Beyond erythromycin ...

Beyond erythromycin • • • M ACROLIDE ANTIBIOTICS. SUCH AS ERYTHROMYCIN. consist of a complex macrocyclic ring with two attached sugars, desosamine and cladinose. A large number of semisynthetic macrolides has recently been produced. Clarithromycin and azithromycin are the first two to be licensed. Their use is currently limited to adults and children over 12 years of age. Approval of liquid formulations for use in children is expected soon. The new macrolides have significant advantages over erythromycins, including: • acid-stability; • longer half-lives, permitting once or twice-daily dosing; • much less stimulation of gastrointestinal motor activity resulting in abdominal pain, nausea and vomiting compared with erythromycin; • two to four times greater antibacterial activity than erythromycin. The new macrolides will be of particular interest to physicians caring for children because of their excellent activity against the pathogens causing most infections of the respiratory tract.


M ACROLIDE ANTIBIOTICS. SUCH AS ERYTHROMYCIN.
consist of a complex macrocyclic ring with two attached sugars, desosamine and cladinose. A large number of semisynthetic macrolides has recently been produced. Clarithromycin and azithromycin are the first two to be licensed. Their use is currently limited to adults and children over 12 years of age. Approval of liquid formulations for use in children is expected soon.
The new macrolides have significant advantages over erythromycins, including: • acid-stability; • longer half-lives, permitting once or twice-daily dosing; • much less stimulation of gastrointestinal motor activity resulting in abdominal pain, nausea and vomiting compared with erythromycin; • two to four times greater antibacterial activity than erythromycin. The new macrolides will be of particular interest to physicians caring for children because of their excellent activity against the pathogens causing most infections of the respiratory tract.

PHARMACOLOGY
Unlike erythromycin, clarithromycin and azithromycin are both stable in gastric acid and are rapidly absorbed. Absorption of clarithromycin is increased by the presence of food, while that of azithromycin is decreased. Serum concentrations of clarithromycin are approximately two times higher than those of erythromycin. Azithromycin is unique in producing very low serum concentrations, but very high and prolonged levels in tissues. Indeed tissue concentrations of both macrolides are much higher than serum levels. The new macrolides also penetrate weii into phagocytes so that they are very active against intraceiiular pathogens.
Thirty to 40% of the macrolides are excreted by the kidney, and the remainder is metabolized and elimi- They are not very active against methicillin-resistant S aureus, coagulase-negative staphylococci and enterococci.
As mentioned above, the 14-hydroxy metabolite of clarithromycin is also very active, resulting in significant a dditive or synergistic effect with unchanged clarithromycin. This is most noticeable against H injluenzae.

CLINICAL TRIALS IN ADULTS
In persons 12 years of age or older with acute group A streptococcal pharyngitis, clarithromycin was as effective as penicillin V in terms of clinical and bacteriological cure rates. In adults with acute maxiiiary sinusitis, clarithromycin was as effective as amoxicillin or as amoxicillin/clavulanate. No significant differences in clinical cure rates were observed in trials comparing clarithromycin with ampicillin, cefaclor or cefuroxime axetil in the treatment of acute exacerbations of chronic bronchitis. In adults with community acquired pneumonia, clarithromycin was as effective as erythromycin stearate.

ADVERSE EFFECTS
Adverse effects reported with the new macrolides have been infrequent and mild_ The incidence of gastrointestinal side effects with clarithromycin in adults was 10%, compared with 21% with erythromycin. Discontinuation of treatment because of gastrointestinal side effects was 3% with clarithromycin, compared with 6% with erythromycin.

Respiratory tract infections:
The excellent activity of clarithromycin and other macrolides against the most common causes of infections of the respiratory tract in children combined with a lack of significant gastrointestinal side effects and the convenience of twice-daily dosing will make these antibiotics very attractive for treatment of otitis media, sinusitis, pneumonia and pertussis once liquid suspensions are available. They will probably replace erythromycin formulations for all situations in which a macrolide is indicated. However. they will remain drugs of third choice for most indications because they are not likely to be any more effective than currently available and much less expensive antibiotics such as amoxicillin, pivampicillin and trimethoprim-sulfamethoxazole.

Mycobacterial infections:
The new macrolides may prove to be drugs of choice for treatment of infections with atypical mycobacteria, especially Mycobacterium avium complex. Preliminary results also suggest that the macrolides will h ave a role in the treatment of leprosy. Unfortunately, they have little activity against Chlamydia! sex ually transmitted diseases: In two randomized trials , single-dose treatment with azithromycin proved to be as effective as seven days of doxycycline in adolescents and adults with chlamydia urethritis and/ or cervicitis.