Continuing Education Activity
Antihistamines are a pharmaceutical class of drugs that act to treat histamine-mediated conditions. There are two main classes of histamine receptors: H-1 receptors and H-2 receptors. Antihistamine drugs that bind to H-1 receptors are generally used to treat allergies and allergic rhinitis. Drugs that bind to H-2 receptors can treat upper gastrointestinal conditions that are caused by excessive stomach acid. This activity reviews the indications, contraindications, activity, adverse events, and other vital elements of antihistamine therapy in the clinical setting as relates to the essential points needed by members of an interprofessional team managing the care of patients with conditions that respond to histamine receptor blockade.
- Summarize the mechanism of action of the different histamine receptor blockers.
- Identify the approved and off-label indications for the different histamine receptor blockers.
- Describe the adverse event profile and contraindications of the members of the antihistamine class.
- Outline interprofessional team strategies for improving care coordination and communication to advance appropriate clinical outcomes with antihistamine therapy to treat indicated conditions, leading to optimal patient outcomes.
Antihistamines are a pharmaceutical class of drugs that act to treat histamine-mediated conditions. There are two main classes of histamine receptors: H-1 receptors and H-2 receptors. Antihistamine drugs that bind to H-1 receptors are generally used to treat allergies and allergic rhinitis. Drugs that bind to H-2 receptors treat upper gastrointestinal conditions that are caused by excessive stomach acid.
H-1 antihistamines are further classified according to first and second-generation agents. First-generation H-1 antihistamines more easily cross the blood-brain barrier into the central nervous system (CNS), whereas second-generation H-1 antihistamines do not. The first-generation drugs will bind to both central and peripheral histamine-1 receptors, whereas second-generation drugs selectively bind to peripheral histamine-1 receptors; this leads to different therapeutic and side effect profiles.
- Allergic rhinitis
- Allergic conjunctivitis
- Allergic dermatological reaction(s)
- Atopic dermatitis
- Motion sickness
- Peptic ulcer
- Acid reflux
- Zollinger Ellison syndrome
Non-FDA-approved uses for H-1 antihistamines include insomnia, and for H-2, antihistamines include indigestion. Use of dual H-1 and H-2 antihistamines has been used for refractory urticaria that fails therapy with an H-1 antihistamine.
There are two other classes of histamine receptors: H-3 and H-4. While compounds exist that bind them, there is no specific clinical benefit to clinicians using those compounds in humans.
- Dimenhydrinate (incorporates diphenhydramine and a stimulant compound)
- Famotidine (most common H-2 antihistamine that is used in the United States)
- Raniditine (removed from market)
- Roxatidine (not available in the USA)
Mechanism of Action
Histamine (an endogenous chemical messenger) induces an increased level of vascular permeability, which leads to fluid moving from capillaries into the surrounding tissues. The overall outcome of this is increased swelling and dilation of vessels. Antihistamines stop this effect by acting as antagonists at the H-1 receptors. The clinical benefit is a reduction in allergy symptoms and any related symptoms.
First-generation antihistamines easily cross the blood-brain barrier into the central nervous system and antagonize H-1 receptors, leading to a different therapeutic and adverse effect profile in contrast to second-generation antihistamines selectively bind to peripheral histamine receptors.
The duration of the pharmacological action of first-generation antihistamines is about 4 to 6 hours. In contrast, second-generation antihistamines work for 12 to 24 hours. They are both metabolized by the liver using the P450 cytochrome system.
Parietal cells in the gastrointestinal tract secrete hydrochloric acid. They undergo regulation by acetylcholine, gastrin, and also histamine. Histamine is released from enterochromaffin-like (ECL) cells. When histamine binds to the H-2 receptors on parietal cells, cyclic adenosine monophosphate (cAMP) increases, inducing protein kinase A. This action then leads to phosphorylation of the proteins that take part in the transport of hydrogen ions. Thus increased histamine leads to increased stomach acid, e.g., HCl secretion.
The use of antihistamines specific to the H-2 receptor blocks the entire process and reduces stomach acid secretion.
