Thermoregulation

Question 1

Thermoregulation

Answer 1

The process of maintaining the core body temperature at a nearly constant value

Question 2

What does body temperature below 36 C or above 40 C cause

Answer 2

Disorientation

Question 3

Body temperature above 42 C causes?

Answer 3

Convulsions and permanent cell damage

Question 4

Normothermia

Answer 4

Normal body temperature 36.5-37.2

Question 5

Hypothermia

Answer 5

Body temperature below 36.2

Question 6

Hyperthermia

Answer 6

Body temperature above 37.6

Question 7

Hyperpyrexia

Answer 7

Extremely high body temperature above 41.5

Question 8

Fever

Answer 8

Elevation in body temperature due to a change in the hypothetical set point
Temporary resetting of the hypothalamic thermostat

Question 9

Temperature regulation varies in response to :

Answer 9

Location
Activity
Environment
Circadian Rhythm
Gender

Question 10

Heat production and conservation mechanisms

Answer 10

• Chemical reactions of metabolism
• Skeletal muscle contraction
• Chemical thermogenesis
• Vasoconstriction
• Shivering
• Voluntary mechanisms

Question 11

Processes of heat transfer

Answer 11

Radiation
Convection
Conduction
Evaporation

Question 12

Radiation

Answer 12

Objects warmer than environment lose heat as infrared radiation
Accounts for more than half of body’s heat loss

Question 13

Conduction

Answer 13

Direct transfer of energy due to physical contact with cold object
Not very effective in gaining or losing heat

Question 14

Convection

Answer 14

Heat loss to cooler air
Heat rises away from skin, cool air replaces it
Accounts for about 15% of body’s heat loss

Question 15

Evaporation

Answer 15

Water changes from liquid to vapor as it evaporates
Absorbs energy and cools surface
Insensible perspiration from lungs and skins consistent
Accounts for about 20% of body’s heat loss
Sensible perspiration from sweat glands varies in rate

Question 16

How is temperature regulation coordinated?

Answer 16

By the heat-loss centre and the heat gain centre

Question 17

What pathways does the heat-loss centre use?

Answer 17

Parasympathetic pathways

Question 18

Heat- gain centre uses which pathways

Answer 18

Sympathetic pathways

Question 19

Populations at greatest risk for problems with thermoregulation are:

Answer 19

Very young persons
Very old persons
Poor persons
Persons living in very hot or cold climates

Question 20

What damage can occur from hyperthermia

Answer 20

Nerve damage, coagulation of cell proteins and death

Question 21

How can hyperthermia occur

Answer 21

Can be accidental, therapeutic or associated with stroke or head trauma

Question 22

Thermoregulation Disorders - Hyperthermia

Answer 22

Fever
Heat stroke
Malignant Hyperthermia

Question 23

Thermoregulation Disorders- Hypothermia

Answer 23

Frostbite

Question 24

What happens when the Vasomotor centre is inhibited during hyperthermia?

Answer 24

Peripheral blood vessels dilate
Blood flows more to surface of the body
Increases heat loss by radiation and convection

Question 25

What happens when the sweat glands are stimulated to increase secretions during hyperthermia?

Answer 25

Increases heat loss by evaporation

Limited capability in higher humidity environments

Question 26

What happens when the respiratory system is stimulated during hyperthermia?

Answer 26

Increased respiratory depth and breathing more through mouth

Increased heat loss through evaporation from lungs

Question 27

3 steps caused by hyperthermia

Answer 27

1. Vasomotor center inhibited
2. Sweat glands stimulated to increase secretions
3. Respiratory centres stimulated

Question 28

At what temperature does nerve damage produce convulsions in an adult?

Answer 28

41 degrees C

Question 29

What temperature causes death

Answer 29

43 degrees C

Question 30

What does fever activate?

Answer 30

Heat production and conservation measures to a new set point

Question 31

What kind of pyrogens are associated with fever?

Answer 31

Exogenous and Endogenous

Question 32

What is a central fever caused by

Answer 32

Trauma

Question 33

What are the benefits of a fever?

Answer 33

Kills many micro-organisms
Decreases serum levels of iron, zinc and copper
Promotes lysosomal breakdown and auto destruction of cells
Increases lymphocytic transformation and phagocyte motility
Augments antiviral interferon production and phagocytosis

Question 34

Pharmacotherapies for fever

Answer 34

Antipyretics
Acetaminophen
NSAIDS

Question 35

What is the goal of pharmacotherapies used for fevers?

Answer 35

Lower body temperature, while treating the underlying cause of the infection

Question 36

What is the drug of choice for treating fevers in children?

