Details
| Stereochemistry | ACHIRAL |
| Molecular Formula | C20H22ClN3O.2ClH.2H2O |
| Molecular Weight | 464.814 |
| Optical Activity | NONE |
| Defined Stereocenters | 0 / 0 |
| E/Z Centers | 0 |
| Charge | 0 |
SHOW SMILES / InChI
SMILES
O.O.Cl.Cl.CCN(CC)CC1=CC(NC2=CC=NC3=C2C=CC(Cl)=C3)=CC=C1O
InChI
InChIKey=YVNAYSHNIILOJS-UHFFFAOYSA-N
InChI=1S/C20H22ClN3O.2ClH.2H2O/c1-3-24(4-2)13-14-11-16(6-8-20(14)25)23-18-9-10-22-19-12-15(21)5-7-17(18)19;;;;/h5-12,25H,3-4,13H2,1-2H3,(H,22,23);2*1H;2*1H2
DescriptionCurator's Comment: description was created based on several sources, including
https://www.drugbank.ca/drugs/DB00613 | https://www.drugs.com/international/amodiaquine.html | https://www.ncbi.nlm.nih.gov/pubmed/9825729 | https://www.ncbi.nlm.nih.gov/pubmed/22949374 | https://www.ncbi.nlm.nih.gov/pubmed/18855526
Curator's Comment: description was created based on several sources, including
https://www.drugbank.ca/drugs/DB00613 | https://www.drugs.com/international/amodiaquine.html | https://www.ncbi.nlm.nih.gov/pubmed/9825729 | https://www.ncbi.nlm.nih.gov/pubmed/22949374 | https://www.ncbi.nlm.nih.gov/pubmed/18855526
Amodiaquine is a medication used to treat malaria, including Plasmodium falciparum malaria when uncomplicated. The mechanism of plasmodicidal action of amodiaquine is not completely certain. Like other quinoline derivatives, it is thought to inhibit heme polymerase activity. This results in accumulation of free heme, which is toxic to the parasites. The drug binds the free heme preventing the parasite from converting it to a form less toxic. This drug-heme complex is toxic and disrupts membrane function. The side effects of amodiaquine are generally minor to moderate and are similar to those of chloroquine. Rarely liver problems or low blood cell levels may occur. When taken in excess headaches, trouble seeing, seizures, and cardiac arrest may occur. After oral administration amodiaquine hydrochloride is rapidly absorbed,and undergoes rapid and extensive metabolism to desethylamodiaquine which concentrates in red blood cells. It is likely that desethylamodiaquine, not amodiaquine, is responsible for most of the observed antimalarial activity, and that the toxic effects of amodiaquine after oral administration may in part be due to desethylamodiaquine.
CNS Activity
Curator's Comment: Although in use for more than 40 year, there exists little information regarding the disposition of amodiaquine in man. Chloroquine, a 4-aminoquinoline derivative which resembles amodiaquine structurally, is widely distributed into the body tissues, especially in liver, spleen, kidney, lungs, brain, and spinal cord.
