Functional Fluidics biomarkers can objectively assess impact of therapies on patient well-being in postmarketing studies.

Postmarketing Studies

Functional Fluidics biomarkers can determine the effects of your FDA-approved therapy on red blood cell function and assess a proposed mechanism of action or identify optimal dosages in the context of a post-marketing study.

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Proprietary Lab Developed Tests

Now that your therapy has been approved by the FDA, healthcare providers will need well-validated biomarkers to objectively assess the impact on red blood cell health, and ultimately patient health. Our suite of proprietary cell function assays can help validate assumptions or support clinical claims.

  • Flow Adhesion:
    Our Flow Adhesion Assays capture the adhesive properties of an individual’s blood cells during conditions that simulate physiologic blood flow.
  • Mechanical Fragility :
    Our Membrane Fragility assay determines the stability of the intact RBC membrane, which indicates the health of the RBC and may predict RBC survival.

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Functional Fluidics Assays

Our suite of proprietary cell function assays can help validate assumptions or support clinical claims.

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    Flow Adhesion of whole blood on VCAM-1 (FA-WB-VCAM)
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    Flow Adhesion of whole blood on P-Selectin (FA-WB-Psel)
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    Mechanical Fragility – Normoxia (MF)
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Evaluation of Longitudinal Pain Study in Sickle Cell Disease (ELIPSIS)

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Sickle cell disease (SCD) is characterized by frequent and unpredictable vaso-occlusive episodes (VOEs) that produce severe pain, organ damage, and early death. Lack of reliable biomarkers to objectively define VOEs, hinders the development of clinically useful interventions to improve the care for these patients.

Functional Fluidics recently participated in a ground-breaking study involving sickle cell patients. This non-interventional, longitudinal, 6-month study aimed to develop tools to identify VOCs in SCD patients with or without health care utilization.

The study data suggest that Functional Fluidics FA-WB-VCAM assay may serve as a predictive biomarker for impending VEEs, and a monitoring biomarker to assess response to SCD-modifying therapies.

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Evaluation of Longitudinal Pain Study in Sickle Cell Disease (ELIPSIS) by Electronic Patient-Reported Outcomes, Actigraphy, and Biomarkers

Functional Fluidics Biomarker Assay Featured in ELIPSIS article in American Society of Hematology (ASH) Blood Magazine

Key Points

  • Feasibility of monitored out-of-hospital pain and patient-reported VOC days as endpoints for clinical trials in SCD is demonstrated.
  • ePROs, actigraphy, and laboratory biomarkers enable improved identification and assessment of in-hospital and out-of-hospital VOCs.
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Publications

FLOW ADHESION

Evaluation of Longitudinal Pain Study in Sickle Cell Disease (ELIPSIS) by Electronic Patient-Reported Outcomes, Actigraphy, and Biomarkers

This non interventional, longitudinal, 6-month study aimed to develop tools to identify VOCs in SCD patients with or without health care utilization.

MECHANICAL FRAGILITY

Red Blood Cell Mechanical Fragility as Potential Metric for Assessing Blood Damage Caused by Implantable Durable Ventricular Assist Devices: Comparison of Two Types of Centrifugal Flow Left Ventricular Assist Devices.

Implantable Ventricular Assist Devices (VADs) have become a treatment of choice for patients with end-stage heart failure or cardiogenic shock, significantly increasing both survival rates and the quality of life of patients.

MECHANICAL FRAGILITY

Individual Variability in Response to a Single Sickling Event for Normal, Sickle Cell, and Sickle Trait Erythrocytes

Hemoglobin S (Hb-S) polymerization is the primary event in sickle cell disease causing irreversible damage to red blood cell (RBC) membranes over repeated polymerization cycles.

FLOW ADHESION

Sevuparin blocks sickle blood cell adhesion and sickleleucocyte rolling on immobilized L-selectin in a dose dependent manner

Adhesion of sickle red blood cells (SSRBC) to the vascular endothelium may initiate and propagate vascular obstruction in sickle cell disease (SCD)

MECHANICAL FRAGILITY

Impact of Environment on Red Blood Cell ability to Withstand Mechanical Stress.

Susceptibility of red blood cells (RBC) to hemolysis under mechanical stress is represented by RBC mechanical fragility (MF), with different types or intensities of stress potentially emphasizing different perturbations of RBC membranes

MECHANICAL FRAGILITY

An Approach to Measuring RBC Haemolysis and Profiling RBC Mechanical Fragility

Red blood cells (RBC) can be damaged by medical products, from storage or from disease. Haemolysis (cell rupture and haemoglobin release) is often a key indicator, with mechanical fragility (MF) offering the potential to assess sub-haemolytic damage as well

FLOW ADHESION

Low Molecular Weight Heparin Inhibits Sickle Erythrocyte Adhesion to VCAM-1 through VLA-4 Blockade in a Standardized Microfluidic Flow Adhesion Assay

The vaso-occlusive events in sickle cell disease (SCD) begin in early childhood, warranting the need for more preventative and therapeutic interventions for those affected

MECHANICAL FRAGILITY

Impact of the Oscillating Bead Size and Shape on Induced Mechanical Stress on Red Blood Cells and Associated Hemolysis in Bead Milling

While in circulation, red blood cells (RBC) need to elastically undergo large deformations without lysing, an ability that may be compromised by cell membrane damage.

 

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