Antihistamine medications are generally administered orally in a tablet dosage form. Intravenous (IV) and intramuscular (IM) administration are also possible, reserved chiefly for in-patient usage for the treatment of specific conditions. Possible indications in the hospital setting may be for the treatment of an allergic reaction or for treating a dystonic reaction after administration of an antipsychotic medication.
Antihistamine medications carry a broad range of adverse effects depending on the specific class of drugs utilized. H-1 receptor antihistamines will generally cause clinically noticeable adverse effects that are dose-dependent. These side effects are far more commonly seen in first-generation antihistamines. Second-generation antihistamines do not easily cross the blood-brain barrier, and therefore their side effect profile is far more limited. In contrast to H-1 receptor antihistamines, H-2 receptor antihistamines do not commonly cause adverse effects except for cimetidine.
H-1 receptor antihistamines have anticholinergic properties, which are adverse effect-inducing; this principally occurs only in the first generation category of antihistamines. As a whole, they are sedating but may cause insomnia in some users. Due to their anticholinergic properties, dry mouth is a relatively common adverse effect. Some users experience dizziness and tinnitus. At increasing doses, euphoria and decreased coordination may also occur, and delirium is a potential adverse effect at even higher dose ranges. Antihistamines may also be cardiotoxic in some users as they have QTc-prolonging effects.
H-2 receptor antihistamines are generally well tolerated by users but do carry the risk of uncommon side effects. Gastrointestinal changes can be seen, including both diarrhea and constipation. Reports exist of fatigue, dizziness, and confusion. One specific drug in this category that may cause a range of adverse effects is cimetidine. Its antiandrogenic effects correlate with the possible occurrence of gynecomastia in men. In women, it can cause galactorrhea. Other H-2 receptor antihistamines do not exhibit the same properties as cimetidine. Ranitidine was previously removed from the market in the United States due to concerns of potential contamination with a carcinogen.
H-2 receptor antihistamines can cause inhibition of the cytochrome system, especially cimetidine, thereby leading to drug toxicity and interactions with other medications.
Patients who present with hemodynamic alterations, increased intraocular pressure or increased urinary retention should use antihistamines with caution as these conditions can become exacerbated.
Given the potential cardiotoxic effects of certain antihistamines, they are relatively contraindicated in any patient with QTc prolongation. Patients using other QTc-prolonging drugs require careful monitoring for further prolongation of the QTc interval due to the risk of potentially fatal cardiac arrhythmias.
Usage in pregnant women is a relative contraindication. Additionally, women who are lactating should also avoid usage of antihistamines.
Patients with impaired renal or hepatic function should use antihistamines with caution.
Hypertension, cardiovascular disease, urinary retention, increased ocular pressure are relative contraindications to the use of antihistamines.
Doses of the antihistamines may require monitoring especially during prolonged use. Patients should be monitored for anticholinergic effects. This is especially true in elderly who are at increased risk of falls.
The cardiotoxic effects of antihistamines may be monitored on an electrocardiogram (ECG) to assess prolongation of the QTc interval.
There is no specific antidote used for the treatment of antihistamine overdose. However, physostigmine may be an option if a patient is experiencing delirium or other toxicity side effects due to the anticholinergic effects of the antihistamine.
Enhancing Healthcare Team Outcomes
Antihistamines are a class of medications that can be subdivided into H-1 and H-2 categories. H-1 antihistamines, which can be further divided into first and second generations, are primarily used to treat allergic symptoms and illnesses mediated through similar mechanisms. H-2 antihistamines can lower excessive stomach acid and thereby treat acid reflux, gastritis, and gastrointestinal ulcers.
Pharmacists serve as dispensers and educators of these medications, given the availability of antihistamines at pharmacies for off-the-shelf purchase. They have a crucial role in advising the patient to utilize the correct dose and be cautious of any contraindications and adverse effects. Nurses should be prepared to answer questions regarding these medications, as well as offer counsel on adverse effects and note their therapeutic effectiveness, and report any findings to the clinician.
Providers that recommend antihistamines, such as nurse practitioners, physician assistants, and physicians, should use caution and make sure the healthcare team is aware of the recommendation and the pharmacist can review the patient's medication profile to determine if there are any clinically significant drug interactions, especially in elderly patients. [Level 5]