What does amoxicillin allergy look like
Modes of delivery
Pharmaceutical manufacturers make amoxicillin in trihydrate form, for oral use available as capsules, regular, chewable and dispersible tablets, syrup and pediatricsuspension for oral use, and as the sodium salt for intravenous istration. Amoxicillin is most commonly taken orally. The liquid forms are helpful where the patient might discover it hard to take tablets or capsules.
An extended-release is available. The intravenous form of amoxicillin is not sold in the United States. When an intravenous aminopenicillin is required in the United States, ampicillin is typically used.
When there is an adequate response to ampicillin, the course of antibiotic therapy may often be completed with oral amoxicillin.
Research with mice indicated successful delivery using intraperitoneally injected amoxicillin-bearing microparticles.
«Amoxicillin» is the International Nonproprietary Name (INN), British Approved Name (BAN), and United States Adopted Name (USAN), while «amoxycillin» is the Australian Approved Name (AAN).
Amoxicillin is one of the semisynthetic penicillins discovered by Beecham scientists.
The patent for amoxicillin has expired, thus amoxicillin and co-amoxiclav preparations are marketed under various trade names across the world.
See also: Timeline of antibiotics
Amoxicillin was one of several semisynthetic derivatives of 6-aminopenicillanic acid (6-APA) developed at Beecham, England in the 1960s. It became available in 1972 and was the second aminopenicillin to reach the market (after ampicillin in 1961).Co-amoxiclav became available in 1981.
Amoxicillin (α-amino-p-hydroxybenzyl penicillin) is a semisynthetic derivative of penicillin with a structure similar to ampicillin but with better absorption when taken by mouth, thus yielding higher concentrations in blood and in urine. Amoxicillin diffuses easily into tissues and body fluids.
Penetration into the central nervous system increases in meningitis. It will cross the placenta and is excreted into breastmilk in little quantities. It is excreted into the urine and metabolized by the liver. It has an onset of 30 minutes and a half-life of 3.7 hours in newborns and 1.4 hours in adults.
Amoxicillin attaches to the cell wall of susceptible bacteria and results in their death. It also is a bactericidal compound. It is effective against streptococci, pneumococci, enterococci, Haemophilus influenzae, Escherichia coli, Proteus mirabilis, Neisseria meningitidis, Neisseria gonorrhoeae, Shigella, Chlamydia trachomatis, Salmonella, Borrelia burgdorferi, and Helicobacter pylori. As a derivative of ampicillin, amoxicillin is a member of the penicillin family and, love penicillins, is a β-lactam antibiotic. It inhibits cross-linkage between the linear peptidoglycan polymer chains that make up a major component of the bacterial cell wall.
It has two ionizable groups in the physiological range (the amino group in alpha-position to the amide carbonyl group and the carboxyl group).
Adverse effects are similar to those for other β-lactam antibiotics, including nausea, vomiting, rashes, and antibiotic-associated colitis.
Loose bowel movements (diarrhea) may also happen. Rarer adverse effects include mental changes, lightheadedness, insomnia, confusion, anxiety, sensitivity to lights and sounds, and unclear thinking. Immediate medical care is required upon the first signs of these adverse effects.
The onset of an allergic reaction to amoxicillin can be extremely sudden and intense; emergency medical attention must be sought as quickly as possible. The initial phase of such a reaction often starts with a change in mental state, skin rash with intense itching (often beginning in fingertips and around groin area and rapidly spreading), and sensations of fever, nausea, and vomiting.
Any other symptoms that seem even remotely suspicious must be taken extremely seriously. However, more mild allergy symptoms, such as a rash, can happen at any time during treatment, even up to a week after treatment has ceased.
For some people allergic to amoxicillin, the adverse effects can be fatal due to anaphylaxis.
Use of the amoxicillin/clavulanic acid combination for more than one week has caused mild hepatitis in some patients.
Young children having ingested acute overdoses of amoxicillin manifested lethargy, vomiting, and renal dysfunction.
There is poor reporting of adverse effects of amoxicillin from clinical trials. For this reason, the severity and frequency of adverse effects from amoxicillin is probably higher than reported from clinical trials.
Between 3 and 10% of children taking amoxicillin (or ampicillin) show a late-developing (>72 hours after beginning medication and having never taken penicillin-like medication previously) rash, which is sometimes referred to as the «amoxicillin rash».
The rash can also happen in adults.
The rash is described as maculopapular or morbilliform (measles-like; therefore, in medical literature, it is called «amoxicillin-induced morbilliform rash».). It starts on the trunk and can spread from there. This rash is unlikely to be a true allergic reaction and is not a contraindication for future amoxicillin usage, nor should the current regimen necessarily be stopped. However, this common amoxicillin rash and a dangerous allergic reaction cannot easily be distinguished by inexperienced persons, so a healthcare professional is often required to distinguish between the two.
