Wk 1 Allergy & Respiratory Meds PPT

Question 1

Respiratory defined

Answer 1

The upper respiratory system is a passageway for air to move through as it travels into lower structures of the system. It also filters and humidifies air that is inhaled.
The function of the lower respiratory system is to exchange oxygen and carbon dioxide between the alveoli and the blood.
The respiratory system is a primary regulator of the acid-base (pH) balance in the body.
Diseases such as asthma, chronic bronchitis, emphysema, lung cancer, or infections such as the common cold or pneumonia will directly affect the functioning of the respiratory system.

Question 2

Histamine

Chemical released from mast cells & basophils after an injury or an allergic reaction

Answer 2

Chemical released from mast cells & basophils after an injury or an allergic reaction

Action

• causes inflammatory response
• produces capillary dilation with increased blood flow
• fluid escapes in tissues
• bronchi and other smooth muscle contracts

Symptoms
-Redness, edema, nasal drainage, bronchial constriction (may be severe).

Question 3

Antihistamine Drugs
Action
Uses
Adverse Reactions
Over dosage
Implementation

Answer 3

Action - Block receptors, Inhibit, Sedative
Uses- Allergic disorders
Adverse Reactions- Severe anticholinergic symptoms
Over dosage- Fatal in Children
Implementation- Drowsiness, Tolerance, Rebound effect, Elderly & Children

Question 4

Antihistamine Drugs
Action for
-diphenhydramine HCL (Benadryl)
-fexofenadine (Allegra)

Answer 4

diphenhydramine HCL (Benadryl)
fexofenadine (Allegra)
Action
Block action of histamine by competing with it for the H1 receptor sites on the effector structures (such as respiratory mucosal glands and salivary glands)
Inhibit the release of acetylcholine which produce an anticholinergic (drying) effect.
Sedative effect on CNS

Question 5

Antihistamines uses

Answer 5

Uses

• Season rhinitis (SAR), hay fever
• Perennial allergic rhinitis (PAR)
• Allergic disorders
• -urticaria (hives
• -serum sickness (motion sickness)
• -reactions to blood or plasma
• -anaphylactic shock

Question 6

Antihistamines adverse reaction and overdose

Answer 6

Adverse Reactions
Hypertension, hypotension, tachycardia, drowsiness, excitation, restlessness, sedation, blurred vision, confusion, dizziness, tinnitus, anorexia

Overdosage
fatal in children
this occurs when the CNS is being stimulated and depressed at the same time

Question 7

Antihistamines

implementation

Answer 7

Implementation
Take only as needed

Drowsiness (safety)

Oral dose with meals or milk

Tolerance develops, change to another med

Rebound effect (increased in symptoms) can occur with long term use of nasal preparations

Decrease dose in elderly and children due to an increase in sensitivity to anticholinergic effect

Question 8

Leukotriene Receptor Inhibitorsor Leukotriene Modifiers
montelukast sodium (Singulair)
action
use

Answer 8

montelukast sodium (Singulair)
Action-
-Not a bronchodilator 
-Block receptors for leukotrienes (constrict bronchi, increase vascular permeability, & increase mucous secretion) bound to the amino acid, cysteine 
-Reduce symptoms of asthma

Use-
Used to treat chronic asthma but does not work on an asthma attack. Can also be used during acute attacks, although they will not reverse bronchospasm

Question 9

Decongestants
ACTION
USE
ADVERSE REACTION

Answer 9

ACTION- Affect the alpha receptors of blood vessels in the nasal mucosa, causing vasoconstriction (< blood flow, < fluid exudation, < mucosal edema)

USE- Relieve nasal congestion in allergies, and upper respiratory tract infections (URTIs), and ear infections

ADVERSE REACTION- Rebound congestion (with long term use), tachycardia, dizziness, nausea

Question 10

Decongestants

Contraindications

Answer 10

Use with Caution- Patients with hypertension, dysrhythmias, heart disease, angina, hyperthyroidism, glaucoma

Nursing Implications- Oral route is more effective
Watch for rebound congestion
If headache or nervousness occur stop medication and contact your health care provider

Question 11

Corticosteriods
ACTION
USE

Answer 11

Action-
Block the reaction to allergens and reduce airway hyperresponsiveness. (anti-inflammatory effect). DO NOT CAUSE BRONCHO DILATION.

