics of UVA:

Answer 18

• is responsible for photoaging, skin cancers, and
  reactions from photosensitizing drugs
• although less potent than other UV radiation, is a
  significant contributor to skin cancer risk because it
  readily reaches the Earth’s surface
• is present all day and can penetrate clouds

Question 19

Sun Care and Skin Damage:

Characteristics of UVB:

Answer 19

• is the main cause of sunburns (B = burn!) and plays a
  role in cancers and photoaging…but is required for
  vitamin D synthesis
• is the strongest between 10am and 4pm and is
  intensified by conditions such as high temperatures
  and reflective surfaces

Question 20

Sun Care and Skin Damage:

Characteristics of UVC:

Answer 20

• usually filtered by the ozone layer and does not reach

the Earth’s surface

Question 21

Sun Care and Skin Damage:

How many in Fitzpatrick Skin Type?

Answer 21

6

Question 22

Sun Care and Skin Damage:

Describe Fitzpatrick Skin Type I, skin colour/features before and after sun:

Answer 22

Before Sun:
Ivory

After Sun:
Always freckles, always burn/peels, never tans

Question 23

Sun Care and Skin Damage:

Describe Fitzpatrick Skin Type II, skin colour/features before and after sun:

Answer 23

Before Sun:
Fair or pale

After Sun:
Usually freckles, often burn/peels, rarely tans

Question 24

Sun Care and Skin Damage:

Describe Fitzpatrick Skin Type III, skin colour/features before and after sun:

Answer 24

Before Sun:
Fair to beige, with golden undertones

After Sun:
Might freckles, burn on occasion, sometimes tans

Question 25

Sun Care and Skin Damage:

Describe Fitzpatrick Skin Type IV, skin colour/features before and after sun:

Answer 25

Before Sun:
Olive or light brown

After Sun:
Doesn’t really freckle, rarely burns, often tans

Question 26

Sun Care and Skin Damage:

Describe Fitzpatrick Skin Type V, skin colour/features before and after sun:

Answer 26

Before Sun:
Dark brown

After Sun:
Rarely freckles, almost never burns, always tans

Question 27

Sun Care and Skin Damage:

Describe Fitzpatrick Skin Type VI, skin colour/features before and after sun:

Answer 27

Before Sun:
Deeply pigmented dark brown to darkest brown

After Sun:
Never freckles, never burns, always tans

Question 28

Sun-Induced Skin Damage:

Describe Sunburn -

Answer 28

an inflammatory process in response to UV radiation

Question 29

Sun-Induced Skin Damage:

Describe Photoaging -

Answer 29

results in rough, dull skin with fine and deep wrinkles that may eventually appear yellowed and leathery

Question 30

Sun-Induced Skin Damage:

Describe Pigmentary changes -

Answer 30

commonly referred to as “age spots,” these are irregular areas on the skin ranging from light to dark brown. Freckles are in this category as well.

Question 31

Sun-Induced Skin Damage:

Describe Phototoxic Reaction -

Answer 31

dose-related sunburn that occur within minutes to hours of exposure to sunlight in patients taking a relevant medication.

Question 32

Sun-Induced Skin Damage:

What are the 5 classes of medication that causes Phototoxic Reaction?

Answer 32

1. Antimicrobials
2. NSAIDs
3. Retinoids (systemic and topical)
4. Diuretics
5. Psychiatric medications

Question 33

Sun-Induced Skin Damage:

Phototoxic Reaction:

List medications in the Antimicrobials class:

Answer 33

Azole antifungals (itraconazole, voriconazole),
ceftazidime, quinolones (ciprofloxacin, norfloxacin),
sulfonamides, tetracyclines (doxycycline,
tetracycline), trimethoprim

Question 34

Sun-Induced Skin Damage:

Phototoxic Reaction:

List medications in the NSAIDs class:

Answer 34

Diclofenac, ibuprofen, indomethacin, ketoprofen,

naproxen, piroxicam, sulindac, tiaprofenic acid

Question 35

Sun-Induced Skin Damage:

Phototoxic Reaction:

List medications in the Retinoids (systemic and topical) class:

Answer 35

Acitretin, alitretinoin, isotretinoin

Adapalene, tazarotene, tretinoin

Question 36

Sun-Induced Skin Damage:

Phototoxic Reaction:

List medications in the Diuretics class:

Answer 36

Furosemide, hydrochlorothiazide

Question 37

Sun-Induced Skin Damage:

Phototoxic Reaction:

List medications in the Psychiatric Medications class:

Answer 37

Alprazolam, chlordiazepoxide, chlorpromazine,

desipramine

Question 38

Sun-Induced Skin Damage:

What are the 3 types of Sun-Induced Skin Damaged skins?

