A method of producing pharmaceutical grade bretylium tosylate comprising low amounts of mutagenic impurities. The method comprises forming bretylium tosylate having a purity of less than 99.5% and purifying the bretylium tosylate by: i) forming a slurry of the bretylium tosylate with a mixture of acetone and ethyl acetate; ii) filtering the slurry to obtain purified bretylium tosylate. The bretylium tosylate so produced has a purity of at least 99.5%, and suitably comprises less than 0.5 ppm of the potentially mutagenic impurity ethyl p-toluenesulfonate. The bretylium tosylate so produced also suitably comprises less than 0.5 ppm of the potentially mutagenic impurity 2-bromobenzylbromide.

A method of producing pharmaceutical grade bretylium tosylate comprising low amounts of mutagenic impurities. The method comprises forming bretylium tosylate having a purity of less than 99.5% and purifying the bretylium tosylate by: i) forming a slurry of the bretylium tosylate with a mixture of acetone and ethyl acetate; ii) filtering the slurry to obtain purified bretylium tosylate. The bretylium tosylate so produced has a purity of at least 99.5%, and suitably comprises less than 0.5 ppm of the potentially mutagenic impurity ethyl p-toluenesulfonate. The bretylium tosylate so produced also suitably comprises less than 0.5 ppm of the potentially mutagenic impurity 2-bromobenzylbromide.

The invention relates to a new process for the manufacture of fluoroaryl compounds and derivatives thereof, in particular of fluorobenzenes and derivatives thereof, and especially wherein said manufacture relates to an environmentally friendly production of the said compounds. Thus, the present invention overcomes the disadvantages of the prior art processes, and in a surprisingly simple and beneficial manner, and as compared to the prior art processes, in particular, the invention provides a more efficient and energy saving processes, and also provides a more environmentally friendly process, for the manufacture of nuclear fluorinated aromatics, and preferably of nuclear fluorinated fluorobenzenes. Accordingly, in one aspect of the invention, an industrially beneficial process for preparing fluorobenzenes from halobenzene precursors using HF to form hydrogen halide is provided by the present invention. A beneficial and surprisingly simple use of chlorobenzene as an industrially interesting starting material in the manufacture of fluorobenzene is provided.

The invention relates to a new process for the manufacture of fluoroaryl compounds and derivatives thereof, in particular of fluorobenzenes and derivatives thereof, and especially wherein said manufacture relates to an environmentally friendly production of the said compounds. Thus, the present invention overcomes the disadvantages of the prior art processes, and in a surprisingly simple and beneficial manner, and as compared to the prior art processes, in particular, the invention provides a more efficient and energy saving processes, and also provides a more environmentally friendly process, for the manufacture of nuclear fluorinated aromatics, and preferably of nuclear fluorinated fluorobenzenes. Accordingly, in one aspect of the invention, an industrially beneficial process for preparing fluorobenzenes from halobenzene precursors using HF to form hydrogen halide is provided by the present invention. A beneficial and surprisingly simple use of chlorobenzene as an industrially interesting starting material in the manufacture of fluorobenzene is provided.

The invention relates to a new process for the manufacture of fluoroaryl compounds and derivatives thereof, in particular of fluorobenzenes and derivatives thereof, and especially wherein said manufacture relates to an environmentally friendly production of the said compounds. Thus, the present invention overcomes the disadvantages of the prior art processes, and in a surprisingly simple and beneficial manner, and as compared to the prior art processes, in particular, the invention provides a more efficient and energy saving processes, and also provides a more environmentally friendly process, for the manufacture of nuclear fluorinated aromatics, and preferably of nuclear fluorinated fluorobenzenes. Accordingly, in one aspect of the invention, an industrially beneficial process for preparing fluorobenzenes from halobenzene precursors using HF to form hydrogen halide is provided by the present invention. A beneficial and surprisingly simple use of chlorobenzene as an industrially interesting starting material in the manufacture of fluorobenzene is provided.

The present invention relates to a process for the preparation of selegiline base, an irreversible and selective inhibitor of the MAO-B enzymes and which is used in the treatment of Parkinson's Disease.

The present invention relates to a process for the preparation of selegiline base, an irreversible and selective inhibitor of the MAO-B enzymes and which is used in the treatment of Parkinson's Disease.

The present invention relates to a process for the preparation of selegiline base, an irreversible and selective inhibitor of the MAO-B enzymes and which is used in the treatment of Parkinson's Disease.

The present disclosure pertains to a process for manufacturing ethyleneamine compounds selected from the group of ethyleneamines and hydroxyethylethyleneamines wherein the process comprises two reaction sequences.

The present disclosure pertains to a process for manufacturing ethyleneamine compounds selected from the group of ethyleneamines and hydroxyethylethyleneamines wherein the process comprises two reaction sequences.