Originator
Approval Year
Targets
| Primary Target | Pharmacology | Condition | Potency |
|---|---|---|---|
Target ID: Heme degradation by glutathione |
|||
Target ID: Heme polymerization |
Conditions
| Condition | Modality | Targets | Highest Phase | Product |
|---|---|---|---|---|
| Primary | Coarsucam Approved UseTherapeutic Indication. ARTESUNATE AMODIAQUINE WINTHROP is indicated for the treatment of uncomplicated cases of malaria due to Plasmodium falciparum strains which are susceptible to amodiaquine as well as to artesunate. |
Cmax
| Value | Dose | Co-administered | Analyte | Population |
|---|---|---|---|---|
21 mg/L EXPERIMENT https://pubmed.ncbi.nlm.nih.gov/8983859/ |
10 mg/kg single, oral dose: 10 mg/kg route of administration: Oral experiment type: SINGLE co-administered: |
AMODIAQUINE blood | Homo sapiens population: UNHEALTHY age: ADULT sex: UNKNOWN food status: UNKNOWN |
|
322 mg/L EXPERIMENT https://pubmed.ncbi.nlm.nih.gov/8983859/ |
10 mg/kg single, intravenous dose: 10 mg/kg route of administration: Intravenous experiment type: SINGLE co-administered: |
AMODIAQUINE blood | Homo sapiens population: UNHEALTHY age: ADULT sex: UNKNOWN food status: UNKNOWN |
|
415 mg/L EXPERIMENT https://pubmed.ncbi.nlm.nih.gov/8983859/ |
10 mg/kg single, intravenous dose: 10 mg/kg route of administration: Intravenous experiment type: SINGLE co-administered: |
AMODIAQUINE blood | Homo sapiens population: HEALTHY age: ADULT sex: UNKNOWN food status: UNKNOWN |
AUC
| Value | Dose | Co-administered | Analyte | Population |
|---|---|---|---|---|
77 ng × h/mL EXPERIMENT https://pubmed.ncbi.nlm.nih.gov/8983859/ |
10 mg/kg single, oral dose: 10 mg/kg route of administration: Oral experiment type: SINGLE co-administered: |
AMODIAQUINE blood | Homo sapiens population: UNHEALTHY age: ADULT sex: UNKNOWN food status: UNKNOWN |
T1/2
| Value | Dose | Co-administered | Analyte | Population |
|---|---|---|---|---|
3.7 h EXPERIMENT https://pubmed.ncbi.nlm.nih.gov/8983859/ |
10 mg/kg single, oral dose: 10 mg/kg route of administration: Oral experiment type: SINGLE co-administered: |
AMODIAQUINE blood | Homo sapiens population: UNHEALTHY age: ADULT sex: UNKNOWN food status: UNKNOWN |
|
10.1 h EXPERIMENT https://pubmed.ncbi.nlm.nih.gov/8983859/ |
10 mg/kg single, intravenous dose: 10 mg/kg route of administration: Intravenous experiment type: SINGLE co-administered: |
AMODIAQUINE blood | Homo sapiens population: UNHEALTHY age: ADULT sex: UNKNOWN food status: UNKNOWN |
|
2.1 h EXPERIMENT https://pubmed.ncbi.nlm.nih.gov/8983859/ |
10 mg/kg single, intravenous dose: 10 mg/kg route of administration: Intravenous experiment type: SINGLE co-administered: |
AMODIAQUINE blood | Homo sapiens population: HEALTHY age: ADULT sex: UNKNOWN food status: UNKNOWN |
|
7.9 h EXPERIMENT https://pubmed.ncbi.nlm.nih.gov/20368402/ |
270 mg 1 times / day steady-state, oral dose: 270 mg route of administration: Oral experiment type: STEADY-STATE co-administered: ARTESUNATE |
AMODIAQUINE plasma | Homo sapiens population: UNHEALTHY age: ADULT sex: FEMALE / MALE food status: UNKNOWN |
Doses
| Dose | Population | Adverse events |
|---|---|---|
73.4 mg 1 times / day multiple, oral (mean) Studied dose Dose: 73.4 mg, 1 times / day Route: oral Route: multiple Dose: 73.4 mg, 1 times / day Sources: |
unhealthy, 17 to 76 years n = 7 Health Status: unhealthy Condition: malaria Age Group: 17 to 76 years Sex: M+F Population Size: 7 Sources: |
