An antibiotic, C11H12Cl2N2O5, derived from the soil bacterium Streptomyces venezuelae or produced synthetically and effective against a broad spectrum of microorganisms.
[CHLOR(O)– + AM(IDE) + PHE(NO)– + NI(TRO)– + (GLY)COL.]
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Results for chloramphenicol
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Dental Dictionary:
Chloramphenicol
n
A broadspectrum antibacterial and antirick-ettsial agent that should be reserved for serious infections in which other agents are ineffective.
Drug Info:
Chloramphenicol
Brand names: AK-Chlor®, Chloromycetin®, Chloroptic®, Chloroptic® S.O.P., Ocu-Chlor®
Chemical formula:
- Drug Forms:
- Chloramphenicol capsules (below)
- Chloramphenicol oral suspension
- Chloramphenicol injection
- Chloramphenicol eye ointment or solution
- Chloramphenicol ear solution
- Chloramphenicol skin cream
- Español:
- Cápsulas de cloranfenicol
- Suspensión oral de cloranfenicol
- Inyección de cloranfenicol
- Pomada o solución ocular de cloranfenicol
- Solución ótica de cloranfenicol
- Crema de cloranfenicol para la piel
Chloramphenicol capsules
What are chloramphenicol capsules?
CHLORAMPHENICOL (Chloromycetin®) is an antibiotic or antiinfective. It treats certain types of brain, lung, blood, or other serious infection. Generic chloramphenicol capsules are available.
What should I tell my health care provider before I take this medicine?
They need to know if you have any of these conditions:
• anemia or other blood disorders
• dental problems
• glucose 6-phosphate dehydrogenase (G6PD) deficiency
• liver disease
• kidney disease
• other chronic illness
• porphyria
• an unusual or allergic reaction to chloramphenicol, other antibiotics or preservatives
• pregnant or trying to get pregnant
• breast-feeding
How should I take this medicine?
Chloramphenicol capsules are taken by mouth. Follow the directions on the prescription label. Take at regular intervals through the day and night (every 6 hours around the clock). Take the capsules with a full glass of water. Take 1 hour before or 2 hours after eating; taking it with food can make it less effective. Do not take your medicine more often than directed. Finish the full course of medicine prescribed by your prescriber or health care professional even if you feel better. Do not stop using except on your prescriber's advice.
Contact your pediatrician or health care professional regarding the use of this medicine in children. Special care may be needed.
What if I miss a dose?
If you miss a dose, take it as soon as you can. If it is almost time for your next dose, take only that dose. Do not take double or extra doses.What drug(s) may interact with chloramphenicol?
• antibiotics
• B vitamins
• chlorpropamide
• doxercalciferol
• entacapone
• iron
• oral contraceptives (birth control pills)
• paricalcitol
• phenobarbital
• phenytoin
• ramelteon
• rifampin
• tolbutamide
• warfarin
Tell your prescriber or health care professional about all other medicines you are taking, including non-prescription medicines, nutritional supplements, or herbal products. Also tell your prescriber or health care professional if you are a frequent user of drinks with caffeine or alcohol, if you smoke, or if you use illegal drugs. These may affect the way your medicine works. Check with your health care professional before stopping or starting any of your medicines.
What should I watch for while taking chloramphenicol?
Tell your prescriber or health care professional if your symptoms have not improved in a few days.
If you are taking this medicine for a long time you must visit your prescriber or health care professional for regular blood checks.
Chloramphenicol can cause blood problems. This can mean slow healing and a risk of infection. Problems can arise if you need dental work, or in the day to day care of your teeth. Try to avoid damage to your teeth and gums when you brush or floss your teeth.
If you are diabetic you may get a false-positive result for sugar in your urine. Check with your prescriber or health care professional before you change your diet or the dose of your diabetic medicine.
What side effects may I notice from taking chloramphenicol?
