Common Cold - Patient Education PDF

Summary

This document provides an overview of the common cold, including its symptoms, causes, and treatment options. It covers various aspects such as the mechanism of infection, different types of infections, diagnosis, and treatment plans. There are discussions on non-pharmacological and pharmacological treatments, preventive measures, and special considerations for children and other susceptible populations.

Full Transcript

Community Pharmacy
Dr. Sara Youssif
MSc, PhD, BCPS 1
 An upper respiratory tract
infection is any infection that
involves the nasal
cavity, paranasal
sinuses, pharynx, or larynx.

It’s most often caused by an
invading pathogen like a virus.
 Over 200 virus strains are implicated in
causing the common cold, with rhinoviruses
(30–80%), coronaviruses(≈ 15%), influenza
viruses (10–15%),
adenoviruses and enteroviruses being the
most common.
 Getting chilled or wet will not cause a cold.
 Viruses cause colds, However, severe
exposure leading to significant reduction of
body temperature (hypothermia) may put one
at a greater risk for the common cold.
 Colds are more common in winter because
cold temperature-induced changes in the
respiratory system, decreased immune
response, and low humidity causing an
increase in viral transmission rates, perhaps
due to dry air allowing small viral droplets to
disperse farther and stay in the air longer.
 Children’s noses have been called , the chief
reservoirs for infectious rhinoviruses.
 Preschoolers have the most colds (between 6
and 10 per year).
 Normal defense mechanism of
the respiratory system
When you breathe in, air flows
through the nostrils and enters
the nasal cavity, which is lined by
cells that release mucus.

That mucus is salty, sticky, and
contains lysozymes, which are
enzymes that help kill bacteria.

Nose hairs at the entrance of
the nasal cavity get coated with
that mucus and are able to trap
large particles of dust and pollen
as well as bacteria.
 The nasal cavity is connected to four
sinuses which are air- filled spaces
inside the bones that surround the
nose, there’s the frontal, ethmoid,
sphenoid, and maxillary sinus (the
largest one).

The paranasal sinuses help the
inspired air to circulate for a bit so
it has time to get warm and moist.

The paranasal sinuses also act like
tiny echo-chambers that help
amplify the sound of your voice,
which is why you sound so different
when they’re clogged with mucus
during a cold!
 At each side of the back of the throat,
there is the pair of tonsils, which are
small clumps of lymphoid tissue that act
as the body's first line of defense
that swallow viruses and bacteria that
enter through the mouth or nose.

The lower part of the pharynx is
continuous with the larynx or the voice
box.

At the top of the larynx sits a spoon-
shaped flap of cartilage called the
epiglottis which acts like a lid that seals
the airway off when you’re eating, so
that the food can only go one way -
down the esophagus and towards the
stomach.
 when an infected person
How do sneezes or
you get infected? How do you got infected?
coughs, they spread thousands of
droplets containing these
pathogens into the local area, up to
about two meters away.

These droplets can then land in the
mouths or noses of people nearby, or
get inhaled into the upper airways.

Most of these viruses or bacteria
can also survive on surfaces for a
few hours, so it’s possible to get
them by touching a surface and then
touching your own eyes, nose, or
mouth.
 Usually, even when a pathogen gets in,
your body can protect itself, but
sometimes, pathogen succeeds in
colonizing our upper airways and when
that happens - You’ve got an infection!

These infectious little pathogens
typically jump inside the cells lining the
airways, multiply and cross over to the
underlying tissue, creating an
inflammatory response.

When that happens, goblet cells and
sub-mucosal glands in the airways start
to produce a lot of mucus in order to
try to trap and eventually expel these
pathogens.
 In severe situations, the pathogens
might result in lots of white blood cells
coming over to fight off these
pathogens.

The battle result in formation of pus (a
mixture of pathogens, immune cells,
and dead tissue and a whole lot of
inflammatory signaling molecules,
called cytokines).

These cytokines can then spill into the
systemic circulation and reach the
brain, telling it to rise the body’s
temperature in order to make it a less
friendly place for those pathogens to
reproduce.
 Types of upper respiratory tract
there are many different types of upper infections
respiratory tract infections, depending on
the part of the tract that’s involved.

1) Rhinitis, “rhino-“ means nose, so the
infection is inside the nasal cavity.

