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mequitazine
Known as:
10-(1-azabicyclo(2.2.2)oct-8-ylmethyl)phenothiazine
, Mequitazina
, Mequitazinum
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National Institutes of Health
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Related topics
Related topics
6 relations
Broader (2)
Histamine H1 Antagonists
Phenothiazines
Narrower (4)
LM 209
Mircol
Primalan
mequitazine hydrochloride
Papers overview
Semantic Scholar uses AI to extract papers important to this topic.
2006
2006
Repeated-dose effects of mequitazine, cetirizine and dexchlorpheniramine on driving and psychomotor performance.
E. Theunissen
,
A. Vermeeren
,
J. Ramaekers
British Journal of Clinical Pharmacology
2006
Corpus ID: 24767971
AIMS Previous studies have demonstrated that the antihistamines mequitazine, cetirizine and dexchlorpheniramine produce mild…
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Review
2004
Review
2004
Antihistamines and driving ability: evidence from on-the-road driving studies during normal traffic.
J. Verster
,
E. Volkerts
Annals of Allergy, Asthma & Immunology
2004
Corpus ID: 25092333
Highly Cited
2004
Highly Cited
2004
A dose‐ranging study of the effects of mequitazine on actual driving, memory and psychomotor performance as compared to dexchlorpheniramine, cetirizine and placebo
E. Theunissen
,
Annemiek Vermeeren
,
A. V. Oers
,
I. V. Maris
,
Johannes G. Ramaekers
Clinical and Experimental Allergy
2004
Corpus ID: 23019669
Background Mequitazine is a so‐called ‘non‐sedative’ second‐generation antihistamine even though it has never been firmly…
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2004
2004
The H1-antagonist mequitazine: Studies on performance and visual function
A. Nicholson
,
B. Stone
European Journal of Clinical Pharmacology
2004
Corpus ID: 10249553
SummaryThe effects of single oral doses of mequitazine (5 and 10 mg), terfenadine (60 mg) and triprolidine (10 mg) as active…
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1989
1989
Effects of nonsedating histamine H1-antagonists on EEG activity and behavior in the cat
M. Marzanatti
,
A. Monopoli
,
M. Trampus
,
E. Ongini
Pharmacology, Biochemistry and Behavior
1989
Corpus ID: 29144471
Highly Cited
1987
Highly Cited
1987
Antimuscarinic effects of antihistamines: quantitative evaluation by receptor-binding assay.
Nobuo Kubo
,
Osamu Shirakawa
,
Takayoshi Kuno
,
Chikako Tanaka
Japanese Journal of Pharmacology
1987
Corpus ID: 10452698
Quantitative evaluation of antimuscarinic effects of antihistamines (H1- and H2-receptor antagonists) was carried out using a…
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Highly Cited
1986
Highly Cited
1986
Selective displacement of [3H]mepyramine from peripheral vs. central nervous system receptors by loratadine, a non-sedating antihistamine.
H. Ahn
,
A. Barnett
European Journal of Pharmacology
1986
Corpus ID: 60702
Highly Cited
1985
Highly Cited
1985
Histaminergic systems and sleep studies in man with HI and H2 antagonists
A. Nicholson
,
P. Pascoe
,
B. Stone
Neuropharmacology
1985
Corpus ID: 44552914
Highly Cited
1984
Highly Cited
1984
Histamine H1 receptors in human brain labelled with [3H]Doxepin
S. Kanba
,
E. Richelson
Brain Research
1984
Corpus ID: 45303586
Review
1984
Review
1984
Oxatomide
Richards Dm
,
R. N. Brogden
,
R. Heel
,
T. Speight
,
G. Avery
Drugs
1984
Corpus ID: 195692773
SummarySynopsis: Oxatomide1 is an orally active H1-histamine receptor antagonist which, as appears to occur with some other…
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