A nonallergic amoxicillin rash may also be an indicator of infectious mononucleosis.
Some studies indicate about 80-90% of patients with acute Epstein Barr virus infection treated with amoxicillin or ampicillin develop such a rash.
Eight hours after the first photo, individual spots own grown and begun to merge.
Nonallergic amoxicillin rash eight days after first dose: This photo was taken 24 hours after the rash began.
At 23 hours after the first photo, the color appears to be fading, and much of rash has spread to confluence.
Amoxicillin may interact with these drugs:
Amoxicillin is used in the treatment of a number of infections, including acute otitis media, streptococcal pharyngitis, pneumonia, skin infections, urinary tract infections, Salmonella infections, Lyme disease, and chlamydia infections.
Infections in infants in resource-limited settings
Amoxicillin is recommended by the World Health Organization for the treatment of infants with signs and symptoms of pneumonia in resource-limited situations when the parents are unable or unwilling to accept hospitalization of the kid.
Amoxicillin in combination with gentamicin is recommended for the treatment of infants with signs of other severe infections when hospitalization is not an option.
It is effective as one part of a multi-drug regimen for treatment of stomach infections of Helicobacter pylori. It is typically combined with a proton-pump inhibitor (such as omeprazole) and a macrolide antibiotic (such as clarithromycin); other drug combinations are also effective.
Amoxicillin and amoxicillin-clavulanate own been recommended by guidelines as the drug of choice for bacterial sinusitis and other respiratory infections. Most sinusitis infections are caused by viruses, for which amoxicillin and amoxicillin-clavulanate are ineffective, and the little benefit gained by amoxicillin may be overridden by the adverse effects. Amoxicillin is recommended as the preferred first-line treatment for community-acquired pneumonia in adults by the National Institute for Health and Care Excellence, either alone (mild to moderate severity disease) or in combination with a macrolide. The World Health Organization (WHO) recommends amoxicillin as first-line treatment for pneumonia that is not «severe». Amoxicillin is used in post-exposure inhalation of anthrax to prevent disease progression and for prophylaxis.
Amoxicillin is effective for treatment of early cutaneous Lyme borreliosis; the effectiveness and safety of oral amoxicillin is neither better nor worse than common alternatively-used antibiotics.
Acute otitis media
Children with acute otitis media who are younger than 6 months of age are generally treated with amoxicillin or other antibiotic.
Although most children with acute otitis media who are older than two years ancient do not benefit from treatment with amoxicillin or other antibiotic, such treatment may be helpful in children younger than two years ancient with acute otitis media that is bilateral or accompanied by ear drainage. In the past, amoxicillin was dosed three times daily when used to treat acute otitis media, which resulted in missed doses in routine ambulatory practice.
There is now evidence that two times daily dosing or once daily dosing has similar effectiveness.
Amoxicillin is occasionally used for the treatment of skin infections, such as acne vulgaris. It is often an effective treatment for cases of acne vulgaris that own responded poorly to other antibiotics, such as doxycycline and minocycline.
Amoxicillin is susceptible to degradation by β-lactamase-producing bacteria, which are resistant to most β-lactam antibiotics, such as penicillin. For this reason, it may be combined with clavulanic acid, a β-lactamase inhibitor.
This drug combination is commonly called co-amoxiclav.
Prevention of bacterial endocarditis
It is also used to prevent bacterial endocarditis in high-risk people having dental work done, to prevent Streptococcus pneumoniae and other encapsulated bacterial infections in those without spleens, such as people with sickle-cell disease, and for both the prevention and the treatment of anthrax. The United Kingdom recommends against its use for infectious endocarditis prophylaxis. These recommendations do not appear to own changed the rates of infection for infectious endocarditis.
Spectrum of activity
It is a moderate-spectrum, bacteriolytic, β-lactam antibiotic in the aminopenicillin family used to treat susceptible Gram-positive and Gram-negative bacteria.
It is generally the drug of choice within the class because it is better-absorbed, following oral istration, than other β-lactam antibiotics. In general, Streptococcus, Bacillus subtilis, Enterococcus, Haemophilus, Helicobacter, and Moraxella are susceptible to amoxicillin, whereas Citrobacter, Klebsiella and Pseudomonas aeruginosa are resistant to it. Some E. coli and most clinical strains of Staphylococcus aureus own developed resistance to amoxicillin to varying degrees.
Amoxicillin is also sometimes used as an antibiotic for animals.
The use of amoxicillin for animals intended for human consumption (chickens, cattle, and swine for example) has been approved.