Acute hydrodynamic damage induced by SPLITT fractionation and centrifugation in red blood cells

Though blood bank processing traditionally employs centrifugation, new separation techniques may be appealing for large scale processes. Split-flow fractionation (SPLITT) is a family of techniques that separates in absence of labelling and uses very low flow rates and force fields, and is therefore...

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Autores:

Tipo de recurso:

Fecha de publicación:

2016

Institución:

Universidad del Rosario

Repositorio:

Repositorio EdocUR - U. Rosario

Idioma:

eng

OAI Identifier:

oai:repository.urosario.edu.co:10336/22288

Acceso en línea:

https://doi.org/10.1016/j.jchromb.2016.03.025
https://repository.urosario.edu.co/handle/10336/22288

Palabra clave:

Blood
Centrifugation
Cytology
Energy dissipation
Fluid dynamics
Hemoglobin
Hydrodynamics
Shear stress
Energy dissipation rate
Human red blood cell
Membrane potentials
Operating condition
Optimal operating conditions
Red blood cell
Separation techniques
SPLITT fractionation
Cells
Egtazic acid
Sodium chloride
Article
Cell damage
Cell function
Cell shape
Cell structure
Cell viability
Centrifugation
Comparative study
Controlled study
Correlation analysis
Echinocyte
Erythrocyte
Fractionation
Human
Human cell
Hydrodynamics
Hyperpolarization
Mean corpuscular hemoglobin
Membrane potential
Priority journal
Shear stress
Split flow fractionation
Adverse effects
Biomechanics
Cell separation
Cell survival
Centrifugation
Cytology
Devices
Equipment design
Erythrocyte
Erythrocyte membrane
Hydrodynamics
Physiology
Procedures
Shear strength
Biomechanical Phenomena
Cell Separation
Cell Shape
Cell Survival
Centrifugation
Equipment Design
Erythrocyte Membrane
Erythrocytes
Humans
Hydrodynamics
Membrane Potentials
Shear Strength
Centrifugation
Energy dissipation rate
Hydrodynamic damage
Red blood cells
SPLITT fractionation

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