Serious side effects include:
• unusual bleeding or bruising
• fever or chills, sore throat
• mouth sores
• unusual weakness or tiredness
• skin rash, itching
• confusion
• blurred vision
• gray syndrome (blue-gray skin color, low body temperature, uneven breathing, bloated stomach)
Call your prescriber or health care professional as soon as you can if you notice any of these side effects.
Children up to the age of 2 can develop "gray-baby" syndrome. Symptoms include refusal to eat, swollen stomach, paleness and a blue or gray skin color, limpness, and difficulty breathing. Death can result in just a few hours. If any of these symptoms occur, STOP GIVING THE MEDICATION AND SEEK MEDICAL HELP IMMEDIATELY.
Minor side effects include:
• headache
• nausea, vomiting
• diarrhea
Where can I keep my medicine?
Keep out of the reach of children in a container that small children cannot open.
Store at room temperature below 30 degrees C (86 degrees F). Protect from moisture. Throw away any unused medicine after the expiration date.
Last updated: 7/1/2002
Important Disclaimer: The drug information provided here is for educational purposes only. It is intended to supplement, not substitute for, the diagnosis, treatment and advice of a medical professional. This drug information does not cover all possible uses, precautions, side effects and interactions. It should not be construed to indicate that this or any drug is safe for you. Consult your medical professional for guidance before using any prescription or over the counter drugs.
Columbia Encyclopedia:
chloramphenicol
(klōr'ămfĕn'əkŏl') , antibiotic effective against a wide range of gram-negative and gram-positive bacteria (see Gram's stain). It was originally isolated from a species of Streptomyces bacteria. Chloramphenicol's antibiotic activity results from its interference with protein synthesis in invading microbes. However, it is a very toxic substance, its most serious and potentially lethal effect being depression of red blood cell production in bone marrow; cases of leukemia were also attributed to early use of chloramphenicol. Because of its toxicity, chloramphenicol is rarely prescribed for infections that can be treated by other antibiotics. It is used as an alternative therapy to treat typhoid fever, some forms of meningitis, and rickettsial infections such as Rocky Mountain spotted fever and typhus. Chloramphenicol is commonly used in biological research to study protein synthesis. Chloromycetin is a trade name for chloramphenicol.
Veterinary Dictionary:
chloramphenicol
A broad-spectrum antibiotic with specific therapeutic activity against gram-positive and gram-negative bacteria, rickettsiae, chlamydia and anaplasmae. Side-effects in animals are uncommon, but its use in food-producing animals is discouraged or prohibited because of the danger of residues to humans. The palmitate preparation is a suspension administered orally and chloramphenicol sodium succinate is water soluble for parenteral use.
Wikipedia:
chloramphenicol
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Chloramphenicol
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| Systematic (IUPAC) name | |
| 2,2-dichlor-N- [(aR,bR)-b-hydroxy-a-hydroxymethyl- 4-nitrophenethyl] acetamide | |
| Identifiers | |
| CAS number | |
| ATC code | D06 D10AF03 G01AA05 J01BA01 S01AA01 S02AA01 S03AA08 |
| PubChem | |
| DrugBank | |
| Chemical data | |
| Formula | C11H12Cl2N2O5 |
| Mol. mass | 323.132 g/mol |
| Pharmacokinetic data | |
| Bioavailability | 75–90% |
| Metabolism | Hepatic |
| Half life | 1.5–4.0 hours |
| Excretion | Renal |
| Therapeutic considerations | |
| Pregnancy cat. |
C (A topical) |
| Legal status |
ocular P, else POM (UK) |
| Routes | Topical (ocular), oral, IV, IM |
Chloramphenicol is a bacteriostatic antimicrobial originally derived from the bacterium Streptomyces venezuelae, isolated by David Gottlieb, and introduced into clinical practice in 1949.
