- Preparation of grignard reagents: FTIR and calorimetric investigation for safe scale-up
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Preparation of Grignard reagents from organic halides and magnesium pose potential safety hazards on scale-up due to their high exothermic potential which can lead to overpressurization, discharge of contents, or explosion. One of the main challenges arises in ensuring the reaction has initiated before excessive accumulation of organic halide occurs or that the reaction does not stall and then reinitiate. Specifically, in production-scale equipment, it is sometimes difficult to ascertain whether initiation has occurred at all and whether it is safe to proceed. By using in situ infrared technology (FTIR), we have developed a method for safer scale-up of Grignard chemistry that can definitively identify that initiation has occurred. The process would involve adding approximately 5% of the organic halide charge and waiting for the initiation to occur using an in situ FTIR probe. FTIR spectroscopy can be used to monitor the accumulation of the halide and reveal when initiation occurs by the resulting decrease in the infrared absorbance. Once it has been determined that the organic halide has reacted as a result of the initiation, it is safe to proceed with the remaining halide charge. The organic halide concentration can then be continuously monitored after initiation to ensure the reaction does not stall or to halt the feed if it does stall. Further, it was shown that IR can be used to quantify the amount of water that is present in THF which is needed to confirm that the THF is dry. The IR results along with reaction calorimetry and ventsizing data are discussed.
- Ende, David J.,Clifford, Pamela J.,Deantonis, David M.,Santamaria, Charles,Brenek, Steven J.
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p. 319 - 329
(2013/09/08)
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- Hydroxy derivatives of tamoxifen
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In the exploration of the structural features that affect the RBA (binding affinity for the estrogen receptor of rat uterus relative to that of estradiol) in the tamoxifen [trans-(Z)-1-[4-(dimethylamino)ethoxy]-1,2-diphenyl-1-butene] series, several derivatives variously substituted in the 1-phenyl group have been synthesized. In the tamoxifen series, the descriptors E and Z, which define the configuration of the geometrical isomers and depend on the location and nature of substituents in the aromatic moieties and the ethyl group, may vary, although the relative configuration (cis or trans) does not. In order to avoid confusion the terms cis and trans will be used in this paper to refer to the relative positions of the 4-[2-(dimethylamino)ethoxy]phenyl and ethyl (or hydroxyethyl, hydroxypropyl, or bromo) substituents attached to the ethene moiety]. The final stage of each synthesis involved acid-catalyzed dehydration of a tertiary alcohol, and, in contrast to the known 3- and 4-hydroxy derivatives which were obtained as near-equimolar cis,trans mixtures, only the trans forms of the 2-hydroxy, 2-methyl, 2,4-dihydroxy, and 4-hydroxy-2-methyl derivatives were obtained. Also, in contrast to the trans forms of the 3- and 4-hydroxy derivatives, which are readily equilibrated to cis,trans mixtures, the trans 2-hydroxy derivative could not be isomerized. Tamoxifen and 2-methyltamoxifen had similar RBA's (~1% of that of E2), but that of 2-hydroxytamoxifen was much lower (0.1%). Introduction of a second hydroxyl group (2,4-dihydroxy derivative) enhanced the RBA, and for the 4-hydroxy-2-methyl derivative, the RBA and growth inhibitory activity against the MCF-7 mammary tumor cell line in vitro were high and comparable to those of 4-hydroxytamoxifen, a metabolite of the parent drug. Tamoxifen derivatives hydroxylated at positions 3 or 4 of the 1-butene moiety and the 5-hydroxy-1-pentene analogue were also synthesized, but they had very low RBA values.
- Foster,Jarman,Leung,McCague,Leclercq,Devleeschouwer
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p. 1491 - 1497
(2007/10/02)
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