Usually it’s caused by viruses responsible
for the common cold or flu, and the most
common is rhinovirus, influenza virus,
respiratory syncytial virus (RSV ),
parainfluenza virus, and adenovirus.

When rhinitis is caused by bacteria, like
Streptococcus pneumoniae, Haemophilus
influenzae, and Moraxella catarrhalis, and
Staphylococcus aureus.
2) These bacteria often spread to the
surrounding sinuses, causing rhino
sinusitis - infection in both the nose
and sinuses.

In individuals that are
immunocompromised, like those
taking chemotherapy, rhino sinusitis
can be caused by fungi, like
Aspergillus.
3) Pharyngitis : infection of the pharynx
or throat, which can develop if a virus like
rhinovirus, and coronavirus decide to move
beyond the nose, and travel down into the
pharynx.

There are some viruses and bacteria
that largely bypass the nose and just
attack the pharynx as ebstein barr
virus (EBV).

Some bacteria, like Group A
Streptococcus, can also cause
pharyngitis and that’s called “strep
throat”.

4) Also, if the infection spreads to involve
the tonsils, it’s called tonsillitis.
5) Laryngitis, infection of the last part of the
upper respiratory tract (the larynx).

The most common is viral laryngitis, caused by
the usual viruses that cause the common cold and
flu.

There’s also bacterial laryngitis, caused by
Group A streptococcus, Streptococcus
pneumoniae, or Haemophilus influenzae.

6) These bacteria, and particularly Haemophilus
influenzae, have a special preference for the
superior portion of the larynx and the epiglottis,
causing epiglottitis.

However, the vaccine for Haemophilus influenzae
type b has made that disease much less
common.
 Non-specific symptoms that can go along with
many of the infections include fatigue, loss of Symptoms
appetite, and fevers.

Rhinitis causes a runny or stuffy nose and
sneezing.
Rhino sinusitis causes pain or pressure on the
face near the infected sinus and a change in the
voice.

Pharyngitis will cause a sore throat.
tonsillitis will cause painful, swollen tonsils,
both of which can make it hurt to swallow.

Laryngitis will cause a hoarse voice and dry
cough.

Finally, there’s epiglottitis, which can cause
trouble breathing, and it’s a serious emergency
because a serious infection can block the airway.
 Diagnosis of the Common Cold
1. Clinical diagnosis:
Most common method; based on history, presence of
symptoms, and physical examination.

2.Radiographic studies:
Useful for assessing complications such as pneumonia.

3. Laboratory studies:
 Rapid viral antigen tests and nasopharyngeal cultures helpful
for epidemiology and diagnosis in acute cases.
 1. Nature and Severity

 Patients with cold may complain of nasal
congestion or nasal discharge
(rhinorrhoea), a sore throat, cough,
headache, or other symptoms.
 The color of these secretions may be
helpful when other symptoms are present.
 Headache or facial tenderness and
aching over and under the eyes
Sinusitis.
2. Onset & Duration
Symptoms of common cold usually
lasts about one week, may persist
for 2-3 weeks.
If Cough >3 weeks (without
improvement) referral to
exclude any chronic condition.
Long-standing recurrent cough (since
childhood) may indicate chronic
lung disorder (e.g. Asthma /COPD).
3. Accompanying Symptoms

If there is sputum, its nature may be
helpful in deciding management.
 Clear white sputum  allergy or
viral infection.
 Brown/green sputum  chest
bacterial infection.
 Blood-stained sputum  referral
 Possible Complications
1- Colds are the most common trigger of asthma
symptoms in children with asthma.

2- 2ry bacterial infection; especially in:
 Extremities of age,
 Immunocompromised,
 Chronic heart, lung, kidney & liver patients.
 2ry bacterial infections include:
1- Acute otitis media
2- Pneumonia
3- Acute Sinusitis
Trigger points indicative of referral in
common cold
 Similarities and
Differences between
Flu & Common Cold
Treatment
 Treatment

Preventive Non-
measures for Pharmacological
Pharmacological
spreading cold Treatment Treatment
 How to Prevent the Common Cold?
It is impossible to completely prevent the
spread of the common cold viruses.
But by following these steps you can reduce
your chances of becoming infected with this
virus.
These steps are:
1) Wash hands frequently.
2) Disinfect contaminated objects and surfaces.
3) Avoid touching your face.
4) Always cover mouth & nose when sneezing or
coughing.
5) Isolate yourself until symptoms have passed.
1-Nonpharmacological treatment
 Home remedies

1) Steam inhalation
2) Warm salt water gargle
3) Peppermint or ginger tea
4) Honey + fresh ginger
5) Vegetable or chicken soup
6) Adequate rest / sleep
7) Hot bath
2- Pharmacological Treatment
 2- Pharmacological
Treatment

 Most episodes are self-
limited, resolve without
prescription drugs.

