128013-69-4Relevant articles and documents
A ring-closing metathesis approach for the synthesis of (±)-pregabalin
Bobade, Vivek D.,Mhaske, Pravin C.,Vadgaonkar, Kamlesh S.,Shelke, Shivaji H.
, p. 847 - 851 (2012)
Efficient utilization of a Mannich-type reaction and the ring-closing metathesis (RCM) approach that leads to a convenient synthesis of 3-(aminomethyl)-5-methylhexanoic acid (pregabalin) is described. Springer-Verlag 2011.
Synthesis of (±)-Pregabalin by Utilizing a Three-Step Sequential-Flow System with Heterogeneous Catalysts
Ishitani, Haruro,Kanai, Kan,Saito, Yuki,Tsubogo, Tetsu,Kobayashi, Shū
, p. 6491 - 6494 (2017)
(±)-Pregabalin, a γ-amino acid derivative, has been synthesized by utilizing flow methods. A three-step sequential-flow reaction starting from commercial isovaleraldehyde and methyl malonate proceeded smoothly with heterogeneous catalysts to afford the precursor of pregabalin in yields of 75–100 %, and a space-time yield of 52.2 g/L d was reached. In addition, a heterogeneous catalyst for the Knoevenagel reactions of aldehydes with malonates, which is the first step of the synthesis, has been developed. Pregabalin was finally obtained by acid-catalyzed hydrolysis of the precursor followed by neutralization.
Preparation method of pregabalin
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, (2020/07/12)
The invention discloses a preparation method of pregabalin, and particularly discloses a synthesis method of pregabalin, and relates to a compound shown as a formula I shown in the specification.
Method for preparing pregabalin by photocatalysis (by machine translation)
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, (2020/06/05)
The preparation method is characterized by comprising the 3S following -3 - steps:5 - 1) dissolving the compound I and a certain amount of alkali in an organic solvent, adding the compound II, heating the reaction, obtaining the compound III, 2) preparing the compound V; 3) preparing the compound V through deprotection, ring opening, chiral resolution, and recrystallization to obtain pregabalin. The preparation method comprises the following steps: 1) dissolving compound III, compound IV and photocatalyst in an organic solvent. The raw materials used in the invention are cheap and easily available, the reaction conditions of the photocatalytic oxidation method are mild, reagents are environmentally friendly, green and environment-friendly, and the method is an ideal industrial production process. (by machine translation)