Other AEs: Agranulocytosis... |
10 mg/kg 1 times / day single, oral Studied dose Dose: 10 mg/kg, 1 times / day Route: oral Route: single Dose: 10 mg/kg, 1 times / day Sources: |
healthy, 18 to 45 years n = 15 Health Status: healthy Age Group: 18 to 45 years Sex: M+F Population Size: 15 Sources: |
Disc. AE: Hypersensitivity reaction... AEs leading to discontinuation/dose reduction: Hypersensitivity reaction (6.7%) Sources: |
10 mg/kg 1 times / day single, oral Studied dose Dose: 10 mg/kg, 1 times / day Route: oral Route: single Dose: 10 mg/kg, 1 times / day Sources: |
healthy, 18 to 45 years n = 7 Health Status: healthy Age Group: 18 to 45 years Sex: M+F Population Size: 7 Sources: |
Other AEs: Leucopenia, Neutropenia... Other AEs: Leucopenia (grade 1, 14%) Sources: Neutropenia (grade 1, 14%) |
10 mg/kg 1 times / day single, oral Studied dose Dose: 10 mg/kg, 1 times / day Route: oral Route: single Dose: 10 mg/kg, 1 times / day Co-administed with:: artesunate(4 mg/kg; single dose) Sources: |
healthy, 18 to 45 years n = 8 Health Status: healthy Age Group: 18 to 45 years Sex: M+F Population Size: 8 Sources: |
Other AEs: Neutropenia... |
10 mg/kg 1 times / day single, oral Studied dose Dose: 10 mg/kg, 1 times / day Route: oral Route: single Dose: 10 mg/kg, 1 times / day Sources: |
healthy, 18 to 45 years n = 8 Health Status: healthy Age Group: 18 to 45 years Sex: M+F Population Size: 8 Sources: |
Other AEs: Transaminitis... |
45 mg/kg multiple, oral (mean) Studied dose Dose: 45 mg/kg Route: oral Route: multiple Dose: 45 mg/kg Sources: |
unhealthy, adult n = 20 Health Status: unhealthy Condition: onchocerciasis Age Group: adult Sex: M Population Size: 20 Sources: |
Other AEs: Nausea, Vomiting... Other AEs: Nausea (35%) Sources: Vomiting (35%) Lassitude (grade 2, 60%) Diarrhoea (15%) Constipation (10%) Granulocytopenia (15%) |
600 mg 1 times / day multiple, oral Studied dose Dose: 600 mg, 1 times / day Route: oral Route: multiple Dose: 600 mg, 1 times / day Sources: |
unhealthy, median age 20 years n = 220 Health Status: unhealthy Condition: malaria Age Group: median age 20 years Sex: F Population Size: 220 Sources: |
Other AEs: Weakness generalised, Dizziness... Other AEs: Weakness generalised (84%) Sources: Dizziness (58%) Vomiting (46%) Itching (32%) Nausea (26%) |
71.6 mg 1 times / day multiple, oral (mean) Studied dose Dose: 71.6 mg, 1 times / day Route: oral Route: multiple Dose: 71.6 mg, 1 times / day Sources: |
unhealthy, median age 35 years n = 2 Health Status: unhealthy Condition: malaria Age Group: median age 35 years Sex: M+F Population Size: 2 Sources: |
Other AEs: Hepatotoxicity... |
AEs
| AE | Significance | Dose | Population |
|---|---|---|---|
| Agranulocytosis | 73.4 mg 1 times / day multiple, oral (mean) Studied dose Dose: 73.4 mg, 1 times / day Route: oral Route: multiple Dose: 73.4 mg, 1 times / day Sources: |
unhealthy, 17 to 76 years n = 7 Health Status: unhealthy Condition: malaria Age Group: 17 to 76 years Sex: M+F Population Size: 7 Sources: |
|
| Hypersensitivity reaction | 6.7% Disc. AE |
10 mg/kg 1 times / day single, oral Studied dose Dose: 10 mg/kg, 1 times / day Route: oral Route: single Dose: 10 mg/kg, 1 times / day Sources: |
healthy, 18 to 45 years n = 15 Health Status: healthy Age Group: 18 to 45 years Sex: M+F Population Size: 15 Sources: |
| Leucopenia | grade 1, 14% | 10 mg/kg 1 times / day single, oral Studied dose Dose: 10 mg/kg, 1 times / day Route: oral Route: single Dose: 10 mg/kg, 1 times / day Sources: |
