Flow Cytometry Diagnostics

What is Flow Cytometry Diagnostics?

Flow cytometry diagnostics is one of the core technologies in modern precision medicine. It enables high-throughput, multi-parameter, quantitative analysis of individual cells. This technology plays a “gold standard” role in clinical practice, particularly in the diagnosis, classification, and minimal residual disease (MRD) monitoring of hematological malignancies, with the ability to track extremely low levels of tumor cells with high sensitivity. It is also widely applied in immune function assessment (e.g., TBNK lymphocyte subset analysis) and the diagnosis of immunodeficiency diseases. Its core value lies in providing objective, precise, cell-level evidence for disease diagnosis, prognostic evaluation, and treatment guidance.

For GeneMedi, the key focus is delivering comprehensive solutions—from high-performance standardized reagents and intelligent analysis software to automated platforms—to help clinical laboratories establish efficient and reliable flow cytometry diagnostic capabilities.

To this end, GeneMedi has launched two major flow cytometry diagnostic product lines: InflamOne™ Cytokines Flow Assays Panel (Multiplexed microsphere-based flow cytometric assays) and SOLIDEX™ - CDEx Flow Cytometry Antibodies (PE/APC/FITC/Biotin)  

These products are designed to provide precise, efficient, and standardized solutions for both research and clinical diagnostics. GeneMedi’s flow cytometry product portfolio addresses the complex challenges of cytokine detection and immunophenotyping. The InflamOne™ Cytokines Flow Assays Panel facilitates large-scale screening with its multiplex and high-efficiency features, while SOLIDEX™ - CDEx Flow Cytometry Antibodies meet precise phenotyping needs with high specificity and flexible labeling. Together, they form a complete flow cytometry solution spanning macroscopic secretion profiles to single-cell functional analysis, delivering reliable tools for immunology research, drug development, and clinical diagnostics.

Multiplexed Microsphere-Based Flow Cytometric Assays in Flow Cytometry Diagnostics

GeneMedi’s InflamOne™ Cytokines Flow Assays Panel (Multiplexed microsphere-based flow cytometric assays) is a reagent kit designed for the simultaneous detection of multiple cytokine (cell signaling protein) levels. This product is widely used in biomedical research, clinical diagnostics, and pharmaceutical development. Cytokines are protein molecules secreted by cells that mediate intercellular communication and play critical roles in cellular function, immune responses, inflammation, and tissue repair.

Based on multiplex microsphere-based flow cytometry technology, GeneMedi’s InflamOne™ Cytokines Flow Assays Panel is a standard method for simultaneously quantifying multiple cytokines. This technology combines traditional flow cytometry with fluorescent microsphere technology, enabling concurrent measurement of multiple cytokine levels while allowing surface labeling and classification of individual cells. GeneMedi offers bulk-packaged multiplex cytokine detection kits, including 6-plex-1, 6-plex-2, 7-plex, 10-plex, and 12-plex assays. These panels cover key inflammatory cytokines such as IL-6, TNF-α, IL-1β, IL-8, IFN-γ, and IL-10, and are compatible with various sample types, including serum, plasma, and cell culture supernatants.

 

Flow Cytometry Antibodies in Flow Cytometry Diagnostics

GeneMedi provides the SOLIDEX™ - CDEx Flow Cytometry Antibodies (PE/APC/FITC/Biotin) series—monoclonal antibody (mAb) fluorescent conjugates specifically tailored for immunology research, including: CD66b, CD34, NCAM1 (CD56), CD14, CD19, CD3E, CD4, CD8, TCR, CD138, CD45RA, CD45, CD16, CD25.  

This is a versatile collection of fluorescently conjugated antibodies designed to meet the advanced research demands in immunology, oncology, and cell therapy. These antibodies support rapid and accurate cellular analysis, with optimized design to enhance sensitivity and specificity in flow cytometry applications, thereby facilitating multi-parameter studies and enabling precise immunophenotyping and cell population analysis.