Lecture 11: Over The Counter Medication (Cough and Cold) Flashcards
What are the characteristics of the cough and cold medicine in the pharmacy?
despite the plethora of products, there are only a limited number of active ingredients approved for treatment of cold and flue symptoms (and available over-the-counter)
marketing of different products usually a reflection of dose (“severe”, “maximum strength”, “Children’s”), formulation (“liquid gels”), or simply emotion (“multi action”)
there are also a number of “Natural” or homeopathic remedies that are sold alongside “traditional” medicine
What symptoms do cough and cold medications treat?
commonly available over-the-counter cough and cold medications contain either singly or in combination a decongestant, cough suppressant, expectorant and/or antipyretic/analgesic
used to treat symptoms of upper respiratory infections (runny nose, congestion, cough and fever)
What is the cough reflex?
coughing is a reflex to clear the breathing passage of irritants, microbes, fluids, and mucus
it is a common symptom of upper respiratory tract viral infections
however, there are other causes of cough (e.g., bacterial infection) where suppression of cough may be inappropriate
important to identify the cause before treating the cough (and should treat the underlying cause)
What is the neural component of the cough reflex?
the coughing reflex is initiated by stimulation of sensory nerves innervating the throat and lungs
sensory neurons contain several receptors that detect irritants and inflammation (e.g., P2X3, TRPV1)
sensory neurons send this information to the nucleus tractus solitarus (nTS) in the brainstem medulla oblongata
efferent neurons via parasympathetic and motor nerves stimulate the diaphragm, intercostal muscles and lung to initiate a “noisy expiration” (i.e. cough)
What are antitussives?
OTC drug that inhibit the cough reflex (“antitussives”) do so mostly by inhibiting neurons in the nucleus tractus solitarus
despite the large number of OTC antitussive products on the market, there are only a few approved active ingredients (dextromethorphan, diphenhydramine, codeine)
many of these drugs are only moderately effective (at best!) at reducing cough in clinical trials
What are the mechanisms involved in codeine antitussives?
codeine is a mu opioid receptor agonist
mu opioid receptors are located in the nucleus tractus solitarus as well as peripheral nerves innervating the respiratory tract
opioid receptors are inhibitory G-protein coupled receptors (Gi-GPCR)
Gi-coupled GPCRs inhibit adenylase cyclase activity and reduce neuronal activity
activation of opioid receptors inhibit of calcium channels, activate of K+ channels and inhibit of adenylate cyclase –> neuronal inactivation and reduced transmitter release
What are the side effects of codeine antitussives?
opioid receptors are also located in brainstem regions that mediate breathing reflex (preBotzinger complex in the medulla oblongata)
high dose opioids inhibit breathing reflex and can lead to death (opioid overdose deaths)
not recommended for those under 18 (children more susceptible to respiratory depression)
low dose codeine (<8mg) is available OTC mixed with other ingredients like acetaminophen (e.g., Tylenol 1s)
due to the growing opioid overdose epidemic, Heath Canada was preparing to move codeine to prescription status, but based on public feedback, they have decided not to pursue this amendment
What are the mechanisms involved in dextromethorphan antitussives?
dextromethorphan is a centrally active NMDA receptor antagonist
the NMDA receptor is a ligand gated ion channel gated by glutamate (excitatory)
like codeine, inhibits neurons in the nucleus tractus solitarus
despite being one of the most common OTC cough remedies, not all that effective at treating cough
What are the mechanisms involved in diphenhydramine antitussives?
diphenhydramine is an antihistamine (H1 inverse agonist)
an inverse agonist is a drug that suppresses endogenous receptor signaling; an inverse agonist will behave as an antagonist in the presence of an agonist
H1 receptors are Gq coupled GPCRs, located on respiratory smooth muscles, stimulates sensory nerves producing coughing; diphenhydramine inhibits histamine action at these receptors
diphenhydramine also crosses the blood brain barrier to suppress neurons in the nucleus tractus solitarus
How does honey work as an antitussive?
one of the most effective non-prescription treatments of cough is from the grocery store, not pharmacy
children’s cough assessed on first night (no treatment) and second night (with treatment)
cough improved from first night to second night, regardless of treatment
honey was significantly better than no treatment
dextromethorphan (DM) was not significantly better than no treatment
What is the mechanism underlying congestion?
nasal congestion due to swelling (edema) of the nasal mucosa, and edema caused by vasodilation
sympathetic nervous system controls vascular tone
alpha 1 adrenergic receptors, alpha 2 adrenergic receptors, beta adrenergic receptors
What are alpha 1 adrenergic receptors?
are located on vascular arterioles and activation leads to vasoconstriction
are Gq coupled GPCRs
What are alpha 2 adrenergic receptors?
are located on vascular arterioles and veins, as well as broadly throughout the central and peripheral nervous system (e.g., side effects)
are Gi coupled receptors
What are beta adrenergic receptors?
located on bronchioles (smooth muscle relaxation) and in the heart (increase cardiac output)
are Gs coupled GPCRs
How do both alpha 1 receptors and alpha 2 receptors lead to smooth muscle contraction?
for alpha 1, activation of Gq proteins increase PLC and IP3 pathways; this stimulates release of calcium and smooth muscle contraction
for alpha 2, inhibition of adenylate cyclase reduces cAMP; cAMP is an inhibitor of myosin light chain kinase, an enzyme that phosphorylates myosin and cause contraction; inhibition of cAMP increases MLCK activation and increases smooth muscle contraction