healthy, 18 to 45 years n = 7 Health Status: healthy Age Group: 18 to 45 years Sex: M+F Population Size: 7 Sources: |
| Neutropenia | grade 1, 14% | 10 mg/kg 1 times / day single, oral Studied dose Dose: 10 mg/kg, 1 times / day Route: oral Route: single Dose: 10 mg/kg, 1 times / day Sources: |
healthy, 18 to 45 years n = 7 Health Status: healthy Age Group: 18 to 45 years Sex: M+F Population Size: 7 Sources: |
| Neutropenia | grade 2, 12% | 10 mg/kg 1 times / day single, oral Studied dose Dose: 10 mg/kg, 1 times / day Route: oral Route: single Dose: 10 mg/kg, 1 times / day Co-administed with:: artesunate(4 mg/kg; single dose) Sources: |
healthy, 18 to 45 years n = 8 Health Status: healthy Age Group: 18 to 45 years Sex: M+F Population Size: 8 Sources: |
| Transaminitis | grade 3, 12% | 10 mg/kg 1 times / day single, oral Studied dose Dose: 10 mg/kg, 1 times / day Route: oral Route: single Dose: 10 mg/kg, 1 times / day Sources: |
healthy, 18 to 45 years n = 8 Health Status: healthy Age Group: 18 to 45 years Sex: M+F Population Size: 8 Sources: |
| Constipation | 10% | 45 mg/kg multiple, oral (mean) Studied dose Dose: 45 mg/kg Route: oral Route: multiple Dose: 45 mg/kg Sources: |
unhealthy, adult n = 20 Health Status: unhealthy Condition: onchocerciasis Age Group: adult Sex: M Population Size: 20 Sources: |
| Diarrhoea | 15% | 45 mg/kg multiple, oral (mean) Studied dose Dose: 45 mg/kg Route: oral Route: multiple Dose: 45 mg/kg Sources: |
unhealthy, adult n = 20 Health Status: unhealthy Condition: onchocerciasis Age Group: adult Sex: M Population Size: 20 Sources: |
| Granulocytopenia | 15% | 45 mg/kg multiple, oral (mean) Studied dose Dose: 45 mg/kg Route: oral Route: multiple Dose: 45 mg/kg Sources: |
unhealthy, adult n = 20 Health Status: unhealthy Condition: onchocerciasis Age Group: adult Sex: M Population Size: 20 Sources: |
| Nausea | 35% | 45 mg/kg multiple, oral (mean) Studied dose Dose: 45 mg/kg Route: oral Route: multiple Dose: 45 mg/kg Sources: |
unhealthy, adult n = 20 Health Status: unhealthy Condition: onchocerciasis Age Group: adult Sex: M Population Size: 20 Sources: |
| Vomiting | 35% | 45 mg/kg multiple, oral (mean) Studied dose Dose: 45 mg/kg Route: oral Route: multiple Dose: 45 mg/kg Sources: |
unhealthy, adult n = 20 Health Status: unhealthy Condition: onchocerciasis Age Group: adult Sex: M Population Size: 20 Sources: |
| Lassitude | grade 2, 60% | 45 mg/kg multiple, oral (mean) Studied dose Dose: 45 mg/kg Route: oral Route: multiple Dose: 45 mg/kg Sources: |
unhealthy, adult n = 20 Health Status: unhealthy Condition: onchocerciasis Age Group: adult Sex: M Population Size: 20 Sources: |
| Nausea | 26% | 600 mg 1 times / day multiple, oral Studied dose Dose: 600 mg, 1 times / day Route: oral Route: multiple Dose: 600 mg, 1 times / day Sources: |
unhealthy, median age 20 years n = 220 Health Status: unhealthy Condition: malaria Age Group: median age 20 years Sex: F Population Size: 220 Sources: |
| Itching | 32% | 600 mg 1 times / day multiple, oral Studied dose Dose: 600 mg, 1 times / day Route: oral Route: multiple Dose: 600 mg, 1 times / day Sources: |
unhealthy, median age 20 years n = 220 Health Status: unhealthy Condition: malaria Age Group: median age 20 years Sex: F Population Size: 220 Sources: |
| Vomiting | 46% | 600 mg 1 times / day multiple, oral Studied dose Dose: 600 mg, 1 times / day Route: oral Route: multiple Dose: 600 mg, 1 times / day Sources: |