 Antibacterial therapy is
ONLY appropriate for
bacterial complications as
bacterial sinusitis or otitis
media.
2- Pharmacological
Treatment
OTC medications include

1-Decongestants
2-Anti-histamines
3-Analgesic , antipyretics
 1- Decongestants
(sympathomimetics)
 Indication: nasal congestion.
 Dosage form: oral, topical (drops, spray &
inhalers).
 Mechanism of action: α-adrenergic
stimulation leading to vasoconstriction of
blood vessels in nasal mucosa resulting in:
1- Decrease blood flow to nasal mucosa thus
decrease mucosal edema.

2- Widen up narrowed nasal passages with
improved drainage & air circulation.
 Examples of decongestants

 Topical: - Phenylephrine (Vibrocil) - Xylometazoline (Otrivin drops & spray ) or
- Oxymetazoline (Afrin drops & spray) both with longer lasting effect (>6 hrs) than
Phenylephrine.
 Sprays are preferable over drops in adults & children >6 yrs as they carry smaller
droplets that can reach a larger surface area & also drops are easily swallowed with
higher risk of adverse effects.
 Oral: - Phenylephrine (Rhinopro syrup).
- Pseudoephedrine with longer duration of action (Sudophine syrup & decongess cap).
Adverse effects of decongestants

CNS: anxiety , insomnia, nervousness,
tension & tremors.
CVS: tachycardia & raised B.P.
Local: burning of nasal mucosa only from
drops & spray, managed by normal saline
irrigation.
Pseudoephedrine is a stereoisomer of
ephedrine that is less potent in producing
CVS & CNS adverse events.
 Decongestants use with caution
Oral forms are used with great caution in patients
with:
1) HTN.
2) Prostatic enlargement: may cause or worsen urination
difficulty due to Smooth muscle contraction in bladder
neck via stimulation of α-1 receptors.
3) DM:
Increase glycogenolysis in liver, stimulate glucagon
release.
Decrease insulin release.
Dose of insulin may have to be increased.
4) Active hyperthyroidism: exaggerated restlessness and
stimulation of the heart rate.
 Contraindications of
decongestants
Oral forms are contraindicated in patients:
1- taking drugs that inhibit monoamine oxidase enzyme
inhibitors (MAOIs),( e.g., selegiline, moclobemide:
;prescribed for Parkinson’s & depression disease ).
Sympathomimetics + MAOIs: hypertensive crisis & death
(up to 2 wks of stopping MAOIs)

2- With uncontrolled HTN or ischemic heart disease.

3-Taking nonselective β blockers (e.g., propranolol, used
for ttt of HTN): as β blockers enhance effect of oral
decongestants lead to severe HTN and cerebral
hemorrhage.
 Alternative in these kind of patients

 Saline nasal drops.
 Levomethamphetamine
(Vicks Vapor Inhaler)
 Local decongestants.
 2- Antihistamines
Mechanism of action:
H1-R blockers, however used mainly for their week
anticholinergic action.

Indications:
 Rhinorrhea, sneezing, nonproductive cough.
 Only 1st generation members (as chlorpheniramine &
diphenhydramine) are appropriate for management of
these symptoms, as 2nd generation members (as
loratidine, fexofenadine, cetirizine) have very limited
anticholinergic activity.
 2- Antihistamines side effects
(children & geriatrics are more susceptible)

 Anticholinergic: dry (cotton) mouth (Xerostomia), difficulty in
urination, constipation, blurred vision, irritability, dizziness
(not observed with 2nd generation).
 CNS: Sedative (chlorpheniramine is the least sedative among
1st generation), dizziness, tinnitus, incoordination, fatigue,
euphoria, nervousness, and tremors (CNS effects are less
common with 2nd generation which don’t readily enter CNS)
 GIT: loss of appetite, nausea, vomiting, epigastric distress
that is reduced by taking the drug with meals.
 2- Antihistamines- contraindications

