The detection of cellular response via its different T cell subpopulations was proved to be crucial to better understand mechanisms of pathologies and monitor protocols of immunotherapy. Unicellular cytokine measurement not only allows the assessment of their inherent role on immunological response, but also the detection of T lymphocytes (LT) secretion profile which gives information on subpopulations involved, their activation state and their functionality. Detection of the cytokine secreting cells frequency is achievable with Elispot. This test is widely used in clinical trials to monitor vaccine response to diseases such as influenza. Although seroprotection is the recognized parameter to assess anti-influenza vaccine efficiency, cellular response has been proved to play an important role in infection control. Our results highlighted that the use of the whole vaccine to monitor T cell response may induce bias in cytokine detection. Indeed, their excipients can be considered as contaminants, like Thimerosal which is used as a preservative in some vaccines. We demonstrated that it induced detection of small spots in interferon (IFN) Elispot. We proved that these spots were associated with in vitro early abortive T cell activation. However, their size enabled us to remove these unspecific spots from bona fide spots.Fluorospot test is suited for multiplex cytokine analysis. Thus it is more adapted than Elispot to detect cytokine secretion profiles and polyfunctional T cells frequency. It is worth noting that polyfunctionnal Tcells are associated with a better clinical outcome in several pathologies. Our results led to technical validation of this test for detection of two cytokines couples, IFN/interleukin (IL)-10 and IFN/IL-2. Fluorospot showed a better sensitivity than intracellular staining cytometry (ICS) in detection of IFN and IL-10 produced by a cell line transfected with the cDNA encoding these cytokines. Moreover, Fluorospot demonstrated a similar sensitivity than Elispot when used to monitor the immunological response to an anti-influenza vaccine. Furthermore, using this technique, we showed that anti-influenza T cell producing IL-2 were the dominant population of T cells. Isolated IFN producing T cells were less sensitive than the detection of IL-2 to detect specific T cell response against influenza. Therefore our results provided a full validation of Fluorospot test, for the technical part as well as for the clinical part. These conclusions open perspectives of using this method to monitor protocols in a near future.