Add to ORKGMiniaturized on-chip blood separators have a great value for point-of-care diagnosis. In our work, a combined design strategy—microfiltration, sedimentation in a retarded flow, and wetting contrast—was taken to overcome the known limitations of on-chip blood separators. Our microfluidic chip consists of a polydimethylsiloxane micropillar array and an etched glass with microchannel branches. The red blood cells are significantly slowed and gradually settled down due to micropillars and enlarged dimension of a chamber. An etched glass microchannel allows the extraction of blood plasma exclusively due to the capillary effect. The fabricated microfluidic device can separate blood plasma from a whole blood sample without any external driving for...
Blood plasma separation from whole blood is often limited by numerous blood cells which can compromi...
Blood plasma separation from whole blood is often limited by numerous blood cells which can compromi...
Point of care diagnostics gain importance with regard to novel diagnostic techniques. Future applica...
Blood plasma is an important assay for many diagnostic tests typically performed in clinical laborat...
There is currently a growing need for lab-on-a-chip devices for use in clinical analysis and diagnos...
There is currently a growing need for lab-on-a-chip devices for use in clinical analysis and diagnos...
Microfluidics has developed as a set of powerful tools that have greatly advanced in some areas of b...
Separating plasma from blood using a microfluidic platform is favored and beneficial in point-of-car...
Microfluidic based blood plasma extraction is a fundamental necessity that will facilitate many futu...
In this research work, we present a simple and efficient passive microfluidic device for plasma sepa...
Nowadays, most of the clinical analytical tests are performed by separating the blood particles and ...
Continuous plasma separation will be greatly helpful for dynamic metabolite monitoring in kinetics r...
Continuous plasma separation will be greatly helpful for dynamic metabolite monitoring in kinetics r...
Thesis: Ph. D., Massachusetts Institute of Technology, Department of Chemical Engineering, 2015.Cata...
Current clinical methods for the separation of whole blood into blood cells and cell-free plasma are...
Blood plasma separation from whole blood is often limited by numerous blood cells which can compromi...
Blood plasma separation from whole blood is often limited by numerous blood cells which can compromi...
Point of care diagnostics gain importance with regard to novel diagnostic techniques. Future applica...
Blood plasma is an important assay for many diagnostic tests typically performed in clinical laborat...
There is currently a growing need for lab-on-a-chip devices for use in clinical analysis and diagnos...
There is currently a growing need for lab-on-a-chip devices for use in clinical analysis and diagnos...
Microfluidics has developed as a set of powerful tools that have greatly advanced in some areas of b...
Separating plasma from blood using a microfluidic platform is favored and beneficial in point-of-car...
Microfluidic based blood plasma extraction is a fundamental necessity that will facilitate many futu...
In this research work, we present a simple and efficient passive microfluidic device for plasma sepa...
Nowadays, most of the clinical analytical tests are performed by separating the blood particles and ...
Continuous plasma separation will be greatly helpful for dynamic metabolite monitoring in kinetics r...
Continuous plasma separation will be greatly helpful for dynamic metabolite monitoring in kinetics r...
Thesis: Ph. D., Massachusetts Institute of Technology, Department of Chemical Engineering, 2015.Cata...
Current clinical methods for the separation of whole blood into blood cells and cell-free plasma are...
Blood plasma separation from whole blood is often limited by numerous blood cells which can compromi...
Blood plasma separation from whole blood is often limited by numerous blood cells which can compromi...
Point of care diagnostics gain importance with regard to novel diagnostic techniques. Future applica...