unhealthy, median age 20 years n = 220 Health Status: unhealthy Condition: malaria Age Group: median age 20 years Sex: F Population Size: 220 Sources: |
| Dizziness | 58% | 600 mg 1 times / day multiple, oral Studied dose Dose: 600 mg, 1 times / day Route: oral Route: multiple Dose: 600 mg, 1 times / day Sources: |
unhealthy, median age 20 years n = 220 Health Status: unhealthy Condition: malaria Age Group: median age 20 years Sex: F Population Size: 220 Sources: |
| Weakness generalised | 84% | 600 mg 1 times / day multiple, oral Studied dose Dose: 600 mg, 1 times / day Route: oral Route: multiple Dose: 600 mg, 1 times / day Sources: |
unhealthy, median age 20 years n = 220 Health Status: unhealthy Condition: malaria Age Group: median age 20 years Sex: F Population Size: 220 Sources: |
| Hepatotoxicity | 71.6 mg 1 times / day multiple, oral (mean) Studied dose Dose: 71.6 mg, 1 times / day Route: oral Route: multiple Dose: 71.6 mg, 1 times / day Sources: |
unhealthy, median age 35 years n = 2 Health Status: unhealthy Condition: malaria Age Group: median age 35 years Sex: M+F Population Size: 2 Sources: |
Overview
| CYP3A4 | CYP2C9 | CYP2D6 | hERG |
|---|---|---|---|
OverviewOther
| Other Inhibitor | Other Substrate | Other Inducer |
|---|---|---|
Drug as perpetrator
| Target | Modality | Activity | Metabolite | Clinical evidence |
|---|---|---|---|---|
| no |
Drug as victim
| Target | Modality | Activity | Metabolite | Clinical evidence |
|---|---|---|---|---|
| major | yes (co-administration study) Comment: When administered with efavirenz, 125%, 78%, 80%, and 42.15% increase in the Tmax, Cmax AUCT and T1/2 of amodiaquine respectively |
|||
| minor | ||||
| minor | ||||
| minor | ||||
| minor | ||||
| minor | ||||
| minor | ||||
| minor | ||||
| minor | ||||
| no | ||||
| no | ||||
| no | ||||
| no | ||||
| no | ||||
| unlikely | unlikely Comment: Since artesunate is mainly metabolized by CYP2A6, drug–drug interaction between artesunate and AQ is unlikely to occur |
|||
| yes |
PubMed
| Title | Date | PubMed |
|---|---|---|
| [National Network study to perpetuate the surveillance of Plasmodium falciparum sensitivity to antimalarials in Madagascar]. | 2002 |
|
| [Treatment of malaria in children: 1. Uncomplicated malaria]. | 2002 |
|
| [Center of multidrug-resistant malaria in a forest zone of Cameroon revisited after 14 years]. | 2002 |
|
| Therapeutic efficacy of sulfadoxine-pyrimethamine, amodiaquine and the sulfadoxine-pyrimethamine-amodiaquine combination against uncomplicated Plasmodium falciparum malaria in young children in Cameroon. | 2002 |
|
| [Which medication should be used to treat uncomplicated malaria when chloroquine becomes ineffective in Western Côte d'Ivoire?]. | 2002 |
|
| A randomized comparison of chloroquine, amodiaquine and their combination with pyrimethamine-sulfadoxine in the treatment of acute, uncomplicated, Plasmodium falciparum malaria in children. | 2002 Apr |
|
| Resistance of Plamodium falciparum to antimalarial drugs in Zaragoza (Antioquia, Colombia), 1998. | 2002 Apr |
|
| [In vivo sensitivity of Plasmodium falciparum to amino-4-quinolines and sulfadoxine pyrimethamine in Agou (Ivory Coast)]. | 2002 Apr |
|
| In vitro sensitivity of Plasmodium falciparum to amodiaquine compared with other major antimalarials in Madagascar. | 2002 Dec |
|
| Pyrimethamine-sulfadoxine resistance in Plasmodium falciparum must be delayed in Africa. | 2002 Jul |