Answer 36

Acetaminophen

Question 37

Action of Acetaminophen (Tylenol)

Answer 37

Inhibits synthesis of prostaglandins
Mild to moderate pain control
Antipyretic

Question 38

Contraindications of Acetaminophen (Tylenol)

Answer 38

Known allergy
Severe liver disease
Genetic disease enzyme deficiency
Chronic alcoholism
Renal disease

Question 39

Toxicity Symptoms of Acetaminophen (Tylenol)

Answer 39

Cyanosis
Anemia
Neutropenia
CNS Stimualtion
Delirium followed by vascular collapse
Seizures
Coma 
Death

Question 40

Pharmacokinetics: Absorption of Acetaminophen (Tylenol)

Answer 40

Well absorbed after oral administration. Rectal absorption varies.

Question 41

Pharmacokinetics: Distribution of Acetaminophen (Tylenol)

Answer 41

Widely distributed, crosses placenta and enters breast milk.

Question 42

Pharmacokinetics: Metabolism of Acetaminophen (Tylenol)

Answer 42

By the liver, metabolites are excepted in the liver

Question 43

Half life of Acetaminophen (Tylenol)

Answer 43

1-3 hours

Question 44

Prostaglandins

Answer 44

Lipids that promote inflammation and are found in all tissues

Question 45

Cyclooxygenase

Answer 45

Key enzymes in the biosynthesis of prostaglandins and have 2 forms

Question 46

2 forms of cyclooxygenase

Answer 46

Cyclooxygenase-1

Cyclooxygenase-2

Question 47

Cyclooxygenase-1 Location

Answer 47

Present in all tissues

Question 48

Cyclooxygenase-1 Functions

Answer 48

Protects gastric mucosa, supports kidney function, promotes platelet aggregation

Question 49

Cyclooxygenase-1 Inhibition by medications

Answer 49

Undesirable: increases risk for gastric bleeding and kidney failure

Question 50

Cyclooxygenase-2 Location

Answer 50

Present at sites of tissue injury

Question 51

Cyclooxygenase-2 Functions

Answer 51

Mediates inflammation
Sensitizes pain receptors
Mediates fever in the brain

Question 52

Cyclooxygenase-2 Inhibition by medications

Answer 52

Desireable: results in suppression of inflammation

Question 53

Misoprostol

Answer 53

A prostaglandin like substance that inhibits gastric acid secretions and stimulates the production of protective mucous

Question 54

When is misoprostol usually used

Answer 54

used mostly when taking NSAIDS and glucocorticoids to prevent ulcers

Question 55

What does misoprostol prevent

Answer 55

GI bleeds

Question 56

What does a synthetic prostaglandin E1 analogue do?

Answer 56

inhibits gastric acid secretion and has a cytoprotective component

Question 57

NSAIDS

Answer 57

A large and chemically diverse group of drugs that have:
Analgesic activities
Anti-inflammatory activities
Antipyretic activities
Aspirin-platelet inhibition

Question 58

What are properties that all NSAIDS share?

Answer 58

Antipyretic properties
Analgesic properties
Anti-inflammatory properties

Question 59

NSAIDS are used to relief

Answer 59

Mild to moderate headaches
Myalgia
Neuralgia
Arthralgia
Postoperative pain
treatment of gout and hyperuricemia

Question 60

NSAIDS help with pain that is associated with…

Answer 60

Arthritic disorders like rheumatoid arthritis, juvenile arthritis, ankylosing spondylitis, and osteoarthritis

Question 61

NSAIDS mechanisms of action

Answer 61

Inhibit cyclooxygenase thus blocking inflammation

Blocking the chemical activity of the enzyme Cyclooxygenase

Question 62

NSAIDS inhibit which pathways?

Answer 62

Leukotriene pathway, prostaglandin pathway or both

Question 63

What is the drug of choice for mild to moderate pain, inflammation and fever

Answer 63

NSAIDS

Question 64

Ibuprofen (Advil, Motrin) Action

Answer 64

Inhibits cyclooxygenase-1 and cyclooxygenase-2 thus decreases inflammation

Question 65

Ibuprofen (Advil, Motrin) Dosage

Answer 65

Administered orally

200-400mg PO q6h

Question 66

Ibuprofen (Advil, Motrin) uses

Answer 66

Mild to moderate pain in acute or chronic disorder

Question 67

Ibuprofen (Advil, Motrin) Adverse effects

Answer 67

Headache
Dizziness
GI upset
Nephrotoxicity

Question 68

NSAIDS Contraindications

Answer 68

Known drug allergy
Conditions that place the patient at risk for bleeding
Rhinitis
Vitamin K deficiency 
Peptic ulcer disease