 +MAOIs: can exacerbate anticholinergic effects of
antihistamines.
 Narrow/closed angle glaucoma: increase intraocular
pressure.
 Prostatic hypertrophy: cause urinary retention.
 + Alcohol or other CNS depressants as benzodiazepines,
barbiturates (used as anxiolytics & antiepileptics): additive
CNs suppression effect.
2- Antihistamines in pregnancy & lactation

 1st generation has possible teratogenic
effects on fetus & symptomatic effects
on infants owing to secretion into breast
milk.
 Of 1st generation: diphenhydramine can
be used safely in pregnant (but not
breast-feeding).
 Cetirizine and loratadine are safe
in pregnancy & lactation.
 2- Antihistamines drug interactions

 Many 1st generation antihistamines are metabolized
by CYP enzymes.

 Thus, inhibitors of CYP activity as macrolide
antibiotics (e.g., azithromycin) or imidazole
antifungals (e.g., ketoconazole) can increase
antihistamine levels, leading to toxicity.

 Many newer antihistamines, as cetirizine,
fexofenadine, levocabastine, and acrivastine, are
not subjected to these drug interactions.
 3- Analgesics
 Indication: sore throat, myalgia,
headache.
 e.g. acetaminophen, ibuprofen,
naproxen.
 Patients with aspirin allergy and
those with active ulcers may not be
candidates for aspirin or related
nonsteroidal anti- inflammatory drugs
(NSAIDs).
 Acetaminophen is generally preferred.
 4- Complementary therapy
1 - Zinc: (weak evidence)
If Taken for > 5 days in a season: may reduce risk
of catching common cold.
If Taken within 24-48 hrs of 1st feel sick: may
make cold symptoms less severe and help them
go away faster.
2- Vitamin C: (week evidence)
A popular remedy for common cold.
Research shows it does not prevent colds, but
people who take vitamin C regularly may have
slightly shorter colds and milder symptoms.
 Major Counseling points

Topical decongestant should be
taken only for 3-5 days as it may
cause rebound congestion due to:
1. Receptor desensitization.
2. Damage to the nasal mucosa : local
endothelial α2 Rs stimulation may
mediate contraction of arterioles
that supply nutrition to nasal
mucosa causing their death (rhinitis
medicamentosa).
 Major Counseling points

 Selective α1 agonists (phenylephrine) are less
likely to induce mucosal damage.

 Management of rhinitis medicamentosa
 slowly withdraw topical decongestant & use
saline nasal drops, Vicks Vapor Inhaler or an
oral decongestant if tolerable.
 With antihistamines, avoid driving or
operating heavy machinery until one can
identify how he/she will react (administrated
at night).
 Common Cold
Patient Education
 Common cold in pediatrics
The Food and Drug Administration (FDA) doesn’t
recommend OTC medications for cough and cold symptoms in
children younger than 2 years because these medications
could cause serious and potentially life threatening side
effects.
You may be able to help ease a child’s cold symptoms with
these home remedies:
1) Rest: Children who have a cold may be more tired and
irritable than normal. If possible, let them stay home from
school and rest until the cold has covered.
2) Hydration: It’s very important that children with a cold get
plenty of fluids. Colds can dehydrate them quickly. Water
and warm drinks like tea is great.
3) Food: Kids with a cold may not feel as hungry as usual, so
look for ways to give them calories and fluids. Smoothies
and soups are two good options.
 Common cold in pediatrics

 Decongestant, antihistamines are not
recommended under 6 yrs.
 Drops are preferred over spray as
nostrils are not sufficiently wide
enough for effective use of
sprays.
 Bulb syringe: Nasal suctioning
with a bulb syringe works well to
clear babies‘ nasal passages.
 Common cold in pediatrics
When to refer ?
1) Infant < 9 months.
2) Those who cannot feed or
refuse to eat because of severe nasal
congestion.
3) Vomiting, breathing
difficulty, noisy breathing or ear ache.
4) Symptoms of a cold after
receiving immunization.
5) Persistent night-time cough.
 Flu vaccination
Pharmacists should encourage those in at-risk groups to have an
annual flu vaccination.
Vaccination should be given to:
- All patients over 65 years.
- Chronic respiratory disease (including asthma),
- Chronic heart disease
- Chronic renal failure
- Patients with diabetes mellitus
- Immunosuppression due to disease or treatment.
It's usually best for people to get the flu vaccine in September
and October.