https://orcid.org/0000-0002-4437-3146
Abstract
Chlorhexidine is a synthetic bisbiguanide antiseptic and was introduced in healthcare use in 1954. Allergy to chlorhexidine has been increasingly reported particularly in the perioperative and medical procedural settings. The hypersensitivity reactions range from mild cutaneous reactions to anaphylaxis or death. There are many products and medical devices containing chlorhexidine that sometimes lack standardized labeling. With the various routes of chlorhexidine exposure, accidental or recurrent reactions in chlorhexidine-allergic patients have been reported. Therefore, we aim to review the most recent evidence in clinical manifestations, diagnostic methods, management, and preventive measures with a focus on the unique features of chlorhexidine allergy.
Introduction
Chlorhexidine is a synthetic bisbiguanide antiseptic with antibacterial, some antiviral, and antifungal activity.Citation1 It is a water-soluble powder substanceCitation2 and is stable in a solution with a pH of 5–8.Citation2 Chlorhexidine is currently available in preparations of digluconate, acetate, and dihydrochloride salt forms.Citation1 Due to cationic charge property, chlorhexidine binds very well to anionic cutaneous protein, resulting in prolonged antiseptic effects.Citation1 The antibacterial activity of chlorhexidine is bacteriostatic at a lower concentration and becomes bacteriocidal at a higher concentration.Citation1 A previous meta-analysis reported the effectiveness of chlorhexidine was significantly greater than povidone-iodine in reducing surgical-site infection.Citation3 Chlorhexidine was introduced in healthcare use in 1954.Citation4 Due to good antiseptic properties and a favorable safety profile, chlorhexidine is now widely used and is contained in many healthcare products, including mouthwashes, oral paste, eye drops, lubricating gels for medical procedures, powder, dressings, scrubs, and central venous catheters. Furthermore, it is also increasingly used as a preservative in cosmetic and daily-used products, which probably causes sensitization.Citation5,Citation6 Chlorhexidine containing products used in our hospital are shown in .
Table 1 Chlorhexidine-Containing Products in a Tertiary-Care Hospital in Thailand
Epidemiology
In 1965, Birdwood reported a 72-year-old woman who presented with severe cutaneous lesions and thrombophlebitis 48 hrs after applying an antiseptic containing chlorhexidine on her forearms.Citation7 In 1984, the first case of chlorhexidine induced anaphylaxis in the perioperative setting was reported in a 9-year-old Japanese boy.Citation8 The true prevalence of chlorhexidine allergy is still unknown and is thought to be under-recognized. Chlorhexidine allergy has recently been increasingly reported particularly in the perioperative and medical procedural settings.Citation9–Citation12 The prevalence of perioperative allergic reactions was 9–10% in the United Kingdom, Denmark, and Belgium.Citation13–Citation15 A recent survey from 13 centers reported 252 cases of anaphylaxis to chlorhexidine, and it was within the top four most commonly diagnosed causes of perioperative anaphylaxis along with neuromuscular blocking agents, antibiotics, and latex.Citation16 The prevalence of chlorhexidine contact allergy by performing a patch test was 0.47–1% of patients.Citation5,Citation6 Despite the widespread use of chlorhexidine the healthcare settings, the prevalence of chlorhexidine-induced anaphylaxis in healthcare workers is still relatively low.Citation17,Citation18 Nevertheless, the true prevalence in healthcare workers may be still underestimated.Citation2,Citation4 As chlorhexidine allergy has been overlooked, authorities in several countries have already issued warnings for chlorhexidine-containing products and medical devices as shown in .
