• •

  Antibiotics overall are the most common cause of drug allergy or drug hypersensitivity reactions. (See also Table 1 on Supplementary Material).

• •

  The prevalence of reported antibiotic allergy is probably the best indicator to measure the burden of this public health problem. Penicillins are the antibiotics that account for most of antibiotic allergy labels. Although significant variations are observed between institutions, countries and in some specific populations, overall, 10–12% of the population reports to be penicillin allergy.1 (See also Table 2 on Supplementary Material).

• •

  The risk of reported antibiotic allergy (likelihood of reported antibiotic allergy in patients exposed to a given antibiotic) has been found to be highest for sulfonamides (2–4%) followed by penicillins (1%).

• •

  Incidence of reported antibiotic allergy is higher in females for all antibiotic classes.

• •

  Severe antibiotic hypersensitivity reactions account for a minority of all reported antibiotic allergies (4–7%). Sulfonamides may be associated with the highest risk of severe antibiotic allergic reaction followed by clindamycin, fluorquinolones and penicillins.

• •

  Nevertheless, these figures overestimate the frequency of true antibiotic allergies given that many reactions labeled as antibiotic allergy are not hypersensitivity reactions but non-immune mediated reactions and even non drug-adverse reactions.2

• •

  Antimicrobial allergy label has been found to be associated with prolonged hospitalization, increased rate of readmissions, increased hospital costs and/or mortality in several large cohort studies with hospitalized patients. These findings have also been observed in more specific populations, such as hemato-oncological patients.

• •

  Second-line antimicrobial agents used for prophylaxis in penicillin allergic patients are associated with increased risk of infection and increased toxicity.

• •

  Patients labeled penicillin allergic have an increased risk of C. difficile and of infections caused by antimicrobial-resistant microorganisms. There is evidence of the association between penicillin allergy label and infections caused by multi-drug resistant microorganisms (MDRO), mainly methicillin-resistant Staphylococcus aureus (MRSA).3

• •

  Antibiotic allergy labels, more specifically those to penicillin or β-lactam antibiotics, overestimate true antibiotic hypersensitivity reactions.

• •

  Between 70% and more than 95% of patients with penicillin allergy labels have not had penicillin hypersensitivity reactions and may tolerate penicillins or other β-lactams.

• •

  The frequency of true drug hypersensitivity reactions (DHR) among patients with penicillin allergy labels is lowest among children and outpatients.

• •

  Poorly detailed drug allergy histories contribute to antibiotic allergy overestimation through misinterpretation of non-immune mediated adverse reactions as true DHR and failure to identify subsequent tolerance to the culprit antibiotic.4

• •

  Even with a comprehensive drug history many patients labeled as penicillin allergic would benefit of a specific allergy workup with in vivo and/or in vitro tests (A-II).

• •

  Although the gold standard to delabel penicillin allergy is to perform a complete allergological study, the approaches to patients with antibiotic allergy label should be individualized. (A-II)

• •

  A standardized clinical assessment of patients with antibiotic allergy labels should start by identifying those with a history of non-immune mediated symptoms as the isolated manifestation of a drug reaction (See also Table 3 on Supplementary Material). (A-II)

• •

  Patients who report having had anaphylaxis, bronchospasm, angioedema, laryngeal edema, or hypotension should be considered high-risk Type I immediate DHR. (A-II)

• •

  Other high-risk subjects are patients with suspected non-immediate Type II–IV HSR severe reactions, such as Stevens–Johnsons Syndrome, Toxic Epidermal Necrolysis, acute interstitial nephritis, drug rash eosinophilia systemic symptoms (DRESS), and hemolytic anemia. (A-II)

• •

  Having received epinephrine and having had a reaction that required hospital care indirectly suggest severe DHR. (A-II)

• •

  Although drug allergy history has significant limitations, mainly due to the time elapsed since the episode of alleged allergy and the non-specific clinical presentation of DHR, a risk-assessment, systematic approach (See also Tables 3 and 4 on Supplementary Material) can help to stratify the clinical risk of reported drug reactions and to guide further allergy tests, especially to decide in which patients direct antibiotic challenge can be performed, and which patients could safely receive alternative β-lactams if necessary.5 (A-II)

• •

  Clinical assessment through a detailed drug allergy history and risk stratification is of limited value to rule out antibiotic allergy.

