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{{drugbox
__NOTOC__
| IUPAC_name = 3-[4-(4-chlorophenyl)cyclohexyl]- 4-hydroxy-naphthalene-1,2-dione
{{XXXXX}}
| image = 220px-Atovaquone_structure_svg.png
| CAS_number = 95233-18-4
| ATC_prefix = P01
| ATC_suffix = AX06
| ATC_supplemental =
| PubChem = 74989
| DrugBank = APRD00805
| C=22 | H=19 | Cl=1 | O=3
| molecular_weight = 366.837 g/mol
| bioavailability =
| protein_bound =
| metabolism =
| elimination_half-life = 2.2 to 3.2 days
| pregnancy_category =
| legal_status = PoM (UK), Rx [US]
| routes_of_administration = oral only
}}
 
{{SI}}
{{CMG}}
{{CMG}}


 
==Overview==
[[Image:270px-Malarone tablets.jpg|200px|thumb|left|Malarone anti-malaria tablets, as issued in the UK.]]
'''Atovaquone''' (alternative spelling: '''atavaquone''') is a chemical compound that belongs to the class of [[naphthalene]]s. Atovaquone is a hydroxy-1,4-naphthoquinone, an analog of [[ubiquinone]], with antipneumocystic activity. Its average wholesale price is about $2.13 per standard 250 mg. tablet.<ref>[http://www.aegis.com/pubs/atn/1992/ATN16401.html (ATN) Atovaquone (Mepron; 566C80) Approved for Pneumocystis; Drug Development, Activism Success]</ref> It is also manufactured in the US in the liquid form, or oral suspension, under the brand name Mepron.<ref>[http://www.drugs.com/pro/mepron.html Mepron]</ref>
'''Atovaquone''' (alternative spelling: '''atavaquone''') is a chemical compound that belongs to the class of [[naphthalene]]s. Atovaquone is a hydroxy-1,4-naphthoquinone, an analog of [[ubiquinone]], with antipneumocystic activity. Its average wholesale price is about $2.13 per standard 250 mg. tablet.<ref>[http://www.aegis.com/pubs/atn/1992/ATN16401.html (ATN) Atovaquone (Mepron; 566C80) Approved for Pneumocystis; Drug Development, Activism Success]</ref> It is also manufactured in the US in the liquid form, or oral suspension, under the brand name Mepron.<ref>[http://www.drugs.com/pro/mepron.html Mepron]</ref>


Line 32: Line 12:


[[Co-trimoxazole|Trimethoprim-sulfamethoxazole]] (TMP-SMX, Bactrim) is generally considered first line therapy for PCP or toxoplasmosis. However, atovaquone may be used in patients who cannot tolerate, or are allergic to, TMP-SMX. In addition, atovaquone has the advantage of not causing [[myelosuppression]], which is an important issue in patients who have undergone [[bone marrow transplantation]].
[[Co-trimoxazole|Trimethoprim-sulfamethoxazole]] (TMP-SMX, Bactrim) is generally considered first line therapy for PCP or toxoplasmosis. However, atovaquone may be used in patients who cannot tolerate, or are allergic to, TMP-SMX. In addition, atovaquone has the advantage of not causing [[myelosuppression]], which is an important issue in patients who have undergone [[bone marrow transplantation]].
==Category==
==US Brand Names==
==FDA Package Insert==
'''  [[XXXXX description|Description]]'''
'''| [[XXXXX clinical pharmacology|Clinical Pharmacology]]'''
'''| [[XXXXX microbiology|Microbiology]]'''
'''| [[XXXXX indications and usage|Indications and Usage]]'''
'''| [[XXXXX contraindications|Contraindications]]'''
'''| [[XXXXX warnings and precautions|Warnings and Precautions]]'''
'''| [[XXXXX adverse reactions|Adverse Reactions]]'''
'''| [[XXXXX drug interactions|Drug Interactions]]'''
'''| [[XXXXX overdosage|Overdosage]]'''
'''| [[XXXXX clinical studies|Clinical Studies]]'''
'''| [[XXXXX dosage and administration|Dosage and Administration]]'''
'''| [[XXXXX how supplied|How Supplied]]'''
'''| [[XXXXX labels and packages|Labels and Packages]]'''
==Mechanism of Action==


==Malaria==
==Malaria==
Line 39: Line 44:


===Treatment===
===Treatment===
The adult treatment dose is four "standard" tablets once a day for three days.  In children, the drug is prescribed by body weight:
The adult treatment dose is four "standard" tablets once a day for three days.  In children, the drug is prescribed by body weight:
*11 to 20&nbsp;kg: 1 "standard" tablet once daily for 3 days;
*11 to 20&nbsp;kg: 1 "standard" tablet once daily for 3 days;
Line 48: Line 54:
The advice of a specialist should always be sought when starting malaria treatment.  Malarone should not be used to treat severe malaria, when an injectable drug ([[quinine]] or [[artesunate]] in the UK; [[quinidine]] in the US) should be used instead.
The advice of a specialist should always be sought when starting malaria treatment.  Malarone should not be used to treat severe malaria, when an injectable drug ([[quinine]] or [[artesunate]] in the UK; [[quinidine]] in the US) should be used instead.


