Process for preparing amlodipine benzenesulphonate

Details Process for preparing amlodipine benzenesulphonate Process for preparing amlodipine benzenesulphonate

2001-12-20

2003-07-22

Rotman, Alan L. (Department: 1625)

Organic compounds -- part of the class 532-570 series

Organic compounds

Heterocyclic carbon compounds containing a hetero ring...

C546S316000, C546S321000, C546S322000, C514S350000

Reexamination Certificate

active

06596874

ABSTRACT:

The invention relates to a novel process for preparing amlodipine benzenesulphonate (besylate) of formula
and pharmaceutical preparations containing the same.
According to the process disclosed in the invention the amlodipine benzenesulphonate was prepared by reacting a novel phthalamidic acid {2-[/2-N-(2-carboxy-benzoyl)-aminoethoxy/-methyl]-4-(2-chlorophenyl)-3-ethoxycarbonyl-5-methoxycarbonyl-6-methyl-1,4-dihydropyridine} derivative of general formula
wherein X represents hydrogen or alkali metal or alkali earth metal or quaternary ammonium—with benzenesulphonic acid.
The invention relates also to the novel phthalamidic acid derivatives of general formula II—wherein X represents hydrogen or alkali metal or alkali earth metal or quaternary ammonium—per se and the process for producing the same. These compounds are new final key intermediates (precursors) in the synthesis of amlodipine benzenesulphonate.
The invention relates also to a process for preparing a pharmaceutical composition containing amlodipine benzenesulphonate when prepared according to the process of this invention.
Amlodipine {2-[(2-aminoethoxy)]-methyl-4-(2-chlorophenyl)-3-ethoxycarbonyl-5-methoxycarbonyl-6-methyl-1,4-dihydropyridine} benzenesulphonate is a calcium channel blocking agent of a long duration of action, which is very useful in the treatment of ischaemic heart disease and hypertension.
Amlodipine and the salts thereof were reported first in the European Patent Specification No. 89167 as one of the claimed novel 1,4-dihydropyridines and pharmaceutically acceptable salts thereof. Of the different salts the maleate is disclosed as being particularly preferred.
In the process according to the European Patent Specification No. 89167 1,4-dihydropyridines including amlodipine and the salts thereof are produced from a precursor which can be the corresponding azido derivatives being converted to the amino group by reduction, e.g. with triphenylphosphine or zinc and hydrochloric acid or by hydrogenation over palladium catalyst. The disadvantage of this process is the relatively poor yield of the process for preparing the corresponding azide precursor, moreover the manipulation of azide compounds is less convenient due to the well-known explosiveness of the azidic structures.
Other precursor can be an amino-protected 1,4-dihydropyridine. In these cases the amino 1,4-dihydropyridine including amalodipine can be obtained by removal of the protecting group, then the obtained 1,4-dihydropyridine bases including amlodipine were isolated as an oil, and then were treated with acid.
In the case when the protecting group is benzyl, it is removed by catalytic hydrogenation over palladium catalyst in a solvent such as methanol at room temperature. When the protecting group is 2,2,2-trichloroethoxycarbonyl, it is removed by reduction with zinc in either formic or acetic acid.
In the case when the protecting group is phthaloyl, it can be removed by reaction with a primary amine, such as methylamine. The phthaloyl group can be removed also with hydrazine hydrate at reflux temperature in a solvent, such as ethanol. The phthaloyl group can be removed also with two equivalents of an alkali metal hydroxide, such as potassium hydroxide at room temperature, followed by refluxing the mixture with an excess of hydrochloric acid or sulphuric acid in tetrahydrofuran and water solution.
The disadvantages of the above mentioned processes are in the relatively poor yields of the processes due to the poor yields in the production of the 1,4-dihydropiridine precursors, whose preparation is carried out by Hantzsch's synthesis of asymmetrical 1,4-dihydropyridine esters. Besides each of the processes has technical, safety and environmental problems, too.
Namely, in the case of removing the phthaloyl group from the phthaloyl amlodipine when methylamine is used the yield of the final maleate salt is low (49%) and the use of the harmful methylamine is required. This reagent is irritating to the eyes and to the respiratory organs (see: Merck-Index p 5944, 11. Ed., Merck and Co., Rahway, USA, 1989). When hydrazine hydrate is used the final amlodipine maleate salt was obtained in a yield of 81%, however, the hydrazine is unambiguously carcinogenic (see: D. Beabei, Sicherheit, Handbuch f{dot over (u)}{dot over (r)}das Labor, p. 136, GIT-Verlag, Darmstadt, 1991). When alkali metal hydroxide and hydrochloric acid is used the finally obtained amlodipine maleate salt was described in a yield of 81%, however, the process can not be reproduced when followed the description of Example 22, Method C.
In the European Patent Specification No. 244 944 amlodipine besylate per se as a new chemical entity and pharmaceutical compositions containing the same were claimed. Both the preparation of amlodipine besylate by reacting amlodipine base and benzenesulphonic acid and that of the pharmaceutical compositions containing the same by mixing the besylate salt of amlodipine with a pharmaceutically acceptable diluent or carrier are also described and claimed, since amlodipine besylate is found to be more advantageous over the previously described salts, e.g. maleate salt, etc. because the previously described salts were not acceptable for pharmaceutical formulation purposes.
The following two methods for the preparation of amlodipine besylate was described in the European Patent Specification No. 244 944.
In the first case amlodipine base was reacted with nearly stoichiometric amount of benzenesulphonic acid in a methanolic suspension and the amlodipine besylate was obtained in a yield of 83.8%. In the second version amlodipine base was reacted with ammonium benzene sulphonate in methanol, then after a short heating under reflux the amlodipine besylate was isolated in a yield of 70%.
In this patent specification the preparation of the starting amlodipine base was not described.
The European Patent Specification No. 599 220 describes a process for the preparation of amalodipine benzenesulphonate by reacting a novel trityl-protected amlodipine base with benzenesulphonic acid in a methanolic or an aqueous methanolic medium at a temperature range from 20° C. to the reflux temperature and then the amlodipine benzenesulphonic acid was isolated and purified.
Although the aim of the above invention was to find a simple and easily feasible way which would afford the desired amlodipine benzenesulphonate in a high yield and high purity without supplementary preparation and isolation of amlodipine in a form of base as it was described in the previously mentioned two European patent specifications, the process disclosed in this patent specification, however, has also some disadvantages. Namely, the starting N-trityl-ethanolamine was produced in a rather complicated way which is very difficult to apply on industrial scale. Besides the trityl-alkylating may be occurred both on the amino and hydroxy group of the starting ethanolamine, consequently N-trityl, O-trityl and N,O-ditrityl-ethanolamine may be produced simultaneously [see: J. G. Lammer, J. H. van Boom: Recueil Trav. Comm. Pays-Bas, 98(4), 243 (1979)]. Due to the acid lability of the trityl group the Hantzsch reaction can not be accomplished as desired. The duration of the reaction between trityl-protected amlodipine base and benzenesulphonic acid is rather long, i.e. the reaction mixture must be stirred for 13 hours. The product is obtained in a form of resin whereby the processing thereof is extremely complicate including continuous extractions.
It has now unexpectedly been found that amlodipine benzenesulphonate salt can be prepared directly without preparing amlodipine base, contrary to as described in the above European Patents Nos. 89 167 and 244 944, by reacting an easily preparable, new, stable and pure crystalline phthalamidic acid derivative of general formula II—wherein X represents hydrogen or alkali metal or alkali earth metal or quaternary ammonium—with benzenesulphonic acid in a one-step synthesis.
The amount of benzenesulphonic acid is at least a st

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