GROUP A STREPTOCOCCAL PHARYNGITIS — Most cases of acute pharyngitis are caused by virusessuch as influenzaSARS-CoV-2Epstein-Barrrhinovirusand HIVand should not be treated with antibiotics. Group A Streptococcus (GAS; Streptococcus pyogenes) is the most common bacterial pathogen.

Diagnosis – GAS pharyngitis should be diagnosed by nucleic acid amplification test or rapid antigen detection test; use of history and physical examination alone is unreliable. In adultsthroat culture can be considered if a rapid antigen test is negative and clinical presentation suggests bacterial infection. In children and adolescentsthroat culture is always recommended when a rapid antigen test is negative and GAS pharyngitis is suspected. Follow-up culture is not needed after a negative nucleic acid amplification test.

Standard Treatment – Patients who test positive for GAS should be treated with a 10-day course of penicillin or amoxicillin.1 Those with a non-IgE-mediated allergy to penicillin can be treated with a first-generation cephalosporin such as cephalexin; the risk of cross-reactivity with penicillins and cephalosporins is low. Clindamycin or a macrolide such as azithromycin can be used in patients with a severe penicillin allergybut >20% of GAS pharyngeal isolates may be resistant to these drugs.2,3 Fluoroquinolonestetracyclinesand trimethoprim/sulfamethoxazole should not be used for treatment of GAS pharyngitis because of the high prevalence of resistance.

SINUSITIS — Acute sinusitis is usually caused by a viral infection and should not be treated with antibiotics. Symptoms can be managed with analgesicsan intranasal corticosteroidsteam inhalationand/or sterile nasal saline irrigation. Bacterial sinusitis should be suspected in patients with a high fever and symptoms that are severepersist for ≥10 daysor recur following resolution of a viral upper respiratory tract infection. Potential pathogens include Streptococcus pneumoniaeHaemophilus influenzaeand Moraxella catarrhalis. Bacterial sinusitis in otherwise healthy adults often improves without antibiotic therapy.4,5

Standard Treatment – Amoxicillin/clavulanate is the antibiotic of choice for empiric treatment of acute bacterial sinusitis in adults and children5,6; addition of clavulanate to amoxicillin improves its activity against beta-lactamase-producing organisms (e.g.H. influenzaeM. catarrhalis). A high dose of the amoxicillin component can be considered for patients at increased risk of resistant S. pneumoniae (e.g.≥65 years oldcomorbiditiesimmunosuppressed).

Doxycycline is an option for adults with a penicillin allergybut resistance to doxycycline has increasedparticularly among isolates of S. pneumoniae with reduced susceptibility to penicillin. Levofloxacin or moxifloxacin can also be usedbut the FDA has warned that the risk of rare but serious adverse effects with fluoroquinolonesincluding tendinitis and tendon ruptureperipheral neuropathyCNS effectsand QT-interval prolongationgenerally outweighs their benefits for treatment of uncomplicated infections such as sinusitis.7 A third-generation oral cephalosporin (e.g.cefpodoxime) with or without clindamycin is an alternative for patients with a non-IgE-mediated penicillin allergy; the risk of cross-reactivity between penicillins and later-generation cephalosporins is very low.4-6,8

Macrolides (e.g.azithromycin) and trimethoprim/sulfamethoxazole are not recommended for treatment of acute sinusitis because of increasing resistance among S. pneumoniae.4

ACUTE OTITIS MEDIA — Acute otitis media (AOM) is frequently associated with viral respiratory tract infections. It is most common in children. S. pneumoniae and H. influenzae are the most common bacterial pathogens. Since the introduction of routine pneumococcal vaccination in the USthe prevalence of S. pneumoniae has declinedbut the pneumococcal serotypes that do cause AOM often have reduced susceptibility to amoxicillin.9,10 H. influenzae that produce beta-lactamase and are resistant to amoxicillin are now a common cause of AOM in both children and adults.9 M. catarrhaliswhich also produces beta-lactamase and is resistant to amoxicillinis another frequently isolated bacterial pathogen in children with AOM.9,10 Staphylococcus aureus is a potential pathogen in adults.

