Microfluidic Microcirculation Mimetic as a Tool for the Study of Rheological Characteristics of Red Blood Cells in Patients with Sickle Cell Anemia

Sickle cell disorder (SCD) is a multisystem disease with heterogeneous phenotypes. Although all patients have the mutated hemoglobin (Hb) in the SS phenotype, the severity and frequency of complications are variable. When exposed to low oxygen tension, the Hb molecule becomes dense and forms tactoid...

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Bibliographic Details
Published in:Applied sciences 2022-04, Vol.12 (9), p.4394
Main Authors: Asuquo, Marcus Inyama, Effa, Emmanuel, Gbotosho, Oluwabukola, Otu, Akaninyene, Toepfner, Nicole, Ameh, Soter, Bhayankaram, Sruti-Prathivadhi, Zetocha, Noah, Nwakama, Chisom, Egbe, William, Guck, Jochen, Ekpenyong, Andrew
Format: Article
Language:English
Subjects:
Anemia
Bisulfite
Blood
Blood circulation
Blood diseases
Cell morphology
Complications
Consent
Constrictions
Customization
Cytology
Emergency medical care
Erythrocytes
Ethics
Feasibility
Feasibility studies
Hemoglobin
Hydroxyurea
Hypoxia
Infections
Life expectancy
microcirculation
Microfluidics
Oxygen tension
Patients
personalized medicine
Phenotypes
Quality of life
Questionnaires
Rheological properties
Rheology
Roundness
Shape
Sickle cell anemia
Sickle cell disease
sickle cell disorder
Teaching hospitals
vaso-occlusive crisis
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Summary:Sickle cell disorder (SCD) is a multisystem disease with heterogeneous phenotypes. Although all patients have the mutated hemoglobin (Hb) in the SS phenotype, the severity and frequency of complications are variable. When exposed to low oxygen tension, the Hb molecule becomes dense and forms tactoids, which lead to the peculiar sickled shapes of the affected red blood cells, giving the disorder its name. This sickle cell morphology is responsible for the profound and widespread pathologies associated with this disorder, such as vaso-occlusive crisis (VOC). How much of the clinical manifestation is due to sickled erythrocytes and what is due to the relative contributions of other elements in the blood, especially in the microcapillary circulation, is usually not visualized and quantified for each patient during clinical management. Here, we used a microfluidic microcirculation mimetic (MMM), which has 187 capillary-like constrictions, to impose deformations on erythrocytes of 25 SCD patients, visualizing and characterizing the morpho-rheological properties of the cells in normoxic, hypoxic (using sodium meta-bisulfite) and treatment conditions (using hydroxyurea). The MMM enabled a patient-specific quantification of shape descriptors (circularity and roundness) and transit time through the capillary constrictions, which are readouts for morpho-rheological properties implicated in VOC. Transit times varied significantly (p < 0.001) between patients. Our results demonstrate the feasibility of microfluidics-based monitoring of individual patients for personalized care in the context of SCD complications such as VOC, even in resource-constrained settings.
ISSN:2076-3417
2076-3417
DOI:10.3390/app12094394