It was the first antibiotic to be manufactured synthetically on a large scale. Chloramphenicol is effective against a wide variety of microorganisms; it is still very widely used in low income countries because it is exceedingly cheap, but has fallen out of favour in the West due to a very rare but very serious side effect: aplastic anemia.
In the West, the main use of chloramphenicol is in eye drops or ointment for bacterial conjunctivitis.
Dosage
The usual dose is 50 mg/kg/day in four divided doses: the usual dose in an adult male is therefore around 750 mg four times daily; this dose is doubled in severe illness. Half the dose is used in premature babies or neonates, because they do not metabolise the drug as effectively.
Chloramphenicol is available as 250 mg capsules or as a liquid (125 mg/5 ml). In some countries, chloramphenicol is sold as chloramphenicol palmitate ester. Chloramphenicol palmitate ester is inactive, and is hydrolysed to active chloramphenicol in the small intestine. There is no difference in bioavailability between chloramphenicol and chloramphenicol palmitate.
The intravenous (IV) preparation of chloramphenicol is the succinate ester, because pure chloramphenicol does not dissolve in water. This creates a problem: chloramphenicol succinate ester is an inactive prodrug and must first be hydrolysed to chloramphenicol; the hydrolysis process is incomplete and 30% of the dose is lost unchanged in the urine, therefore serum concentrations of chloramphenicol are only 70% of those achieved when chloramphenicol is given orally.[1] For this reason, the chloramphenicol dose needs to be increased to 75 mg/kg/day when administered IV in order to achieve levels equivalent to the oral dose.[2] The oral route is therefore preferred to the intravenous route.
Manufacture of oral chloramphenicol in the U.S. stopped in 1991, because the vast majority of chloramphenicol-associated cases of aplastic anaemia are associated with the oral preparation. There is now no oral formulation of chloramphenicol available in the U.S., although there is no theoretical reason why the intravenous preparation should not be equally effective (or perhaps even more effective) when taken by mouth.
Dose monitoring
Chloramphenicol and the liver
Chloramphenicol is metabolised by the liver to chloramphenicol glucuronate (which is inactive). In liver impairment, the dose of chloramphenicol must therefore be reduced. There is no standard dose reduction for chloramphenicol in liver impairment, and the dose should be adjusted according to measured plasma concentrations.
Chloramphenicol and the kidneys
The majority of the chloramphenicol dose is excreted by the kidneys as the inactive metabolite, chloramphenicol glucuronate. Only a tiny fraction of the chloramphenicol is excreted by the kidneys unchanged. It is suggested that plasma levels be monitored in patients with renal impairment, but this is not mandatory. Chloramphenicol succinate ester (the inactive intravenous form of the drug) is readily excreted unchanged by the kidneys, more so than chloramphenicol base, and this is the major reason why levels of chloramphenicol in the blood are much lower when given intravenously than orally.
Oily chloramphenicol
Dose: 100 mg/kg (maximum dose 3 g) as a single intramuscular injection. The dose is repeated if there is no clinical response after 48 hours. A single injection costs approximately US$5.
Oily chloramphenicol (or chloramphenicol oil suspension) is a long-acting preparation of chloramphenicol first introduced by Roussel in 1954; marketed as Tifomycine®, it was originally used as a treatment for typhoid. Roussel stopped production of oily chloramphenicol in 1995; the International Dispensary Association has manufactured it since 1998, first in Malta and then in India from December 2004.
Oily chloramphenicol is recommended by the World Health Organization (WHO) as the first line treatment of meningitis in low-income countries and appears on the essential drugs list. It was first used to treat meningitis in 1975[3] and there have been numerous studies since demonstrating its efficacy.[4][5][6] It is the cheapest treatment available for meningitis (US$5 per treatment course, compared to US$30 for ampicillin and US$15 for five days of ceftriaxone). It has the great advantage of requiring only a single injection, whereas ceftriaxone is traditionally given daily for five days. This recommendation may yet change now that a single dose of ceftriaxone (cost US$3) has been shown to be equivalent to one dose of oily chloramphenicol.[7]
Oily chloramphenicol is not currently available in the U.S. or Europe.