Standard Treatment – Antimicrobial therapy can shorten the duration of AOM symptoms and prevent complicationsbut severe symptoms generally last only a few days and most infections in children resolve without treatment. Children <2 years old and those with severe infection (i.e.otorrheasevere or persistent otalgia for >48 hoursor a temperature ≥102.2°F) should receive immediate antibiotic treatment. In children ≥2 years old with less severe symptomswatchful waiting combined with analgesia is appropriate; if symptoms fail to improve within 48-72 hoursantibiotic therapy should be started. Adults with AOM should be treated with antibiotics.

Guidelines for treatment of AOM in childrenwhich were last published in 2013recommended high-dose amoxicillin (90 mg/kg/day) for initial treatment in most children. High doses are used to improve activity against less susceptible strains of S. pneumoniae.11

To treat beta-lactamase-producing H. influenzaemany expert clinicians now recommend standard- or high-dose amoxicillin/clavulanate for first-line empiric treatment of AOM in all children without a penicillin allergy.10,12 Amoxicillin/clavulanate is the antibiotic of choice for adults; a high dose (2000/125 mg bid) is recommended for those who are at increased risk of infection with a resistant strain of S. pneumoniae (e.g.recent antibiotic use or hospitalization≥65 years oldimmunocompromised).

A second- or third-generation cephalosporin (e.g.oral cefdinircefpodoximeor cefuroximeIM/IV ceftriaxone) can be used in adults or children with a history of non-IgE-mediated penicillin allergy; the risk of cross-reactivity between penicillins and later-generation cephalosporins is very low.8

Macrolides (e.g.azithromycin) now have limited activity against S. pneumoniae and H. influenzae; they should be considered only for patients with a history of serious penicillin allergy. Clindamycin may be an alternative for treatment of AOM caused by S. pneumoniae in patients with a serious penicillin allergy; it has no activity against H. influenzae or M. catarrhalis.

BRONCHITIS — Acute bronchitis in otherwise healthy persons is usually viral. Symptoms are caused by inflammation and are self-limited. Antibiotic treatment is not recommended.6

Acute exacerbations of chronic bronchitis (AECB) are also often viral in originbut moderate to severe exacerbations in patients with COPD are usually treated with antibiotics.13 As with sinusitisbacterial AECBs are often caused by S. pneumoniaeH. influenzae, or M. catarrhalis. Amoxicillin/clavulanate is the treatment of choice. Doxycycline can be considered for patients who are allergic to penicillins. Because of the risk of serious adverse effectsa fluoroquinolone (levofloxacin or moxifloxacin) should be reserved for patients who lack other treatment options.7

COMMUNITY-ACQUIRED PNEUMONIA — Viruses are common causes of community-acquired pneumonia (CAP). The most common bacterial pathogens responsible for CAP in adults include S. pneumoniaeH. influenzaeM. catarrhalis, and Mycoplasma pneumoniae. In children ≥5 years oldS. pneumoniae and M. pneumoniae are most common. Pneumococcal vaccination has substantially reduced the incidence of CAP caused by S. pneumoniae in the US.14

Methicillin-resistant S. aureus (MRSA) and resistant gram-negative bacteria can sometimes cause CAP. Patients with previous respiratory isolation of one of these pathogensa recent viral infectionor recent hospitalization with parenteral antibiotic treatment are at increased risk.15

Standard Treatment of Outpatient CAP – For many yearsmonotherapy with an oral macrolide such as azithromycin was a regimen of choice for empiric outpatient treatment of CAP in otherwise healthy adults without comorbidities (chronic heartlungliver or renal diseasediabetesalcoholismmalignancyor asplenia). The incidence of macrolide-resistant S. pneumoniae is now >40% in many areas in the UShoweverand current guidelines recommend that oral macrolide monotherapy be considered only in areas where pneumococcal resistance rates to macrolides are <25%. High-dose amoxicillin (1 g tid) or doxycycline is now recommended for empiric treatment of CAP in most cases.15 High-dose amoxicillin monotherapy provides coverage against S. pneumoniaebut it has no activity against M. pneumoniaeChlamydophila pneumoniaeor Legionella spp.; some experts would add a macrolide or doxycycline to cover these pathogens.