• •

  Patients in whom the detailed drug allergy history is conclusive of non-immune-mediated drug adverse effects, such as nausea, vomiting, diarrhea, headache, or paraesthesia, can be de-labeled, and further specialized evaluation or testing is not necessary.6(A-III)

• •

  Patients in whom subsequent tolerance to the culprit antibiotic has been documented can be de-labeled, and further specialized evaluation or testing is not necessary. (A-III)

• •

  Further research is needed on the efficacy and safety of mathematical diagnostic models based on data obtained from clinical assessment to de-label reported antibiotic allergies.

• •

  Skin tests are the most validated method for confirming or excluding β-lactam allergy, although skin test reactivity declines over time. Some cases become again positive after a new contact with a β-lactam.7

• •

  Skin tests are not recommended in patients with non-suggestive allergic adverse events. (A-III)

• •

  It is hard to estimate the sensitivity and specificity of skin tests accurately since the diagnostic gold standard (e.g., drug provocation test) is not performed in all the subjects due to ethical considerations. Assuming this limitation, the sensitivity of skin tests is estimated to be up to 70% if major and minor determinants of penicillin, amoxicillin, and the suspected β-lactam are used.

• •

  Based on the limited number of drug provocation tests performed in patients with positive skin tests due to ethical reasons, their positive predictive value has been estimated to be between 40% and 100%.

• •

  Skin tests are generally safe, but systemic reactions may occur, especially in patients with a previous history of anaphylaxis.

• •

  In severe reactions or in patients who have experienced mild symptoms but are at special risk, the intradermal tests, and even the prick test, should begin with a dilution of 1/1000 or 1/100, which are gradually increased until the appearance of a positive skin response or until a non-irritant concentration is reached.8 (A-II)

• •

  When the culprit antibiotic is an aminopenicillin or a cephalosporin, the reactivity is frequently due to the side chain.

• •

  Benzylpenicilloyl (BPO-OL), sodium benzylpenilloate (MD), benzylpenicillin, amoxicillin and the suspected penicillin or cephalosporin should be tested, as well as β-lactams that share the same side chain. (A-II)

• •

  Before skin tests, any medications that could interfere with the results of skin tests (e.g., antihistamines) should be temporarily discontinued. Beta-blockers should be discontinued at least 24h since they could interfere with the use of adrenalin if a systemic reaction occurs. (A-II)

• •

  For immediate drug hypersensitivity reactions to β-lactams, prick tests are recommended for initial screening. (A-II) An intradermal test (ID) should be performed if no reaction were observed, as IDs have higher sensitivity for IgE mediated reactions.8 (A-II)

• •

  In immediate hypersensitivity reactions to β-lactams, readings should be taken after 15–20min. (A-II)

• •

  In skin prick tests, a wheal larger than 3mm accompanied by erythema with a negative response to the control saline is considered positive. (A-II)

• •

  We recommend intradermal skin tests and patch tests with delayed readings to diagnose nonimmediate drug reactions to β-lactams. (A-II)

• •

  In the intradermal tests, the wheal area is marked initially and 20min after testing, and an increase in diameter greater than 3mm with erythema is considered positive. (A-II)

• •

  A late reading should be done in those cases with an unknown chronology or suspicion of non-immediate reactions. (A-II)

• •

  The drug provocation test is considered the gold standard for establishing the diagnosis of drug hypersensitivity. Up to one-third of patients allergic to penicillins have a negative result in skin tests.9

• •

  Drug provocation tests should be done only after performing skin tests (A-III). Nevertheless, in patients with severe infections and non-confirmed penicillin or cephalosporin allergy, and if skin testing is not feasible, a controlled drug challenge with an alternative β-lactam with low cross-reactivity with the culprit drug might have a favorable risk/benefit balance and be could therefore be considered appropriate (See question 4.1).

• •

  Drug provocation tests can be used to assess cross-reactivity among β-lactam antibiotics.

• •

  Drug desensitization (DD) is indicated when the antibiotic is irreplaceable or when the drug if more effective than the alternatives.10 (A-III)

• •

  DD should generally not be performed in patients at increased risk of severe complications due to significant comorbidity and is absolutely contraindicated in patients who have experienced severe, life-threatening immunocytotoxic reactions, vasculitis or bullous skin diseases and other severe cutaneous adverse drug reactions. (B-III)

• •

  DD has an extremely high level of risk and complexity and must be conducted by an allergist and nursing staff with specific training in a hospital location where patients who develop a severe reaction can be treated. (A-III)