Chloramphenicol eye drops
In the West, chloramphenicol is still widely used in topical preparations (ointments and eye drops) for the treatment of bacterial conjunctivitis. Isolated cases report of aplastic anaemia following chloramphenicol eyedrops exist, but the risk is estimated to be less than 1 in 224,716 prescriptions.[8]
Pharmacology
Chloramphenicol is extremely lipid soluble, it remains relatively unbound to protein and is a small molecule: it has a large apparent volume of distribution of 100 litres and penetrates effectively into all tissues of the body, including the brain. The concentration achieved in brain and cerebrospinal fluid (CSF) is around 30 to 50% even when the meninges are not inflamed; this increases to as high as 89% when the meninges are inflamed.
Chloramphenicol increases the absorption of iron.[9]
Uses
Because it functions by inhibiting bacterial protein synthesis, chloramphenicol has a very broad spectrum of activity: it is active against Gram-positive bacteria (including most strains of MRSA), Gram-negative bacteria and anaerobes.[10] It is not active against Pseudomonas aeruginosa or Enterobacter species. It has some activity against Burkholderia pseudomallei, but is no longer routinely used to treat infections caused by this organism (it has been superseded by ceftazidime and meropenem). In the West, chloramphenicol is mostly restricted to topical uses because of the worries about the risk of aplastic anaemia.
The original indication of chloramphenicol was in the treatment of typhoid, but the now almost universal presence of multi-drug resistant Salmonella typhi has meant that it is seldom used for this indication except when the organism is known to be sensitive. Chloramphenicol may be used as a second-line agent in the treatment of tetracycline-resistant cholera.
Because of its excellent CSF penetration (far superior to any of the cephalosporins), chloramphenicol remains the first choice treatment for staphylococcal brain abscesses. It is also useful in the treatment of brain abscesses due to mixed organisms or when the causative organism is not known.
Chloramphenicol is active against the three main bacterial causes of meningitis: Neisseria meningitidis, Streptococcus pneumoniae and Haemophilus influenzae. In the West, chloramphenicol remains the drug of choice in the treatment of meningitis in patients with severe penicillin or cephalosporin allergy and GPs are recommended to carry intravenous chloramphenicol in their bag. In low income countries, the WHO recommend that oily chloramphenicol be used first-line to treat meningitis.
Chloramphenicol has been used in the U.S. in the initial empirical treatment of children with fever and a petechial rash, when the differential diagnosis includes both Neisseria meningitidis septicaemia as well as Rocky Mountain spotted fever, pending the results of diagnostic investigations.
Chloramphenicol is also effective against Enterococcus faecium, which has led to it being considered for treatment of vancomycin-resistant enterococci.
Adverse effects
Aplastic anemia
The most serious side effect of chloramphenicol treatment is aplastic anaemia.[11] This effect is rare and is generally fatal: there is no treatment and there is no way of predicting who may or may not get this side effect. The effect usually occurs weeks or months after chloramphenicol treatment has been stopped and there may be a genetic predisposition.[12] It is not known whether monitoring the blood counts of patients can prevent the development of aplastic anaemia, but it is recommended that patients have a blood count checked twice weekly while on treatment. The highest risk is with oral chloramphenicol[13] (affecting 1 in 24,000–40,000)[14] and the lowest risk occurs with eye drops (affecting less than 1 in 224,716 prescriptions).[8]
Thiamphenicol is a related compound with a similar spectrum of activity that is available in Italy and China for human use, and has never been associated with aplastic anaemia. Thiamphenicol is available in the U.S. and Europe as a veterinary antibiotic, and is not approved for use in humans.