Question 69

NSAIDS Adverse effects

Answer 69

Heartburn to severe GI bleeding
Acute kidney injury
Noncardiogenic pulmonary edema
Altered hemostasis
hepatotoxicity
Skin eruption, sensitivity hearing
Tinnitus, hearing loss

Question 70

NSAIDS nursing considerations

Answer 70

Take with food or milk
Avoid alcohol
Assess for bleeding disorders/ GI bleed
Obtain baseline liver and renal function tests
Do not give to children
Consult with health care provider before taking herbal products

Question 71

Use NSAIDS with care in which clients

Answer 71

Clients with alcoholism, CHF, Renal disease, hypertension, and fluid retention

Question 72

How long does it take NSAIDS to reach optimal effects

Answer 72

1-3 weeks

Question 73

Heatstroke

Answer 73

Potentially lethal result of an overstressed thermoregulatory centre

Question 74

What temperatures can the brain not tolerate

Answer 74

40.5 degrees C and over

Question 75

What happens when the body’s temperature exceeds 40 degrees C?

Answer 75

Regulatory centre stops functioning and the body’s heat loss mechanism fails
Cardiovascular and thermoregulatory centres may stop functioning

Question 76

Causes of heatstroke

Answer 76

Exertion
Overexposure to heat
Impaired physiological mechanism for heat loss

Question 77

Heatstroke Symptoms

Answer 77

High core temperature
Absence of sweating
Tachycardia
Confusion
Agitation
Coma

Question 78

Heatstroke Complications

Answer 78

Cerebral edema
Degeneration of the CNS
Swollen dendrites
Renal tubular necrosis
Hepatic failure
Death

Question 79

Heat Cramps

Answer 79

Severe spasmodic cramps in the abdomen and extremities

Following prolonged sweating and associated sodium loss

Question 80

Who are heat cramps more common in

Answer 80

Individuals not accustomed to heat or those performing strenuous work in warm climates

Question 81

Symptoms of heat cramps

Answer 81

Fever
Rapid pulse
Increased BP

Question 82

Heat exhaustion

Answer 82

Result of prolonged high core temperatures

Profound vasodilation and profuse sweating

Question 83

Manifestations of Heat Exhaustion

Answer 83

Dizziness
Weakness
Nausea
Confusion
Syncope

Question 84

Malignant Hyperthermia

Answer 84

A potentially lethal hypermetabolic complication of a rare inherited muscle disorder that may be triggered by inhaled anaesthetics & depolarizing muscle relaxants.

Question 85

What happens to the muscles in malignant hyperthermia

Answer 85

Muscle cells have an unregulated accumulation of calcium
Muscles contract and stiffen at the same time
Uncoordinated muscle contractions

Question 86

Symptoms of Malignant hyperthermia

Answer 86

Absent reflexes
Fixed pupils
Apnea
Flat ECG

Question 87

Risk factors for malignant hyperthermia

Answer 87

Genetic
History of heat stroke or hyperthermia after exercise
Muscle abnormalities that may be associated with malignant hyperthermia

Question 88

Diagnosis Malignant hyperthermia

Answer 88

Genetic testing

Muscle biopsy

Question 89

Expected duration of malignant hyperthermia

Answer 89

With timely treatment resolution of symptoms should occur within 12-24 hours

Question 90

Clinical manifestations of Malignant hyperthermia

Answer 90

Altered calcium function in muscle cells with hyper metabolism
Hyperthermia
Uncoordinated muscle contractions
Increased muscle work
Increased oxygen consumption
Raised level of lactic acid production
Acidosis
Rapid or painful muscles, especially in jaw
Sweating
Tachycardia
Tachypnea
Brown coloured urine
Shock

Question 91

Malignant hyperthermia treatment

Answer 91

Stop giving triggering medication
Administer Dantrolene (Dantrium)
Lower body temperature
Administer oxygen
Medicate to control heartbeat, BP and correct electrolyte imbalances

Question 92

Use of Dantrolene (Dantrium)

Answer 92

Relaxes muscles and stops the increase in muscle metabolism

Given IV until stability is achieved, then continued PO for 3 days

Question 93

Intervention strategies for hyperthermia

Answer 93

Remove excess clothing and blankets
Provide external cool packs
Provide a cooling blanket
Hydrate with cool fluids
Lavage with cool fluids
Administer antipyretic drug therapy