|
| The safety and efficacy of sulfadoxine-pyrimethamine, amodiaquine, and their combination in the treatment of uncomplicated Plasmodium falciparum malaria. | 2002 Jul |
|
| High-throughput measurement of the Tp53 response to anticancer drugs and random compounds using a stably integrated Tp53-responsive luciferase reporter. | 2002 Jun |
|
| Cytochrome P450 1A1/2 induction by antiparasitic drugs: dose-dependent increase in ethoxyresorufin O-deethylase activity and mRNA caused by quinine, primaquine and albendazole in HepG2 cells. | 2002 Nov |
|
| Efficacy of amodiaquine for uncomplicated Plasmodium falciparum malaria in Harper, Liberia. | 2002 Nov-Dec |
|
| Paracellular tightness and catabolism restrict histamine permeation in the proximal colon of pigs. | 2002 Oct |
|
| Molecular characterisation of drug-resistant Plasmodium falciparum from Thailand. | 2002 Oct 14 |
|
| Chloroquine resistance in Plasmodium falciparum malaria parasites conferred by pfcrt mutations. | 2002 Oct 4 |
|
| The effects of chloroquine, amodiaquine and chloroquine plus chlorpheniramine on the disposition kinetics of the hepatomegaly associated with acute, uncomplicated, Plasmodium falciparum malaria in children. | 2002 Sep |
|
| Amodiaquine for treating malaria. | 2003 |
|
| Short report: association between chloroquine and amodiaquine resistance and allelic variation in the Plasmodium falciparum multiple drug resistance 1 gene and the chloroquine resistance transporter gene in isolates from the upper Nile in southern Sudan. | 2003 Aug |
|
| Atovaquone and proguanil versus amodiaquine for the treatment of Plasmodium falciparum malaria in African infants and young children. | 2003 Dec 1 |
|
| Comparative efficacy of aminoquinoline-antifolate combinations for the treatment of uncomplicated falciparum malaria in Kampala, Uganda. | 2003 Feb |
|
| Epidemiological models for the spread of anti-malarial resistance. | 2003 Feb 19 |
|
| Efficacy of amodiaquine alone and combined with sulfadoxine-pyrimethamine and of sulfadoxine pyrimethamine combined with artesunate. | 2003 Jun |
|
| Chloroquine, sulfadoxine-pyrimethamine and amodiaquine efficacy for the treatment of uncomplicated Plasmodium falciparum malaria in Upper Nile, south Sudan. | 2003 Mar-Apr |
|
| Effect of intermittent treatment with amodiaquine on anaemia and malarial fevers in infants in Tanzania: a randomised placebo-controlled trial. | 2003 May 31 |
|
| Vendor-to-vendor education to improve malaria treatment by private drug outlets in Bungoma District, Kenya. | 2003 May 7 |
|
| [Misunderstood neurological side effects of amodiaquine: apropos of 35 cases in children at Central University Hospital of Yopougon at Abidjan, Côte d' Ivoire]. | 2003 Nov |
|
| Antimalarial compounds: from bench to bedside. | 2003 Nov |
|
| Isoquine and related amodiaquine analogues: a new generation of improved 4-aminoquinoline antimalarials. | 2003 Nov 6 |
|
| Amodiaquine treatment of uncomplicated malaria in children, in an area of chloroquine-resistant Plasmodium falciparum in north-central Nigeria. | 2003 Oct |
|
| Prevention of increasing rates of treatment failure by combining sulfadoxine-pyrimethamine with artesunate or amodiaquine for the sequential treatment of malaria. | 2003 Oct 15 |
|
| Plasmodium falciparum gametocytaemia in Nigerian children: before, during and after treatment with antimalarial drugs. | 2003 Sep |
|