Bone marrow suppression
It is common for chloramphenicol to cause bone marrow suppression during treatment: this is a direct toxic effect of the drug on human mitochondria. This effect manifests first as a fall in haemoglobin levels and occurs quite predictably once a cumulative dose of 20 g has been given. This effect is fully reversible once the drug is stopped and does not predict future development of aplastic anaemia.
Leukaemia
There is an increased risk of childhood leukaemia as demonstrated in a Chinese case-controlled study,[15] and the risk increases with length of treatment.
Gray baby syndrome
Intravenous chloramphenicol use has been associated with the so called gray baby syndrome.[16] This phenomenon occurs in newborn infants because they do not yet have fully functional liver enzymes, and so chloramphenicol remains unmetabolized in the body.[17] This causes several adverse effects, including hypotension and cyanosis. The condition can be prevented by using chloramphenicol at the recommended doses and monitoring blood levels.[18][19][20]
Mechanism and resistance
Chloramphenicol is bacteriostatic (that is, it stops bacterial growth). It functions by inhibiting peptidyl transferase, preventing peptide bond formation. While chloramphenicol and the macrolide class of antibiotics both interact with the 50S ribosomal subunit, chloramphenicol is not a macrolide. Furthermore, their mechanisms are slightly different. While chloramphenicol directly interferes with substrate binding, macrolides sterically block the progression of the growing peptide.
There are three mechanisms of resistance to chloramphenicol: reduced membrane permeability, mutation of the 50S ribosomal subunit and elaboration of chloramphenicol acetyltransferase. It is easy to select for reduced membrane permability to chloramphenicol in vitro by serial passage of bacteria, and this is the most common mechanism of low-level chloramphenicol resistance. High level resistance is conferred by the cat-gene; this gene codes for an enzyme called chloramphenicol acetyltransferase which inactivates chloramphenicol by covalently linking one or two acetyl groups, derived from acetyl-S-coenzyme A, to the hydroxyl groups on the chloramphenicol molecule. The acetylation prevents chloramphenicol from binding to the ribosome. Resistance-conferring mutations of the 50S ribosomal subunit are rare.
Chloramphenicol resistance may be carried on a plasmid that also codes for resistance to other drugs. One example is the ACCoT plasmid (A=ampicillin, C=chloramphenicol, Co=co-trimoxazole, T=tetracycline) which mediates multi-drug resistance in typhoid (also called R factors).
Trade names
Chloramphenicol has a long history and therefore a multitude of alternative names in many different countries:
- Alficetyn
- Amphicol
- Biomicin
- Chlornitromycin
- Chloromycetin (U.S., intravenous preparation)
- Chlorsig (U.S., Australia, eye drops)
- Fenicol
- Kemicetine (UK, intravenous preparation)
- Laevomycetin
- Optrex Infected Eyes (UK, eye drops)
- Phenicol
- Nevimycin
- Silmycetin (Thailand, eye drops)
- Synthomycine (Israel, eye ointment)
- Tifomycine (France, oily chloramphenicol)
- Vernacetin
- Veticol
References
- ^ Glazko AJ, Dill WA, Kinkel AW, et al. (1977). "Absorption and excretion of parenteral doses of chloramphenicol sodium succinate in comparison with per oral doses of chloramphenicol (abstract)". Clin Pharmacol Ther 21: 104.
- ^ Bhutta Z, Niazi S, Suria A (Mar-Apr 1992). "Chloramphenicol clearance in typhoid fever: implications for therapy.". Indian J Pediatr 59 (2): 213-9. PMID 1398851.
- ^ Rey M, Ouedraogo L, Saliou P, Perino L (1976). "Traitement minute de la méningite cérébrospinale épidémique par injection intramusculaire unique de chloramphénicol (suspension huileuse)". Médecine et Maladies Infectieuses 6: 120–24.
