A rise of intracellular calcium concentration triggered by the engagement of various membrane receptors is a key event in the control of cell growth. This increase involves both a release of calcium from intracellular stores and the opening of a transmembrane calcium conductive pathway. Using video imaging to measure intracellular calcium concentration in individual fura-2-loaded cells, we detected a defect in calcium influx in lymphocytes and fibroblasts collected from patients affected by a rare and new form of primary immunodeficiency. In these cells, pharmacological agents such as thapsigargin or ionomycin, and the physiological activator bradykinin, only induced transient increases in cytoplasmic calcium level, due to the emptying of internal stores, while in control cells, this initial step is followed by an additional and sustained transmembrane calcium influx. The fact that calcium influx is absent in patient's fibroblasts indicates that the related deficiency, which is clinically associated with a lack of proliferation of T lymphocytes, also affects cells of the non-hematopoietic lineages. This study emphasizes the adequacy of single cell imaging for determining whether some forms of pathologies are associated with a disregulation of ionic fluxes, and for identifying them accurately.