Optimised crystal morphologies for active pharmaceutical ingredients and related studies


Autoria(s): Horgan, Danielle E.
Contribuinte(s)

Moynihan, Humphrey A.

Irish Research Council

Clarochem Ireland Ltd.

Data(s)

18/11/2015

2015

2015

Resumo

The majority of active pharmaceutical ingredients (APIs) are crystalline solids in their pure forms. Crystalline solids have definable morphologies, i.e. shape and size. Crystal morphology is determined by both the internal structure of the crystals and external factors during growth from solution. The morphology of a crystal batch can affect key processes during manufacturing. Companies generally accept whatever morphology the manufacturing process provides and deal with any subsequent problems by costly trouble‒shooting. Rational design of optimised morphologies for crystalline pharmaceutical solids would be a very significant technical and commercial advance. Chapter one introduces the concept of crystal nucleation and growth. The phenomenon of polymorphism alongside the causes and impact is discussed. A summary of the scope of instrumentation used in the investigation of crystal polymorphism and morphology, including crystal size distribution (CSD), is also included. Chapter two examines the research carried out during an exploration of the optimum crystallisation parameters of phenacetin. Following a morphological study, the impact this induces on particle density and flow properties is examined. The impact of impurities on the crystallisation properties of phenacetin is investigated. Significantly, the location of impurities within individual crystals is also studied. The third chapter describes an industrial collaboration looking at the resolution and polymorphic study of trometamol and lysine salts of ketoprofen and 2‒phenylpropionic acid (2‒PPA). Chapter four incorporates a solid state study on three separate compounds: 2‒chloro‒4‒nitroaniline, 4‒hydroxy‒N‒phenylbenzenesulfonamide and N‒acetyl‒D‒glucosamine‒6‒O‒sulfate. 2‒Chloro‒4‒nitroaniline and 4‒hydroxy‒N‒phenylbenzenesulfonamide both produced interesting, extreme morphologies which warranted further investigation as part of a collaborative study. Following a summarisation of results in chapter five, chapter six contains the full experimental details, incorporating spectral and other analytical data for all compounds synthesised during the course of the research.

Irish Research Council (Enterprise Partnership Scheme (EPS))

Accepted Version

Not peer reviewed

Formato

application/pdf

Identificador

Horgan, D. E. 2015. Optimised crystal morphologies for active pharmaceutical ingredients and related studies. PhD Thesis, University College Cork.

http://hdl.handle.net/10468/2072

Idioma(s)

en

en

Publicador

University College Cork

Direitos

© 2015, Danielle E. Horgan.

http://creativecommons.org/licenses/by-nc-nd/3.0/

Palavras-Chave #Organic chemistry #Crystallisation #Crystal engineering
Tipo

Doctoral thesis

Doctoral

PhD (Science)