Use-
Inhaled meds
--fluticasone (Flovent) 
--Long-term control of asthma 
--To decrease the need for oral corticosteriods
--not to be used as a rescue inhaler

Systemic meds

• -Prednisone
• -To gain control when initiating long-term therapy
• -Treat moderate-severe exacerbation of asthma

Question 12

Corticosteriods

Adverse reactions

Answer 12

Adverse reactions 
Cough
Dysphonia (hoarseness)
Oral thrush
High doses can have systemic effects such as slowing of growth in children and osteoporosis in adults 
Impaired glucose metabolism 
Increased appetite 
Weight gain
Mood swings
Peptic ulcer 
Fluid retention

Question 13

Topical Intranasal Steroids
fluticasone (Flonase)
ACTION
USE

Answer 13

fluticasone (Flonase)
Action
-Anti-inflammatory effect which decreases local congestion (not immediate, takes time to work)

Use
-Allergic , mechanical, or chemically induced local nasal inflammation or nasal polyps when the more usual treatment has been tried and found to not work

Question 14

Topical Intranasal Steroids

Adverse Reactions

Answer 14

Adverse Reactions-
Headache
Light-headedness
Loss of sense of smell
Nasal irritation and dryness
Nosebleeds 
--These drugs may decrease resistance to infection, as well as mask some common signs of infection

Question 15

Topical Intranasal Steroids

Nursing implications

Answer 15

Nursing implications-
Monitor dosage
Use smallest effective dose
When stopping this drug, the dose needs to be slowly tapered
Watch for reduction in nasal stuffiness, obstruction, and discharge
Watch for cracked or bleeding nasal mucosa
Watch for adverse reactions such as signs of systemic absorption and fluid retention (↑ blood pressure, weight gain, ankle edema, or evidence of local infection

Question 16

Asthma

Overview

Answer 16

Condition in which there is increased inflammation and mucus production leading to bronchiolar collapse

airway narrows and air becomes trapped in the lung

Wheezes occurs when air is forced out through narrow passages

caused by a variety of factors

stepwise plan for using asthma drugs is utilized

early use of inhaled antiinflammatory drugs

Question 17

Asthma Medications

Prophylaxis

Answer 17

Prophylaxis-
Mast cell stabilizers 
Cromolyn sodium 
Prevent allergy symptoms
Not for an acute attack as they have no antihistamine, antiinflammaroty or bronchodilator activity
Prevention of reoccurring episodes

Question 18

Asthma Medications

Acute Treatment

Answer 18

Acute Treatment-
Bronchodilators
SABAs (short acting beta 2 agonist)
LABAs (long acting beta 2 agonist)
Cholinergic antagonists
Anti-inflammatory meds  
Leukotriene receptor inhibitors
Corticosteroids

Question 19

Bronchodilators
SABAs?
LABAs?
Cholinergic Antagonists?

Answer 19

SABAs
albuterol
- caused bronchodilation. Binds B2 adrenergic receptors
-used for acute attack
LABAs
salmaterol (Serevent)
- causes bronchodilation. Binds B2 adrenegic receptors. Smooth muscle relaxation to bronchioles. Prevention NOT RESCUE

Cholinergic Antagonists
ipratropium (Atrovent)
tiotropium (Spiriva)
- Causes bronchodilation. Prevents nervous system from releasing acetylcholine, allowing boy’s adrenaline to activate beta 2 receptors in bronchial smooth muscle. controller drug

Question 20

Bronchodilators

Sympathomimetics

Answer 20

Sympathomimetics
==albuterol (Ventolin, Proventil)
==epinephrine (Adrenalin)
-Relax smooth muscle cells of the bronchi by simulating the beta 2- adrenergic receptors
-Stimulate the alpha-adrenergic receptors which produces vasoconstriction resulting in less mucosal and submucosal edema
-Some stimulate the beta 1 receptors (which ↑ heart rate) those that only act on the beta 2 receptors have fewer side effects

Question 21

Bronchodilators

Xanthine Derivatives

Answer 21

Xanthine Derivatives
==aminophylline
==theophylline
-Relax smooth muscle in the bronchi and blood vessels in the lungs
–Act directly on the kidneys
–Produce diuresis
–Increase heart rate and respiratory rate
–CNS effects
–monitor blood levels to make sure it is theraputic
–therapy for acute or chronic asthma