Answer 38

1. Actinic keratosis
2. Non-melanoma cancers
3. Melanoma

Question 39

Sun-Induced Skin Damage:

Sun-Induced Skin Damaged skins

Describe Actinic keratosis -

Answer 39

a common sun-induced lesion that can progress to squamous cell carcinoma

Question 40

Sun-Induced Skin Damage:

Sun-Induced Skin Damaged skins

Describe Non-melanoma cancers -

Answer 40

may appear as abnormal scaling that bleeds or erodes over time – or – as “pimples” that do not heal and develop ulcerations

Question 41

Sun-Induced Skin Damage:

Sun-Induced Skin Damaged skins

Describe Melanoma -

Answer 41

rare but deadly, often presenting as flat brown or black spots (moles) that change over time

Question 42

Skin Cancer Surveillance

Individuals with ________ moles are at greater risk of developing skin cancers

Answer 42

> 100

Question 43

Skin Cancer Surveillance

What is ABCDEs of Moles?

Answer 43

 A – asymmetry
 B – border (uneven, scalloped, or notched)
 C – colour (variety or changing)
 D – diameter ( > 6 mm)
 E – evolving (changing over time)

Question 44

Skin Cancer Surveillance

Skin cancer is uncommon in people of colour or Caucasian?

Answer 44

People of colour - BUT -

 At time of diagnosis, associated with increased
morbidity and mortality

 Diagnosis at late stage may be due to a variety of
factors (e.g. socioeconomic)

Lesions present in atypical fashion.

Question 45

Skin Cancer Surveillance

What are the 3 skin/cell conditions in Skin Cancer?

Answer 45

• Basal Cell Carcinoma
• Squamous Cell
• Melanoma

Question 46

Skin Cancer Surveillance

Describe Basal Cell Carcinoma -

Answer 46

 Less common in black skin

 Might not appear as classic translucent papule with
telangiectasia

Question 47

Skin Cancer Surveillance

Describe Squamous Cell -

Answer 47

 Squamous Cell Carcinoma is the most common

 Skin cancer in blacks and SE Asians, even though UV
dependent, not sure why in coloured, chronic
inflammation and scarring?

Question 48

Skin Cancer Surveillance

Describe Melanoma -

Answer 48

 Deadliest, better prognosis if caught early but in
coloured skin, being diagnosed late resulted in
poorer outcomes and decreased survival rates

 A lot of these cancers can appear in non sun
exposed areas, examine mucosal membranes

Question 49

non-Pharm Sun-induced Skin Cancer

Prevention (3)

Answer 49

 Avoid the following:

• Direct sun exposure
• Tanning beds (Just don’t please!!!)

 Wear the following:

• Protective clothing
• Wide-brimmed hats
• Sunglasses

 Educate patients at risk of drug-induced reactions
- Phototoxicity – dose-related sunburn-like reactions
- Photoallergies – delayed reactions after light
exposure, often extending beyond the area exposed
to light

Question 50

Sunscreens

is SPF 15-16 effective?

what features should sunscreens have (4)

Answer 50

 limited available evidence using moderate SPF ( ~15–
16) sunscreen suggests that “real world” application
of sunscreen does not affect vitamin D production
significantly.

Should have the following features:
 SPF of at least 30
 Be non-irritating, non-comedogenic, and
hypoallergenic
 Be minimally or non-perfumed
 Offer broad-spectrum UVA/UVB protection
* Look for this wording on the label

Question 51

Application of Sunscreens

How do you apply Sunscreens? (3)

Answer 51

 Apply 15-30 minutes before exposure, then reapply in
15-30 minutes to maximize protection
 Should also reapply after swimming, sweating, or
toweling-off
 Apply uniformly and liberally
* Include lips, ears, and feet
* “Teaspoon Rule”

Question 52

Application of Sunscreens

What is the “Teaspoon Rule”?

Answer 52

 1⁄2 – 1 teaspoonfuls on face and neck
 1 – 1 1⁄2 teaspoonfuls to arms, shoulders, and torso
 2 – 2 1⁄2 teaspoonfuls to legs and feet

Question 53

Sunscreens vs. Sunblocks

What is the difference?

Answer 53

Chemical vs. physical barriers

- Absorb vs. reflect and scatter UV radiation

Question 54

What ingredients in Sunscreend?

Answer 54

e.g., oxybenzone (UVB), mexoryl (UVA)

Question 55

What ingredients in Sunblocks?

Answer 55

e. g., titanium dioxide, zinc oxide

- Can be used by all ages > 6 months