dc.contributor.author |
Smith, S
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dc.contributor.author |
Naidoo, T
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dc.contributor.author |
Nxumalo, Z
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dc.contributor.author |
Land, K
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dc.contributor.author |
Davies, E
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dc.contributor.author |
Fourie, L
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dc.contributor.author |
Marais, P
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dc.contributor.author |
Roux, P
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dc.date.accessioned |
2014-08-25T10:22:39Z |
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dc.date.available |
2014-08-25T10:22:39Z |
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dc.date.issued |
2014-03 |
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dc.identifier.citation |
Smith, S, Naidoo, T, Nxumalo, Z, Land, K, Davies, E, Fourie, L, Marais, P and Roux, P. 2014. Analysis system for characterisation of simple, low-cost microfluidic components. In: Sensors, MEMS, and Electro-Optical Systems, Proceedings of SPIE, Kruger Park, South Africa, 16 March 2014 |
en_US |
dc.identifier.uri |
http://proceedings.spiedigitallibrary.org/proceeding.aspx?articleid=1884904
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dc.identifier.uri |
http://hdl.handle.net/10204/7630
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dc.description |
Sensors, MEMS, and Electro-Optical Systems, Proceedings of SPIE, Kruger Park, South Africa, 16 March 2014 |
en_US |
dc.description.abstract |
There is an inherent trade-off between cost and operational integrity of microfluidic components, especially when intended for use in point-of-care devices. We present an analysis system developed to characterise microfluidic components for performing blood cell counting, enabling the balance between function and cost to be established quantitatively. Microfluidic components for sample and reagent introduction, mixing and dispensing of fluids were investigated. A simple inlet port plugging mechanism is used to introduce and dispense a sample of blood, while a reagent is released into the microfluidic system through compression and bursting of a blister pack. Mixing and dispensing of the sample and reagent are facilitated via air actuation. For these microfluidic components to be implemented successfully, a number of aspects need to be characterised for development of an integrated point-of-care device design. The functional components were measured using a microfluidic component analysis system established in-house. Experiments were carried out to determine: 1. the force and speed requirements for sample inlet port plugging and blister pack compression and release using two linear actuators and load cells for plugging the inlet port, compressing the blister pack, and subsequently measuring the resulting forces exerted, 2. the accuracy and repeatability of total volumes of sample and reagent dispensed, and 3. the degree of mixing and dispensing uniformity of the sample and reagent for cell counting analysis. A programmable syringe pump was used for air actuation to facilitate mixing and dispensing of the sample and reagent. Two high speed cameras formed part of the analysis system and allowed for visualisation of the fluidic operations within the microfluidic device. Additional quantitative measures such as microscopy were also used to assess mixing and dilution accuracy, as well as uniformity of fluid dispensing - all of which are important requirements towards the successful implementation of a blood cell counting system. |
en_US |
dc.language.iso |
en |
en_US |
dc.publisher |
SPIE Digital Library |
en_US |
dc.relation.ispartofseries |
Workflow;13283 |
|
dc.subject |
Microfluidic components |
en_US |
dc.subject |
Blood cell counting |
en_US |
dc.subject |
Microscopy |
en_US |
dc.subject |
Point-of-care (POC) |
en_US |
dc.subject |
POC |
en_US |
dc.title |
Analysis system for characterisation of simple, low-cost microfluidic components |
en_US |
dc.type |
Conference Presentation |
en_US |
dc.identifier.apacitation |
Smith, S., Naidoo, T., Nxumalo, Z., Land, K., Davies, E., Fourie, L., ... Roux, P. (2014). Analysis system for characterisation of simple, low-cost microfluidic components. SPIE Digital Library. http://hdl.handle.net/10204/7630 |
en_ZA |
dc.identifier.chicagocitation |
Smith, S, T Naidoo, Z Nxumalo, K Land, E Davies, L Fourie, P Marais, and P Roux. "Analysis system for characterisation of simple, low-cost microfluidic components." (2014): http://hdl.handle.net/10204/7630 |
en_ZA |
dc.identifier.vancouvercitation |
Smith S, Naidoo T, Nxumalo Z, Land K, Davies E, Fourie L, et al, Analysis system for characterisation of simple, low-cost microfluidic components; SPIE Digital Library; 2014. http://hdl.handle.net/10204/7630 . |
en_ZA |
dc.identifier.ris |
TY - Conference Presentation
AU - Smith, S
AU - Naidoo, T
AU - Nxumalo, Z
AU - Land, K
AU - Davies, E
AU - Fourie, L
AU - Marais, P
AU - Roux, P
AB - There is an inherent trade-off between cost and operational integrity of microfluidic components, especially when intended for use in point-of-care devices. We present an analysis system developed to characterise microfluidic components for performing blood cell counting, enabling the balance between function and cost to be established quantitatively. Microfluidic components for sample and reagent introduction, mixing and dispensing of fluids were investigated. A simple inlet port plugging mechanism is used to introduce and dispense a sample of blood, while a reagent is released into the microfluidic system through compression and bursting of a blister pack. Mixing and dispensing of the sample and reagent are facilitated via air actuation. For these microfluidic components to be implemented successfully, a number of aspects need to be characterised for development of an integrated point-of-care device design. The functional components were measured using a microfluidic component analysis system established in-house. Experiments were carried out to determine: 1. the force and speed requirements for sample inlet port plugging and blister pack compression and release using two linear actuators and load cells for plugging the inlet port, compressing the blister pack, and subsequently measuring the resulting forces exerted, 2. the accuracy and repeatability of total volumes of sample and reagent dispensed, and 3. the degree of mixing and dispensing uniformity of the sample and reagent for cell counting analysis. A programmable syringe pump was used for air actuation to facilitate mixing and dispensing of the sample and reagent. Two high speed cameras formed part of the analysis system and allowed for visualisation of the fluidic operations within the microfluidic device. Additional quantitative measures such as microscopy were also used to assess mixing and dilution accuracy, as well as uniformity of fluid dispensing - all of which are important requirements towards the successful implementation of a blood cell counting system.
DA - 2014-03
DB - ResearchSpace
DP - CSIR
KW - Microfluidic components
KW - Blood cell counting
KW - Microscopy
KW - Point-of-care (POC)
KW - POC
LK - https://researchspace.csir.co.za
PY - 2014
T1 - Analysis system for characterisation of simple, low-cost microfluidic components
TI - Analysis system for characterisation of simple, low-cost microfluidic components
UR - http://hdl.handle.net/10204/7630
ER -
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en_ZA |