Doris Lau scite author profile

Doris Lau

5Publications

63Citation Statements Received

58Citation Statements Given

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Affiliations

Keysight Technologies (Singapore), University of Manchester, Pharmaceutical Product Development (United States)

Publications

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Quantification and Characterization of Micrometer and Submicrometer Subvisible Particles in Protein Therapeutics by Use of a Suspended Microchannel Resonator

Patel

Lau

2012

Anal. Chem.

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The ability to characterize micrometer and submicrometer particles in solution is of fundamental importance to understanding the relationship between protein particles in biotherapeutics and concerns raised regarding immunogenicity. While a number of characterization methods are available for analyzing subvisible particle content in protein pharmaceuticals, counting and characterizing particles within the entire subvisible size range remains a significant challenge due to the properties of the proteinaceous particles themselves and to the limitations of the available techniques. Additionally, as silicone oil-lubricated prefilled syringes become a favored primary packaging for biotherapeutic products, proteinaceous subvisible particle characterization is further complicated by the presence of silicone oil droplets in solution. Here, we critically evaluate and apply a novel method for particle characterization that relies on differences in particle buoyant mass to characterize particle content in the range of ca. 0.5-5 μm. A model particle system was specifically designed to evaluate the ability of the suspended microchannel resonator (SMR) to distinguish between buoyant particles (e.g., silicone oil) and dense particles (e.g., protein particles) in aqueous solution. In addition, this emerging technique was successfully applied to high-concentration monoclonal antibody solutions stored in prefilled syringes in stressed stability studies. It is shown that the SMR system can potentially distinguish between silicone oil droplets and protein particles in a size range that is challenging for many subvisible particle characterization methods. Limitations of the SMR method are also discussed.

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Design and analysis of an X-band MMIC "bus-bar" power combiner

Marsh

Lau²,

Sloan³

et al.

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Simplified design technique for high-performance microstrip multisection couplers

Lau

Marsh

Davis

et al. 1998

IEEE Trans. Microwave Theory Techn.

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Pacemaker: Narrow pulses generation for design and sensitivity test

Chew¹,

Lau²

2017

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Simplified design technique for high performance microstrip multi-section couplers

Lau

Marsh²,

Davis³

et al.

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A new design technique has been developed which improves the design of microstrip multi-section coupler by a simplified version of the non-uniform coupler method. The design is further improved by the use of the "s,aw-tooth" odd and even mode equalisation technique. The measured results demonstrate an irnproved performance over the multi-section coupler in terms of coupling performance and bandwidth, whilst the size and the fabrication tolerarice are better than the nonuniform line coupler.

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Doris Lau

Quantification and Characterization of Micrometer and Submicrometer Subvisible Particles in Protein Therapeutics by Use of a Suspended Microchannel Resonator

Design and analysis of an X-band MMIC "bus-bar" power combiner

Simplified design technique for high-performance microstrip multisection couplers

Pacemaker: Narrow pulses generation for design and sensitivity test

Simplified design technique for high performance microstrip multi-section couplers

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