| Rapid clearance of Plasmodium falciparum hyperparasitaemia after oral amodiaquine treatment in patients with uncomplicated malaria. | 2003 Sep |
|
| Identification of human cytochrome P(450)s that metabolise anti-parasitic drugs and predictions of in vivo drug hepatic clearance from in vitro data. | 2003 Sep |
|
| The relationship of physico-chemical properties and structure to the differential antiplasmodial activity of the cinchona alkaloids. | 2003 Sep 1 |
|
| Potentiation of the antimalarial action of chloroquine in rodent malaria by drugs known to reduce cellular glutathione levels. | 2003 Sep 1 |
|
| Polymorphism in the Plasmodium falciparum chloroquine-resistance transporter protein links verapamil enhancement of chloroquine sensitivity with the clinical efficacy of amodiaquine. | 2003 Sep 19 |
|
| Drug resistant falciparum malaria and the use of artesunate-based combinations: focus on clinical trials sponsored by TDR. | 2003 Sep-Dec |
|
| [Pyrido [3,2-b]indol-4-yl-amines--synthesis and investigation of activity against malaria]. | 2004 Apr |
|
| In vitro efficacy of antimalarial drugs against Plasmodium vivax on the western border of Thailand. | 2004 Apr |
|
| Antimalarial efficacy of sulfadoxine-pyrimethamine, amodiaquine and a combination of chloroquine plus sulfadoxine-pyrimethamine in Bundi Bugyo, western Uganda. | 2004 Apr |
|
| A randomized trial of amodiaquine and artesunate alone and in combination for the treatment of uncomplicated falciparum malaria in children from Burkina Faso. | 2004 Apr |
|
| Can amodiaquine be used safely during pregnancy? | 2004 Apr |
|
| Malaria intermittent preventive treatment in infants, chemoprophylaxis, and childhood vaccinations. | 2004 Apr 24 |
|
| Liquid chromatographic determination of amodiaquine in human plasma. | 2004 Apr 25 |
|
| Efficacy of sulphadoxine-pyrimethamine alone or combined with amodiaquine or chloroquine for the treatment of uncomplicated falciparum malaria in Ugandan children. | 2004 Feb |
|
| Developing artemisinin based drug combinations for the treatment of drug resistant falciparum malaria: A review. | 2004 Jan-Mar |
|
| Efficacy of pyrimethamine-sulfadoxine in young children with uncomplicated falciparum malaria in rural Burkina Faso. | 2004 May 11 |
|
| A new method for detection of pfmdr1 mutations in Plasmodium falciparum DNA using real-time PCR. | 2004 May 7 |
Patents
Sample Use Guides
For the treatment of acute malarial attacks in non-immune subjects: 600 mg of the base, followed by 200 mg after 6 hours, then 400 mg daily on each of the subsequent two days. Doses may be taken with meals to lessen gastric upset.
Route of Administration:
Oral
The FCR3 strain of Plasmodium falciparum was synchronized and cultivated to the trophozoite stage. Synchronized cultures were seeded at the ring stage and allowed to grow for another 20 hr until most parasites reached the trophozoite stage; parasitemia and cell number were determined, and cultures were cultured 6 drug for 1,2,3 and 4 h. One milliliter of culture was washed twice in wash medium (culture medium without plasma, 37°) to remove the drug, and cells were seeded in 24-well culture plates in full culture medium supplemented with 5 mCi/mL of [3H]hypoxanthine. After 4 hr of further cultivation, triplicate samples were transferred into 96-well plates, and parasiteassociated radioactivity was determined using the Filtermate/Matrix 96 Direct Beta counter. Inhibition of parasite growth was calculated compared to untreated controls.