- ^ Wali S, Macfarlane J, Weir W, Cleland P, Ball P, Hassan-King M, Whittle H, Greenwood B (1979). "Single injection treatment of meningococcal meningitis. 2. Long-acting chloramphenicol.". Trans R Soc Trop Med Hyg 73 (6): 698-702. PMID 538813.
- ^ Puddicombe J, Wali S, Greenwood B (1984). "A field trial of a single intramuscular injection of long-acting chloramphenicol in the treatment of meningococcal meningitis.". Trans R Soc Trop Med Hyg 78 (3): 399-403. PMID 6464136.
- ^ Pécoul B, Varaine F, Keita M, Soga G, Djibo A, Soula G, Abdou A, Etienne J, Rey M (Oct 5 1991). "Long-acting chloramphenicol versus intravenous ampicillin for treatment of bacterial meningitis.". Lancet 338 (8771): 862-6. PMID 1681224.
- ^ Nathan N, Borel T, Djibo A, et al. (2005). "Ceftriaxone as effective as long-acting chloramphenicol in short-course treatment of meningococcal meningitis during epidemics: a randomised non-inferiority study". Lancet 366 (9482): 308–13. PMID 16039333.
- ^ a b Lancaster T, Stewart AM, Jick H (1998). "Risk of serious haematological toxicity with use of chloramphenicol eye drops in a British general practice database". Brit Med J 316: 667. PMID 9522792.
- ^ "Iron Supplements". Pill Book, The (12th revised ed.). (2006). Ed. Harold M. Silverman, Pharm.D. (editor-in-chief). New York: Bantam Dell. pp. 593–596. ISBN 978-0-553-58892-7.
- ^ Neu HC, Gootz TD (1996). Antimicrobial Chemotherapy:Antimicrobial Inhibitors of Ribosome Function.. In: Baron's Medical Microbiology (Baron S et al, eds.), 4th ed., Univ of Texas Medical Branch. (via NCBI Bookshelf) ISBN 0-9631172-1-1.
- ^ Rich M, Ritterhoff R, Hoffmann R (Dec 1950). "A fatal case of aplastic anemia following chloramphenicol (chloromycetin) therapy.". Ann Intern Med 33 (6): 1459-67. PMID 14790529.
- ^ Nagao T, Mauer A (1969). "Concordance for drug-induced aplastic anemia in identical twins.". N Engl J Med 281 (1): 7-11. PMID 5785754.
- ^ Holt R (1967). "The bacterial degradation of chloramphenicol". Lancet i: 1259.
- ^ Wallerstein R, Condit P, Kasper C, Brown J, Morrison F (Jun 16 1969). "Statewide study of chloramphenicol therapy and fatal aplastic anemia.". JAMA 208 (11): 2045-50. PMID 5818983.
- ^ Shu X, Gao Y, Linet M, Brinton L, Gao R, Jin F, Fraumeni J (Oct 24 1987). "Chloramphenicol use and childhood leukaemia in Shanghai.". Lancet 2 (8565): 934-7. PMID 2889862.
- ^ McIntyre J, Choonara I (2004). "Drug toxicity in the neonate.". Biol Neonate 86 (4): 218-21. PMID 15249753.
- ^ Piñeiro-Carrero V, Piñeiro E (2004). "Liver.". Pediatrics 113 (4 Suppl): 1097-106. PMID 15060205.
- ^ Feder H (1986). "Chloramphenicol: what we have learned in the last decade.". South Med J 79 (9): 1129-34. PMID 3529436.
- ^ Mulhall A, de Louvois J, Hurley R (1983). "Chloramphenicol toxicity in neonates: its incidence and prevention." (Scanned copy & PDF). Br Med J (Clin Res Ed) 287 (6403): 1424-7. PMID 6416440.
- ^ Forster J, Hufschmidt C, Niederhoff H, Künzer W (1985). "[Need for the determination of chloramphenicol levels in the treatment of bacterial-purulent meningitis with chloramphenicol succinate in infants and small children]". Monatsschr Kinderheilkd 133 (4): 209-13. PMID 4000136.