• •

  In patients with a history consistent with non-immune mediated adverse events to penicillins or cephalosporins, β-lactams can be administered unrestrictedly (see also Table 3 on Supplementary Material).11(A-II)

• •

  To decide which β-lactam to choose in β-lactam allergy labeled patients, it is essential to consider the chemical structure of the β-lactam responsible for the reaction and that of the alternative one, as well as the type of reaction, as tolerance may differ between immediate and nonimmediate ones. (A-II)

• •

  Of all β-lactams, aztreonam (0%) and carbapenems (0.87%) have the lowest cross- reactivity rates with penicillin and can be safely administered to most patients labeled penicillin allergic. (A-II)

• •

  There are significant differences in the cross-reactivity rates of cephalosporins with penicillins (See also Table 5 at Supplementary Material). These differences are due to variations in the chemical structure, mainly the R1 and sometimes the R2 side chains, of the involved penicillin and cephalosporin. Patients allergic to ceftazidime might experience cross-reactivity with aztreonam due to structural similarities.

• •

  There is a high degree of cross-reactivity among semi-synthetic penicillins, especially aminopenicillins (i.e., amoxicillin, ampicillin, bacampicillin, and pivampicillin), which share an amino group in their side chain. Nevertheless, some patients with amoxicillin allergy tolerate benzylpenicillin, and patients allergic to clavulanic acid may tolerate amoxicillin.

• •

  The gold standard procedure to administer a β-lactam in patients with suspected immune-mediated reactions is to perform skin and drug provocation tests before administration and delabeling. (A-II)

• •

  Nevertheless, in some hospitalized patients with moderate and severe infections and penicillin or cephalosporin allergy label, controlled drug challenge with an alternative β-lactam with low probability of cross-reactivity, in the absence of skin tests, has a favorable risk/benefit ratio (see also Table 5 and Table 6 at Supplementary Material).12(A-II)

• •

  Patients with suspected immune-mediated hypersensitivity reactions exposed to alternative β-lactams in the absence of a standardized allergy work-up, should be referred to an allergist before delabeling. (A-III)

• •

  In patients with a history of severe Type II-IV drug hypersensitivity reactions, β-lactams should be avoided if possible. (A-III)

See Table 7 at supplementary material.

• •

  All patients should receive an Allergology Department's medical report that must meet the established minimum recommended quality standards. (A-III)

• •

  Antibiotic allergy should be reported in a prominent site within the medical record.13(A-III)

• •

  If a patient had a prior allergy, but it has been delabeled, the current status of the antibiotic allergy should be updated in the medical record, specifying the date of delabeling. (A-III)

• •

  Electronic Health Records (EHRs) have been shown to improve the safety and quality of patient care, especially when Clinical Decision Support (CDS) is implemented. (A-II)

• •

  The main barriers to the implementation of the recommendations contained in this guideline are: (a) the large size and widespread distribution of the affected population, (b) insufficient and unequitable access to allergists, (c) resistance of doctors and patients to the use of any β-lactam in patients labeled as penicillin-allergic, (d) lack of training and support for using alternate β-lactams in patients with low-risk and non-immune mediated reactions in the acute care settings and (e) insufficient human resources capabilities within antimicrobial stewardship programs (ASPs).

• •

  Antibiotic allergy labeled patients to prioritize are: (a) Patients with sepsis or septic shock, (b) Patients with infections leading to hospitalization, (c) Immunocompromised individuals, (d) Patients who are undergoing high-risk surgeries from the infectious perspective (i.e., oncological procedures) and (e) Patients with recurrent infections (i.e. urinary tract or biliary infections).

• •

  Antimicrobial stewardship programs (ASPs) are probably the best vehicle to implement the recommendations contained in this guideline, both in the hospital and in primary care.

• •

  Activities to improve the management of patients with suspected or confirmed antibiotic allergy should count with the active participation of specialists in allergy.

• •

  Endorsement of this guideline by the Spanish National Action Plan Against Antimicrobial Resistance (PRAN) might increase its impact, especially contributing to involve Autonomous Communities and regional healthcare systems.

• •

  Specific protected time for ASP team members, as well as allergists and skilled nurses should be allocated according to the estimated needs associated with the interventions.

• •

  Ready to use or easily adaptable printed or in e-format educational materials of several kinds might help decrease the workload associated with implementing the recommendations contained in this guideline for ASP members.

• •

  Table 8 at Supplementary Material, summarized several indicators to monitor the implementation of this guideline

• •

  A 2 time-point nationwide survey might help to understand the implementation of this guideline.