Question 22

Bronchodilators

Interventions

Answer 22

Interventions

• Measure blood levels of theophylline (monitor for s/s of toxicity tachycardia, N/V, dizziness, seizures
• Children under 9 yrs of age require a larger dose
• Absorption rates is dependent upon form of medication used (liquid/uncoated tablets/enteric-coated)
• Take with meals or large glass of water to ↓ GI upset
• Avoid caffeinated beverages (these will ↑ CNS stimulation)
• Teach use of inhalers

Question 23

Mucolytics or Expectorants
guaifenesin (Robitussin, Mucinex)
action
use
intervention

Answer 23

guaifenesin (Robitussin, Mucinex)
-Action
Decrease the thickness of respiratory secretions and aid in their removal by increasing the amount of fluid in the respiratory tract

-Use
Treat symptoms of productive cough
Chronic respiratory disease

-Interventions
Increase fluid intake
Provide humidified air

Question 24

Antitussives
ACTION
USE

Answer 24

Action-

• Act centrally on the cough center in the brain OR
• Act peripherally by anesthetizing stretch receptors in the respiratory tract OR
• Act locally, primarily by soothing irritated areas in the throat

Use -
-Relief of overactive or nonproductive coughs

Question 25

Antitussives
Narcotic Antitussives
Non-Narcotic Antitussives

Answer 25

Narcotic Antitussives=

• Contain codeine or hydrocodone (may suppress cough center in brain)
• Risk for addiction or tolerance
• May cause drowsiness
• May cause severe constipation

Non-Narcotic Antitussives =

• Tessalon Perles
• Robitussin
• Vicks Formula 44

Question 26

Levels of asthma severity

4

Answer 26

mild intermittent
mild persistent
moderate persistent
severe persistent

Question 27

Define allergy

Answer 27

excessive reaction that leads to an inflammatory response. Contact with such things as pollen, animal dander, food or dust. AKA hypersensitivity

Question 28

Define antihistamine

Answer 28

drugs that stop histamines from attaching to histamine receptors in tissues and producing inflammatory and allergic symptoms. Action counteracts the response of histamine in causing smooth muscle contraction and dilation and leakage of capillaries.

Question 29

Define antitussive

Answer 29

drugs that work to prevent and/or relieve coughing

Question 30

Define asthma controller drug

Answer 30

drugs that have main purpose of preventing an asthma attack. Must be taken daily. AKA prevention drugs

Question 31

Define asthma reliever drug

Answer 31

drugs that have main purpose of stopping an asthma attack once it has started. AKA rescue drugs

Question 32

Define bronchodilator

Answer 32

drugs that relax the airway smooth muscles allowing the lumen of the airways to widen

Question 33

Define cholinergic antagonist

Answer 33

Drugs that block the action of acetylcholine thereby inhibiting the parasympathetic NS response. AKA cholinergic blockers, parasypatholytic or anticholinergic drugs

Question 34

Define corticosteroid

Answer 34

drugs built on the structure of cholesterol that are able to prevent or limit inflammation and allergy by slowing or stopping production of the mediators histamine and leukotriene.

Question 35

Define decongestant

Answer 35

drugs that reduce the swelling of nasal passages by shrinking the small blood vessels in the nose, throat and sinuses so breathing is easier.

Question 36

Define leukotriene inhibitor

Answer 36

drugs that block the leukotriene response and lessen or prevent the symptoms of allergy and asthma

Question 37

Define long-acting beta-adrenergic agonist (LABA)

Answer 37

orally inhaled drugs that bind over time to beta2-adrenergic receptors and are used as asthma controller drugs that must be taken daily to prevent bronchospasms and asthma attacks even when symptoms.

Question 38

Define mast cell stabilizer (cromone)

Answer 38

drugs that work on the surface of mast cells and prevent them from opening to release the inflammatory mediators

Question 39

Define mucolytics

Answer 39

drugs that decrease the thickness of respiratory secretions and aid in their removal. AKA expectorants

Question 40

Define short-acting beta-adrenergic agonist (SABA)

Answer 40

orally inhaled drugs that bind rapidly to beta2-adrenergic receptors and can start smooth muscle relaxation within seconds to minutes. AKA asthma reliever or rescue drugs

Question 41

Define sympathomimetrics

Answer 41

drugs that mimic the sympathetic NS and have the same actions as the body’s own adrenaline. AKA beta and/or alpha adrenergic agonists