===Prevention===
==Prevention==
 
Medical advice should always be taken before choosing a drug for malaria prevention. Because some strains of malaria are resistant, Malarone is not effective for malaria prevention in all parts of the world. It must be taken with a fatty meal or at least some milk to be absorbed adequately.
Medical advice should always be taken before choosing a drug for malaria prevention. Because some strains of malaria are resistant, Malarone is not effective for malaria prevention in all parts of the world. It must be taken with a fatty meal or at least some milk to be absorbed adequately.


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The duration of treatment is the same as for adults.
The duration of treatment is the same as for adults.


===Resistance===
==Resistance==
 
Proguanil acts as a [[mitochondrion|mitochondrial]] sensitiser and synergizes with atovaquone; also, there is a high natural frequency of [[Duodenal cytochrome B|cytochrome B]] mutants which leads to a high failure rate if atovaquone is used on its own to treat malaria.  Specific mutations (Y268S, Y268C) have been shown to confer resistance ''in vivo,''<ref>{{cite journal | author=Färnet A, Lindberg J, Gil P, ''et al.'' | title=Evidence of ''Plasmodium falciparum'' malaria resistant to atovaquone and proguoanil hydrochloride: case reports | year=2003 | journal=Brit Med J | volume=326 | pages=628&ndash;29 }}</ref><ref>{{cite journal | author=Fivelman QL, Butcher GA, Adagu IS, ''et al.'' | title=Malarone treatment failure and in-vitro confirmation of resistance of ''Plasmodium falciparum'' isolate from Lagos, Nigeria | year=2002 | journal=Malaria J | volume=1 | pages=1 }}</ref><ref>{{cite journal | author=Schwartz E, Bujanover S, Kain KC | title=Genetic confirmation of atovaquone-proguanil-resistant ''Plasmodium falciparum'' malaria acquired by a nonimmune traveller to east Africa | year=2003 | journal=Clin Infect Dis | volume=37 | pages=450&ndash;51 }}</ref> but there are other mechanisms of resistance that remain unknown.<ref>{{cite journal | author=Wichmann O, Muehlen M, Gruss H, ''et al.'' | title=Malarone treatment failure not associated with previously described mutations in the cytochrome b gene | year=2004 | journal=Malaria J | volume=3 | pages=14 }}</ref>
Proguanil acts as a [[mitochondrion|mitochondrial]] sensitiser and synergizes with atovaquone; also, there is a high natural frequency of [[Duodenal cytochrome B|cytochrome B]] mutants which leads to a high failure rate if atovaquone is used on its own to treat malaria.  Specific mutations (Y268S, Y268C) have been shown to confer resistance ''in vivo,''<ref>{{cite journal | author=Färnet A, Lindberg J, Gil P, ''et al.'' | title=Evidence of ''Plasmodium falciparum'' malaria resistant to atovaquone and proguoanil hydrochloride: case reports | year=2003 | journal=Brit Med J | volume=326 | pages=628&ndash;29 }}</ref><ref>{{cite journal | author=Fivelman QL, Butcher GA, Adagu IS, ''et al.'' | title=Malarone treatment failure and in-vitro confirmation of resistance of ''Plasmodium falciparum'' isolate from Lagos, Nigeria | year=2002 | journal=Malaria J | volume=1 | pages=1 }}</ref><ref>{{cite journal | author=Schwartz E, Bujanover S, Kain KC | title=Genetic confirmation of atovaquone-proguanil-resistant ''Plasmodium falciparum'' malaria acquired by a nonimmune traveller to east Africa | year=2003 | journal=Clin Infect Dis | volume=37 | pages=450&ndash;51 }}</ref> but there are other mechanisms of resistance that remain unknown.<ref>{{cite journal | author=Wichmann O, Muehlen M, Gruss H, ''et al.'' | title=Malarone treatment failure not associated with previously described mutations in the cytochrome b gene | year=2004 | journal=Malaria J | volume=3 | pages=14 }}</ref>


==References==
==References==
{{reflist|2}}
{{Reflist|2}}
 
==External links==
* [http://www.dartmouth.edu/~blt/Publications/JBC279,2817.pdf#search='Atovaquone' Molecular Basis for Atovaquone Resistance in Pneumocystis jirovecii]
* [http://www.lymenet.de/literatur/atovaquone.htm Atovaquone (Meprone)]
* [http://www.bnf.org British National Formulary]
{{Agents against amoebiasis and other protozoal diseases}}
 
 
 
[[Category:Antimalarial agents]]
[[Category:Naphthalenes]]
[[Category:Organochlorides]]
 
[[de:Atovaquon]]
[[fr:Atovaquone]]
[[pl:Atowakwon]]


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Revision as of 00:57, 7 January 2014