Table 2 Warnings About Chlorhexidine Allergy from Different Authorities
Clinical Features
Adverse reactions to chlorhexidine involve both immediate and non-immediate hypersensitivity, ranging from mild cutaneous reactions to anaphylaxis or death.Citation6,Citation9,Citation10 The delayed cutaneous rash, which is a T cell-mediated type IV hypersensitivity reaction, generally occurs in patients with a history of prolonged use of chlorhexidine-containing products or multiple exposure events of antiseptic use.Citation24 The most common delayed rash is contact dermatitisCitation24 while fixed drug eruption was reported in patients with allergy to chlorhexidine-mouth wash.Citation25,Citation26 A study in 92 healthcare workers from Thailand found that 5% of participants had a cutaneous reaction to 2% and 4% chlorhexidine gluconate testing on the forearms.Citation27
Immediate type I hypersensitivity reactions mediated by IgE were reported.Citation28 Clinical features range from localized urticarial angioedema to anaphylaxis and death.Citation17,Citation29 Among patients with chlorhexidine-induced anaphylaxis reported in 36 articles, the most common chlorhexidine-containing product exposure was urinary catheter lubricant (44%), followed by chlorhexidine-coated central venous catheter (35%), and topical chlorhexidine solution (16%).Citation29 Reported mucosal routes involved in exposures resulting in chlorhexidine allergy included rectum, vagina, conjunctiva, oral mucosa, and periodontal pocket.Citation30,Citation31 The reactions usually occur a few minutes after venipuncture and may be delayed to as much as 50 mins after mucosal or damaged-skin exposure.Citation32,Citation33 In perioperative settings, anaphylaxis from chlorhexidine usually occurs from 15 to 45 mins after the beginning of anesthesia but it may occur at all times during surgery or even in the postoperative setting.Citation9,Citation34 Severe anaphylaxis classified as grade 3–4 resulting in life-threatening condition was reported in 80% of patients.Citation10 Occupational airway allergy from chlorhexidine was also reported in three nurses confirmed by inhalation challenge.Citation2 Chlorhexidine could be easily overlooked as the culprit agent and allergic reaction could be misattributed to other simultaneously administered agents, including anesthetic drugs and antibiotics. Some patients with anaphylaxis had a history of mild localized reactions for which investigations to identify the causative agents were not performed.Citation35 Some patients may concurrently have both immediate and delayed reactions.Citation6 The unique features of chlorhexidine allergy are summarized in .Citation14,Citation36,Citation37
Table 3 The Unique Features of Chlorhexidine AllergyCitation14,Citation36,Citation37
There are many routes of exposure to chlorhexidine such as skin, mucous membrane, and the parenteral route. Topical exposure in preoperative skin preparation or dressing wound can cause both immediate and non-immediate reactions.Citation38 Mucous membrane exposure through the transurethral, rectal, and vaginal routes could elicit the reactions in both delayed and immediate types, including anaphylaxis.Citation39 Exposures through the oral and ophthalmic routes generally present with mild immediate reactions, such as localized urticaria.Citation30 Allergy to chlorhexidine mouth wash was reported as contact dermatitis and fixed drug eruption confirmed by skin prick and intradermal tests.Citation40 Exposure by the parenteral route from the chlorhexidine-coated venous or arterial catheters, and epidural catheters can cause both immediate and delayed types, the clinical features of which may range from localized cutaneous lesions to anaphylaxis.Citation41 We reported a case of severe anaphylaxis after a pelvic examination, and this patient was allergic to both natural rubber latex and chlorhexidine confirmed by skin test and basophil activation test (BAT).Citation37
Diagnosis
Further investigations for chlorhexidine allergy comprise in vivo and in vitro tests. The tests should be carried out in patients with a history suspicious of chlorhexidine allergy, in patients with allergic reactions in the healthcare setting where exposure to chlorhexidine cannot be excluded with certainty and in all patients with perioperative allergic reactions.Citation42
Possible in vivo tests include skin prick test, intradermal test for immediate reactions, and patch tests for delayed reactions. For skin prick test, a concentration of 5 mg/mL of chlorhexidine digluconate was recommended by the Danish Anesthesia Allergy Center (DAAC) and European Network for Drug Allergy (ENDA) in 2013.Citation28,Citation43 A wheal size of 3 mm or greater developing within 20–30 mins is considered a positive result.Citation36 In evaluating patients with perioperative allergic reactions, skin prick test yields a sensitivity of 95% and specificity of 97%.Citation13 To perform the intradermal test, a concentration of chlorhexidine of 0.002 mg/mL was recommended by DAAC and ENDA.Citation28,Citation43 The correct technique is to inject 0.02 mL into the dermis to make a bleb of 3–5 mm, after which the wheal size is measured 20 mins later. A result is considered positive if the wheal size is 3 mm or greater compared to negative control.Citation43 Intradermal test yields a sensitivity of 68% and specificity of 100%.Citation13 Intradermal test is also potentially helpful for delayed hypersensitivity when used with delayed reading.Citation43 To perform the patch test for patients with delayed cutaneous reaction, a concentration of 1% chlorhexidine digluconate was recommended.Citation43
Possible in vitro tests include specific IgE test, histamine release test (HRT), and BAT. Specific IgE generally increases in most patients at the time of the reaction. If negative, it should be repeated between 1–4 months after the event.Citation44 Since the specific IgE level can change over time, some previously sensitized patients with undetectable specific IgE may remain at risk of reactivity, and a rebound in specific IgE can be found on re-exposure.Citation44 The sensitivity and specificity on the cut-offs recommended by manufacturers range from 84–100% and 93–97%, respectively.Citation13,Citation45 A previous study showed specific IgE should be evaluated with caution when total IgE was 500 kU/L or greater.Citation45 HRT and BAT are only available in some specialized centers and require a fresh blood sample. Both tests have a sensitivity of 50% and specificity of as much as 99%.Citation10,Citation46 Therefore, these tests are generally used as additional tests to confirm the diagnosis after other tests have shown equivocal results.
According to DAAC, chlorhexidine allergy should be diagnosed based on a relevant clinical reaction in combination with two positive diagnostic tests.Citation13 If diagnostic tests are equivocal in highly suspicious cases, retests are recommended a few months later. Although a provocation test is the gold standard for diagnosis of drug allergy in both immediate and delayed types, it is contraindicated in patients with previous severe reactions or anaphylaxis. No standard protocol of the chlorhexidine challenge test is currently available.