| Name | Type | Language | ||
|---|---|---|---|---|
|
Common Name | English | ||
|
Common Name | English | ||
|
Common Name | English | ||
|
Common Name | English | ||
|
Common Name | English | ||
|
Common Name | English | ||
|
Brand Name | English | ||
|
Common Name | English | ||
|
Common Name | English | ||
|
Common Name | English | ||
|
Code | English | ||
|
Common Name | English | ||
|
Common Name | English | ||
|
Common Name | English | ||
|
Common Name | English | ||
|
Common Name | English |
| Classification Tree | Code System | Code | ||
|---|---|---|---|---|
|
NCI_THESAURUS |
C271
Created by
admin on Fri Dec 15 15:09:55 GMT 2023 , Edited by admin on Fri Dec 15 15:09:55 GMT 2023
|
| Code System | Code | Type | Description | ||
|---|---|---|---|---|---|
|
CHEMBL682
Created by
admin on Fri Dec 15 15:09:55 GMT 2023 , Edited by admin on Fri Dec 15 15:09:55 GMT 2023
|
PRIMARY | |||
|
SUB00499MIG
Created by
admin on Fri Dec 15 15:09:55 GMT 2023 , Edited by admin on Fri Dec 15 15:09:55 GMT 2023
|
PRIMARY | |||
|
DTXSID3045568
Created by
admin on Fri Dec 15 15:09:55 GMT 2023 , Edited by admin on Fri Dec 15 15:09:55 GMT 2023
|
PRIMARY | |||
|
64646
Created by
admin on Fri Dec 15 15:09:55 GMT 2023 , Edited by admin on Fri Dec 15 15:09:55 GMT 2023
|
PRIMARY | |||
|
Amodiaquine hydrochloride
Created by
admin on Fri Dec 15 15:09:55 GMT 2023 , Edited by admin on Fri Dec 15 15:09:55 GMT 2023
|
PRIMARY | |||
|
50652
Created by
admin on Fri Dec 15 15:09:55 GMT 2023 , Edited by admin on Fri Dec 15 15:09:55 GMT 2023
|
PRIMARY | |||
|
314495
Created by
admin on Fri Dec 15 15:09:55 GMT 2023 , Edited by admin on Fri Dec 15 15:09:55 GMT 2023
|
PRIMARY | RxNorm | ||
|
K6PW2S574L
Created by
admin on Fri Dec 15 15:09:55 GMT 2023 , Edited by admin on Fri Dec 15 15:09:55 GMT 2023
|
PRIMARY | |||
|
755863
Created by
admin on Fri Dec 15 15:09:55 GMT 2023 , Edited by admin on Fri Dec 15 15:09:55 GMT 2023
|
PRIMARY | |||
|
C65232
Created by
admin on Fri Dec 15 15:09:55 GMT 2023 , Edited by admin on Fri Dec 15 15:09:55 GMT 2023
|
PRIMARY | |||
|
6398-98-7
Created by
admin on Fri Dec 15 15:09:55 GMT 2023 , Edited by admin on Fri Dec 15 15:09:55 GMT 2023
|
PRIMARY | |||
|
AMODIAQUINE HYDROCHLORIDE
Created by
admin on Fri Dec 15 15:09:55 GMT 2023 , Edited by admin on Fri Dec 15 15:09:55 GMT 2023
|
PRIMARY | Description: A yellow, crystalline powder; odourless. Solubility: Soluble in about 22 parts of water; sparingly soluble in ethanol (~750 g/l) TS; practically insoluble in ether R. Category: Antimalarial. Storage: Amodiaquine hydrochloride should be kept in a tightly closed container. Definition: Amodiaquine hydrochloride contains not less than 98.0% and not more than 101.5% of C20H22ClN3O,2HCl, calculated with reference to the anhydrous substance. | ||
|
1031004
Created by
admin on Fri Dec 15 15:09:55 GMT 2023 , Edited by admin on Fri Dec 15 15:09:55 GMT 2023
|
PRIMARY | |||
|
100000085160
Created by
admin on Fri Dec 15 15:09:55 GMT 2023 , Edited by admin on Fri Dec 15 15:09:55 GMT 2023
|
PRIMARY | |||
|
DBSALT002457
Created by
admin on Fri Dec 15 15:09:55 GMT 2023 , Edited by admin on Fri Dec 15 15:09:55 GMT 2023
|
PRIMARY |
ACTIVE MOIETY
SUBSTANCE RECORD
