Automated Processing of Plasma Samples for Lipoprotein Separation by Rate-Zonal Ultracentrifugation

Plasma lipoproteins are the primary means of lipid transport among tissues. Defining alterations in lipid metabolism is critical to our understanding of disease processes. However, lipoprotein measurement is limited to specialized centers. Preparation for ultracentrifugation involves the formation o...

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Bibliographic Details
Published inJournal of Laboratory Automation Vol. 21; no. 6; pp. 756 - 764
Main Authors Peters, Carl N., Evans, Iain E. J.
Format Journal Article
LanguageEnglish
Published Los Angeles, CA SAGE Publications 01.12.2016
Subjects
Automation, Laboratory - instrumentation
Automation, Laboratory - methods
Centrifugation, Density Gradient - methods
Lipoproteins - isolation & purification
Plasma - chemistry
Ultracentrifugation - methods
peristaltic pump
gradient pump
lipoprotein
density gradient
ultracentrifugation
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ISSN2211-0682
2472-6303
1540-2452
2211-0690
DOI10.1177/2211068215623210

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Summary:Plasma lipoproteins are the primary means of lipid transport among tissues. Defining alterations in lipid metabolism is critical to our understanding of disease processes. However, lipoprotein measurement is limited to specialized centers. Preparation for ultracentrifugation involves the formation of complex density gradients that is both laborious and subject to handling errors. We created a fully automated device capable of forming the required gradient. The design has been made freely available for download by the authors. It is inexpensive relative to commercial density gradient formers, which generally create linear gradients unsuitable for rate-zonal ultracentrifugation. The design can easily be modified to suit user requirements and any potential future improvements. Evaluation of the device showed reliable peristaltic pump accuracy and precision for fluid delivery. We also demonstrate accurate fluid layering with reduced mixing at the gradient layers when compared to usual practice by experienced laboratory personnel. Reduction in layer mixing is of critical importance, as it is crucial for reliable lipoprotein separation. The automated device significantly reduces laboratory staff input and reduces the likelihood of error. Overall, this device creates a simple and effective solution to formation of complex density gradients.
ISSN:2211-0682
2472-6303
1540-2452
2211-0690
DOI:10.1177/2211068215623210