External links
| Antibiotics and chemotherapeutics for dermatological use (D06) | |
|---|---|
| Antibiotics: tetracycline and derivatives | Demeclocycline - Chlortetracycline - Oxytetracycline - Tetracycline |
| Antibiotics: other | Fusidic acid - Chloramphenicol - Neomycin - Bacitracin - Gentamicin - Tyrothricin - Mupirocin - Virginiamycin - Rifaximin - Amikacin |
| Chemotherapeutics: sulfonamides | Silver sulfadiazine - Sulfathiazole - Mafenide - Sulfamethizole - Sulfanilamide - Sulfamerazine |
| Chemotherapeutics: antivirals | Idoxuridine - Tromantadine - Aciclovir - Podophyllotoxin - Inosine - Penciclovir - Lysozyme - Ibacitabine - Edoxudine - Imiquimod - Docosanol |
| Chemotherapeutics: other | Metronidazole |
| Gynecological anti-infectives and antiseptics (G01) | |
|---|---|
| Antibiotics | polyene antimycotic (Nystatin, Natamycin, Amphotericin B) - Candicidin - Chloramphenicol - Hachimycin - Oxytetracycline - Carfecillin - Mepartricin - Clindamycin - Pentamycin |
| Arsenic compounds | Acetarsol |
| Quinoline derivatives | Diiodohydroxyquinoline - Clioquinol - Chlorquinaldol - Dequalinium - Broxyquinoline - Oxyquinoline |
| Organic acids | Lactic acid - Acetic acid - Ascorbic acid |
| Sulfonamides | Sulfatolamide |
| Imidazole derivatives | Metronidazole - Clotrimazole - Miconazole - Econazole - Ornidazole - Isoconazole - Tioconazole - Ketoconazole - Fenticonazole - Azanidazole - Propenidazole - Butoconazole - Omoconazole - Oxiconazole - Flutrimazole |
| Triazole derivatives | Terconazole |
| Other | Clodantoin - Inosine - Policresulen - Nifuratel - Furazolidone - Methylrosaniline - Povidone-iodine - Ciclopirox - Protiofate - Lactobacillus fermentum - Copper usnate |
| Antibacterials for systemic use: amphenicols (J01B) |
|---|
| Chloramphenicol - Thiamphenicol - Florfenicol |
| Otologicals (S02) | |
|---|---|
| Anti-infectives | Chloramphenicol - Nitrofural - Boric acid - Aluminium acetotartrate - Clioquinol - Hydrogen peroxide - Neomycin - Tetracycline - Chlorhexidine - Acetic acid - Polymyxin B - Rifamycin - Miconazole - Gentamicin |
| Corticosteroids | Hydrocortisone - Prednisolone - Dexamethasone - Betamethasone |
| Other otologicals | Lidocaine - Cocaine |
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 | Dictionary. The American Heritage® Dictionary of the English Language, Fourth Edition Copyright © 2007, 2000 by Houghton Mifflin Company. Updated in 2007. Published by Houghton Mifflin Company. All rights reserved. Read more |
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| Dental Dictionary. Mosby's Dental Dictionary. Copyright © 2004 by Elsevier, Inc. All rights reserved. Read more |
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| Drug Info. Gold Standard. Copyright © 2008 by Gold Standard. All rights reserved. Read more |
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| Columbia Encyclopedia. The Columbia Electronic Encyclopedia, Sixth Edition Copyright © 2003, Columbia University Press. Licensed from Columbia University Press. All rights reserved. www.cc.columbia.edu/cu/cup/ Read more |
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| Veterinary Dictionary. The Veterinary Dictionary. Copyright © 2007 by Elsevier. All rights reserved. Read more |
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| Wikipedia. This article is licensed under the GNU Free Documentation License. It uses material from the Wikipedia article "Chloramphenicol". Read more |
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