Measures to Decrease the Prevalence of Chlorhexidine Allergy
Prevention of Sensitization
Populations that are repetitively exposed to chlorhexidine are at risk of sensitization. These include health care workers, patients with chronic leg ulcers or eczema, and those undergoing frequent surgical interventions.Citation12 It is still not clear whether type IV hypersensitivity could predispose an individual to type I hypersensitivity, but it has been shown that a substantial number of patients with type IV hypersensitivity have a positive skin prick test with chlorhexidine and therefore testing for type I hypersensitivity should be performed in all patients with a positive epicutaneous test with chlorhexidine.Citation6,Citation47 Due to the widespread use of chlorhexidine as an antiseptic agent in health care settings, exposure to chlorhexidine is very common. The results from the 6th National Audit Project of the Royal College of Anesthetists showed the prevalence of exposure to chlorhexidine in perioperative settings by at least one route was as high as 73.5% of all cases.Citation14 Other sources of exposure may come from many daily-used products without standardized labeling in community settings. Although chlorhexidine belongs to the biguanides group, clinically relevant cases of cross-reactivity with other substances with similar chemical structures have not been reported yet.
Prevention of Re-Exposure in Patients with Proven Chlorhexidine Allergy
The frequency of exposure to chlorhexidine by at least one route is very high. Therefore, the possibility of accidental exposure remains challenging for these patients. The lack of standardized and clear chlorhexidine labeling is still problematic. Most of the patients with chlorhexidine-induced anaphylaxis have had previous mild reactions to chlorhexidine exposure, however mild reactions to chlorhexidine are also observed in many patients without chlorhexidine allergy.Citation48 The history of exposure could be retrospectively identified from these patients. Therefore, opportunities taken to investigate exposure history for early identification of chlorhexidine-allergic patients may prevent more severe reactions in the future. Appropriate diagnosis and management of these patients may lead to better outcomes, and future reactions may be prevented.Citation16 The management to avoid re-exposure in the patients with proven or suspected chlorhexidine allergy is summarized in .Citation14,Citation42,Citation49,Citation50
Table 4 Management for Patients with Suspected or Confirmed Chlorhexidine AllergyCitation14,Citation42,Citation49,Citation50
A Low Concentration of Chlorhexidine Should Be Used in Healthcare Settings and Daily-Used Products
Although there is no firm conclusion on the mechanism of allergic sensitization to chlorhexidine, impairment of the skin barrier is thought to be the immunologic basis of allergic sensitization in other allergens, such as food, with suggested mechanistic links.Citation51,Citation52 Previous data revealed higher concentrations of chlorhexidine, such as 2–4% weight by volume (w/v) had irritating effects on the skin, resulting in impairment of the skin barrier and potentially increasing the risk of chlorhexidine sensitization. Therefore, there is an increased risk of allergic sensitization with higher concentrations of chlorhexidine. These findings were supported by two studies reporting the prevalence of chlorhexidine sensitization among healthcare workers. Different concentrations of chlorhexidine were used in these two centers, namely 0.5% and 4% (w/v). The center where 4% chlorhexidine was used had a higher prevalence of chlorhexidine sensitization.Citation4,Citation18 However, no head-to-head controlled trial has been reported that the use of lower chlorhexidine concentrations can decrease the sensitization rate compared with higher concentrations. In contrast, the use of 2% (w/v) chlorhexidine concentration has no clear historical rationale. A comparative study demonstrated the effectiveness of different concentrations of topical chlorhexidine of 0.5%, 1%, and 2% (w/v) found no differences in antimicrobial efficacy.Citation53 Therefore, the use of the minimum effective concentration of chlorhexidine has been recommended.Citation16 Many countries have promoted the use of 0.5% (w/v) chlorhexidine due to concerns about chlorhexidine sensitization whereas the United Kingdom’s national guidelines still recommend the use of 2% (w/v) chlorhexidine for single application products.Citation54
Conclusions
Chlorhexidine allergy has been reported in many different medical specialties and settings. All patients with suspected perioperative or periprocedural hypersensitivity reactions should, therefore, be considered for chlorhexidine allergy testing and allergist consultation. Accidental reexposures causing severe allergic reactions have been reported, and some of them were preventable. Uniform labeling, registration of chlorhexidine-containing products, increased awareness among both patients and medical personnel could prevent chlorhexidine re-exposure.
Abbreviations
BAT, basophil activation test; DAAC, Danish Anesthesia Allergy Center; ENDA, European Network for Drug Allergy; HRT, histamine release test.
Author Contributions
All authors contributed to data analysis, drafting or revising the article, gave final approval of the version to be published, and agree to be accountable for all aspects of the work.
Acknowledgments
The authors would like to thank Dr. Anthony Tan for editing the English language in the manuscript.
Disclosure
The authors report no conflicts of interest in this work.
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