Sulfonamides adverse effects

Trimethoprim (Trimpex) interferes with the ability of bacteria to metabolize folinic acid, thereby exerting bacteriostatic activity. Trimethoprim is used for UTIs that are caused by susceptible microorganisms. Trimethoprim administration may result in rash, pruritus, epigastric distress, nausea, and vomiting. When trimethoprim is combined with sulfamethoxazole (Septra), the adverse effects associated with a sulfonamide may also occur. The adverse reactions seen with other anti-infectives, such as ampicillin, the sulfonamides, and cephalosporins, are given in their appropriate chapters. 

Sulfasalazine is associated with various adverse effects, most of which are thought to be due to the sulfapyridine component. Common adverse effects that may be dose related include headache, dyspepsia, nausea, vomiting, and fatigue.19 Idiosyncratic effects include bone marrow suppression, reduction in sperm counts in males, hepatitis, and pulmonitis. Hypersensitivity reactions may occur in patients allergic to sulfonamide-containing medications. 

The use of non-sulfapyridine-based aminosalicylates has led to greater tolerability. Although the adverse effects are similar to those of sulfasalazine, they occur at a much lower rate. Olsalazine, in particular, is associated with a higher incidence of secretory diarrhea. These agents can also be used safely in patients with a reported sulfonamide allergy. 

Host factors can help to ensure selection of the most appropriate antimicrobial agent. Age is an important factor in antimicrobial selection. With regard to dose and interval, renal and hepatic function varies with age. Populations with diminished renal function include neonates and the elderly. Hepatic function in the neonate is not fully developed, and drugs that are metabolized or eliminated by this route may produce adverse effects. For example, sulfonamides and ceftriaxone may compete with bilirubin for binding sites and may result in hyperbilirubinemia and kernicterus. Gastric acidity also depends on... 

Sulfasalazine is an antiinflammatory agent that inhibits 5-lipoxygenase. It is used selectively as an alternative treatment, particularly in patients with concurrent psoriatic arthritis. When used alone, it is not as effective as methotrexate, PUVA, or acitretin. However, it has a relatively high margin of safety. The usual oral dose is 3 to 4 g/day for 8 weeks. Its adverse effects are similar to other sulfonamide antibiotics. 

In patients with significant bacteriuria, symptomatic or asymptomatic, treatment is recommended in order to avoid possible complications during the pregnancy. Therapy should consist of an agent with a relatively low adverse-effect potential (a sulfonamide, cephalexin, amoxicillin, amoxicillin/clavulanate, nitrofurantoin) administered for 7 days. 

Co-trimoxazole is a combination of trimethoprim and the sulfonamide sulfamethoxazole. Since THF synthesis is inhibited at two successive steps, the antibacterial effect of co-trimoxazole is better than that of the individual components. Resistant pathogens are infrequent a bactericidal effect may occur. Adverse effects correspond to those of the components. 

Dapsone is a sulfone that, like sulfonamides, inhibits dihydrofolate synthesis (p. 272). It is bactericidal against susceptible strains of M. leprae. Dapsone is given orally. The most frequent adverse effect is methemoglobinemia with accelerated erythrocyte degradation (hemolysis). 

Lactation TMP-SMZ is not recommended in the nursing period because sulfonamides are excreted in breast milk and may cause kernicterus. Premature infants and infants with hyperbilirubinemia or G-6-PD deficiency are also at risk for adverse effects. 

Furosemide, torsemide, and bumetanide are sulfonamide derivatives, hence chemically related to the thiazides. They share the thiazides adverse effects of serum uric acid elevation and diabetogenic potential. Ethacrynic acid (Edecrin) is chemically unrelated to other diuretics and does not appear to have diabetogenic potential. 

Serious adverse effects are rare except in AIDS patients. TMP-SMX can cause the same adverse effects as those associated with sulfonamide administration, including skin rashes, central nervous system (CNS) disturbances, and blood dyscrasias. Blood dyscrasias, hepatotoxicity, and skin rashes are particularly common in patients with AIDS. Most of the adverse effects of this combination are due to the sulfamethoxazole component. Trimethoprim may increase the hematological toxicity of sulfamethoxazole. Long-term use of trimethoprim in persons with borderline foUc acid deficiency, such as alcoholics and the malnourished, may result in megaloblastic anemia, thrombocytopenia, and granulocytopenia. 

All loop diuretics, with the exception of ethacrynic acid, are sulfonamides. Therefore, skin rash, eosinophilia, and less often, interstitial nephritis are occasional adverse effects of these drugs. This toxicity usually resolves rapidly after drug withdrawal. Allergic reactions are much less common with ethacrynic acid. 

Celecoxib is associated with fewer endoscopic ulcers than most other NSAIDs. Probably because it is a sulfonamide, celecoxib may cause rashes. It does not affect platelet aggregation at usual doses. It interacts occasionally with warfarin—as would be expected of a drug metabolized via CYP2C9. Adverse effects are the common toxicities listed above. 

All sulfonamides, including antimicrobial sulfas, diuretics, diazoxide, and the sulfonylurea hypoglycemic agents, have been considered to be partially cross-allergenic. Flowever, evidence for this is not extensive. The most common adverse effects are fever, skin rashes, exfoliative dermatitis, photosensitivity, urticaria, nausea, vomiting, diarrhea, and difficulties referable to the urinary tract (see below). Stevens-Johnson syndrome, although relatively uncommon (ie, < 1% of treatment courses), is a particularly serious and potentially fatal type of skin and mucous membrane eruption associated with sulfonamide use. Other unwanted effects include stomatitis, conjunctivitis, arthritis, hematopoietic disturbances (see below), hepatitis, and, rarely, polyarteritis nodosa and psychosis. 

Trimethoprim produces the predictable adverse effects of an antifolate drug, especially megaloblastic anemia, leukopenia, and granulocytopenia. The combination trimethoprim-sulfamethoxazole may cause all of the untoward reactions associated with sulfonamides. Nausea and vomiting, drug fever, vasculitis, renal damage, and central nervous system disturbances occasionally occur also. Patients with AIDS and pneumocystis pneumonia have a particularly high frequency of untoward reactions to trimethoprim-sulfamethoxazole, especially fever, rashes, leukopenia, diarrhea, elevations of hepatic aminotransferases, hyperkalemia, and hyponatremia. 

Dapsone (Avlosulfon) is a member of a class of chemical agents known as the sulfones. Dapsone is especially effective against M. leprae and is used with rifampin as the primary method of treating leprosy. Dapsone appears to exert its antibacterial effects in a manner similar to that of the sulfonamide drugs that is, dapsone impairs folic acid synthesis by competing with PABA in bacterial cells. Primary adverse effects associated with dapsone include peripheral motor weakness, hypersensitivity reactions (skin rashes, itching), fever, and blood dyscrasias, such as hemolytic anemia. 

Adverse effects The side effects include gastrointestinal distress. At higher doses, albuminuria, hematuria and rashes may develop. Methenamine mandelate is contraindicated in treating patients with renal insufficiency, because mandelic acid may precipitate. Sulfonamides react with formaldehyde and must not be used concomitantly with methenamine. 

Headache, drowsiness, lowered mental acuity, and other psychiatric effects can be caused by sulfonamides (606). However, these adverse effects are rare, and the causative role of the drug is usually not clearly established. 

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