Editor-In-Chief: C. Michael Gibson, M.S., M.D. [1]

Overview

Atovaquone (alternative spelling: atavaquone) is a chemical compound that belongs to the class of naphthalenes. Atovaquone is a hydroxy-1,4-naphthoquinone, an analog of ubiquinone, with antipneumocystic activity. Its average wholesale price is about $2.13 per standard 250 mg. tablet.[1] It is also manufactured in the US in the liquid form, or oral suspension, under the brand name Mepron.[2]

Atovaquone is a medication used to treat or prevent:

  1. Pneumocystis pneumonia (PCP), although it is not approved for treatment of severe PCP.
  2. Toxoplasmosis. The medication has antiparasitic and therapeutic effects.
  3. Malaria. It is one of the two components (along with proguanil) in the drug Malarone. Malarone has fewer side effects than mefloquine, but can be more expensive because it's taken daily.[3]

Trimethoprim-sulfamethoxazole (TMP-SMX, Bactrim) is generally considered first line therapy for PCP or toxoplasmosis. However, atovaquone may be used in patients who cannot tolerate, or are allergic to, TMP-SMX. In addition, atovaquone has the advantage of not causing myelosuppression, which is an important issue in patients who have undergone bone marrow transplantation.

Category

US Brand Names

FDA Package Insert

Description | Clinical Pharmacology | Microbiology | Indications and Usage | Contraindications | Warnings and Precautions | Adverse Reactions | Drug Interactions | Overdosage | Clinical Studies | Dosage and Administration | How Supplied | Labels and Packages

Mechanism of Action

Malaria

Atovaquone is only available as a fixed preparation with proguanil that has been commercially available from GlaxoSmithKline since 2000 as Malarone® (sometimes abbreviated A+P). It can be used both to treat and to prevent malaria.

A "standard" tablet of Malarone contains 100 mg of proguanil hydrochloride and 250 mg of atovaquone. A "pediatric" tablet of Malarone contains 25 mg of proguanil hydrochloride and 62.5 mg of atovaquone.

Treatment

The adult treatment dose is four "standard" tablets once a day for three days. In children, the drug is prescribed by body weight:

  • 11 to 20 kg: 1 "standard" tablet once daily for 3 days;
  • 21 to 30 kg: 2 "standard" tablets once daily for 3 days;
  • 31 to 40 kg: 3 "standard" tablets once daily for 3 days;
  • 41 kg and above: use adult dose.

Malarone is not licensed for use in children weighing 10 kg or less. The "pediatric" tablets are not used in malaria treatment.

The advice of a specialist should always be sought when starting malaria treatment. Malarone should not be used to treat severe malaria, when an injectable drug (quinine or artesunate in the UK; quinidine in the US) should be used instead.

Prevention

Medical advice should always be taken before choosing a drug for malaria prevention. Because some strains of malaria are resistant, Malarone is not effective for malaria prevention in all parts of the world. It must be taken with a fatty meal or at least some milk to be absorbed adequately.

The adult dose is one "standard" tablet daily starting one or two days before traveling into a malaria-endemic area, and continuing throughout the stay and then for another 7 days after returning from the malarious area.

The child dose is prescribed according to body weight:

  • 11–20 kg: 1 "pediatric" tablet once daily;
  • 21–30 kg: 2 "pediatric" tablets once daily;
  • 31–40 kg: 3 "pediatric" tablets once daily;
  • 41 kg and above use adult dose.

The duration of treatment is the same as for adults.

Resistance

Proguanil acts as a mitochondrial sensitiser and synergizes with atovaquone; also, there is a high natural frequency of cytochrome B mutants which leads to a high failure rate if atovaquone is used on its own to treat malaria. Specific mutations (Y268S, Y268C) have been shown to confer resistance in vivo,[4][5][6] but there are other mechanisms of resistance that remain unknown.[7]

References

  1. (ATN) Atovaquone (Mepron; 566C80) Approved for Pneumocystis; Drug Development, Activism Success
  2. Mepron
  3. Malarone: New Malaria Medication With Fewer Side-effects
  4. Färnet A, Lindberg J, Gil P; et al. (2003). "Evidence of Plasmodium falciparum malaria resistant to atovaquone and proguoanil hydrochloride: case reports". Brit Med J. 326: 628&ndash, 29.
  5. Fivelman QL, Butcher GA, Adagu IS; et al. (2002). "Malarone treatment failure and in-vitro confirmation of resistance of Plasmodium falciparum isolate from Lagos, Nigeria". Malaria J. 1: 1.
  6. Schwartz E, Bujanover S, Kain KC (2003). "Genetic confirmation of atovaquone-proguanil-resistant Plasmodium falciparum malaria acquired by a nonimmune traveller to east Africa". Clin Infect Dis. 37: 450&ndash, 51.
  7. Wichmann O, Muehlen M, Gruss H; et al. (2004). "Malarone treatment failure not associated with previously described mutations in the cytochrome b gene". Malaria J. 3: 14.
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