For outpatient treatment of CAP in adults with comorbidities (chronic heartlungliver or renal diseasediabetesalcoholismmalignancyor asplenia)an oral beta-lactam (amoxicillin/clavulanatecefpodoximeor cefuroxime) and either a macrolide (azithromycinclarithromycin) or doxycycline is recommended. Monotherapy with an oral fluoroquinolone (levofloxacin or moxifloxacin) is an alternative.15

Macrolides and fluoroquinolones can prolong the QT interval and rarely cause life-threatening ventricular arrhythmias; these drugs should be used with caution in patients with cardiovascular disease or risk factors for QT-interval prolongation and arrhythmias.16 Although clinical data are limitedsome expert clinicians would use doxycycline plus a beta-lactam in such patients.

Children with CAP caused by S. pneumoniae (or other "typical" bacteria) generally present with rapid symptom onsethigh feverill appearanceand respiratory distress. Those with CAP due to an "atypical" pathogen (e.g.M. pneumoniae) usually have less severe diseasea dry coughand no respiratory distress. High-dose amoxicillin (90 mg/kg/day) is recommended for treatment of CAP presumed to be caused by typical bacteria in children; high-dose amoxicillin/clavulanate is an alternative. In children with suspected M. pneumoniae infectionmacrolide monotherapy is recommended. Possible alternatives include doxycycline or a fluoroquinolone (levofloxacin or moxifloxacin).17

Duration of Antimicrobial Therapy – Antibiotic treatment for CAP should be continued until clinical stability is achieved (usually within 48-72 hours) and for at least 5 days. Short courses of treatment (5-7 days) appear to be similar in efficacy to longer courses (8-10 days).18

Newer Antibiotics – Data supporting the efficacy of newer FDA-approved antibiotics for treatment of CAPincluding the fluoroquinolone delafloxacin (Baxdela),19 the tetracycline omadacycline (Nuzyra),20 and the pleuromutilin lefamulin (Xenleta)21 are limited. Until more data become availableempiric regimens with a longer record of efficacy and safety are preferred.

Adjunctive Corticosteroids – There are no data supporting the use of adjunctive corticosteroids for treatment of mild to moderate CAP.22

ADVERSE EFFECTS — Beta-lactam antibiotics (penicillins and cephalosporins) can cause rashdiarrheanauseavomitingallergic reactionshemolytic anemianeutropeniacholestatic hepatitisserum sicknessand seizures. Amoxicillin/clavulanate and cephalosporin antibiotics cause a higher incidence of diarrhea than amoxicillin.

Doxycycline can cause GI adverse effects and photosensitivity.

Azithromycin and clarithromycin can cause GI adverse effectsheadachedizzinessvaginitisand QT-interval prolongation. Clarithromycin can also cause dysgeusia and hepatic enzyme elevations. The FDA has warned that use of clarithromycin may increase the risk of cardiovascular morbidity and mortality in patients with heart disease.23

Use of fluoroquinolones has been associated with GI adverse effectstremorsrashoral and vaginal Candida infectionseosinophilianeutropenialeukopeniaincreased aminotransferase and serum creatinine levelsinsomniaphotosensitivity reactionsand peripheral neuropathy. They have also been reported to cause hyperglycemia and severe hypoglycemiaespecially in older adults and patients with diabetes. Central nervous system effectsincluding seizuresdeliriumagitationnervousnessand disturbances in attentionmemoryand orientationhave occurred. Other serious adverse effects include tendinitistendon ruptureaortic aneurysmexacerbation of myasthenia gravisClostridioides difficile infectionand QT-interval prolongation (except delafloxacin19) and torsades de pointes.24

Clindamycin causes GI adverse effects and is associated with an increased risk of C. difficile infection. Skin rash is common and other allergic reactions can occur.

DRUG INTERACTIONS — Coadministration of antacids or products containing aluminumcalciummagnesiumor iron can decrease absorption of doxycycline and fluoroquinolones. Administration should be separated by several hours.

Concurrent use of azithromycinclarithromycin, or fluoroquinolones with other QT-interval-prolonging drugs can result in additive effects.16

Use of fluoroquinolones with antihyperglycemic drugs may increase the risk of hypoglycemia. Concurrent use of fluoroquinolones and nonsteroidal anti-inflammatory drugs (NSAIDs) may lower the seizure threshold.

PREGNANCY — Doxycyclineclarithromycinand fluoroquinolones should be avoided if possible in pregnant women.

REFERENCES