Question 94

Hypothermia

Answer 94

When body temperature falls below acceptable levels

Question 95

How does the body prevent Hypothermia

Answer 95

heat-loss centre is inhibited and heat gain centre is activated

Question 96

Steps of heat gain centre

Answer 96

1. Stimulate vasometer centre
2. Shivering thermogenesis
3. Nonshivering thermogenesis

Question 97

Stimulation of gasometer centre does what

Answer 97

Constricts peripheral blood vessels, reducing heat loss by radiation, convection and conduction

Question 98

Shivering thermogenesis does what

Answer 98

Activates brief contractions of skeletal muscles

Question 99

Nonshivering thermogenesis is stimulated how

Answer 99

Hormonally

Thyroid hormones and epinephrine increases metabolic activity of all tissues

Question 100

Hypothermia produces

Answer 100

Ice crystals, which form inside the cells, causing them to rupture and die

Question 101

Tissue hypothermia

Answer 101

Slows the rate of cellular metabolism
Increases blood viscosity and slows blood through the microcirculation
Facilitates blood coagulation and stimulates vasoconstriction

Question 102

Hypothermia Response Mechanisms

Answer 102

Peripheral vasoconstriction
Intermittent repurfusion of extremities
shivering
Stupor

Question 103

Peripheral Vasoconstriction

Answer 103

Shunts blood away from cooler skin to core to decrease heat loss and produces peripheral tissue ischemia

Question 104

Intermittent reperfusion of extremities (Lewis Phenomenon)

Answer 104

Helps preserve peripheral oxygenation until core temps drop dramatically

Question 105

Shivering

Answer 105

Induced by the hypothalamic centre
Thinking becomes sluggish
Coordination is depressed

Question 106

Stupor

Answer 106

Heart & respiratory rate decline
Cardiac output diminishes
Metabolic rate falls
Acidosis
Eventually V fib & asystole occur at 30 degrees C

Question 107

Therapeutic Hypothermia

Answer 107

Used to slow metabolism and preserve ischemic tissue during surgery or limb re-implantation
May lead to ventricular fibrillation and cardiac arrest

Question 108

Accidental Hypothermia

Answer 108

Commonly the result of sudden immersion in cold water or prolonged exposure to cold

Question 109

Hypothermia Risk factors

Answer 109

Hypothyroidism
Hypopitutarism
Malnutrition
Parkinson's Disease
Rheumatoid arthritis
Chronic increased vasodilation
Failure of thermoregulatory control resulting from cerebral injury, ketoacidosis, uremia, sepsis, and drug overdose

Question 110

Hypothermia treatment

Answer 110

Reversible with rewarming

Question 111

Hypothermic Injuries

Answer 111

Frost nip
Chilblains
Frostbite
Flash freeze

Question 112

Frostnip

Answer 112

Mild and completely reversible injury characterized by skin pallor and numbness

Question 113

Chilblains

Answer 113

More serious than frosting; violaceous skin colour with plaques or nodules, pain, and pruritus, but no ice crystal formation; chronic vasculitis can develop and is usually located on the face, anterior lower leg, hands, and feet

Question 114

Frostbite

Answer 114

Tissues freeze and form ice crystals at temperature less than -2 degrees C progresses from distal to proximal and potentially reversible

Question 115

Flash Freeze

Answer 115

Rapid cooling with intracellelular ice crystals associated with contact with cold metals or volatile liquids

Question 116

What happens to frozen skin?

Answer 116

Becomes white or yellowish, has a waxy texture

Question 117

What parts of the body does frostbite commonly affect

Answer 117

Fingers, toes, ears, nose and cheeks

Question 118

First degree frost bite

Answer 118

Partial skin freezing

Question 119

Second degree Frost bite

Answer 119

Full thickness skin freezing

Question 120

Third degree Frost bite

Answer 120

Full thickness & subcutaneous freezing

Question 121

Fourth degree frost bite

Answer 121

Deep tissue freezing

Question 122

Intervention strategies for hypothermia

Answer 122

Remove person from cold
Provide external warming measures
Provide internal warming measures

Question 123

Safety tip for core warming

Answer 123

Core rewarming must be done slowly to minimize the risk for dysthymias. Cardiac monitoring is required when the patient is recovering from severe hypothermia.

Question 124

CNS trauma leads to…

Answer 124

Central fever
Inflammation, increased ICP, inter cranial bleeding
Does not induce sweating
Resistant to antipyretic therapy

Question 125

Central fever

Answer 125

Sustained noninfectious fever
Appears with or without bradycardia
Caused by major body trauma
Does not induce sweating
Resistant to antipyretic therapy