Taeniasis caused by T. solium is an intestinal infection that affects humans by eating meat contaminated with cysticerci. Their larvae can infect tissues, causing human cysticercosis with progression to neurocysticercosis. This constitutes a public health problem that prevails in urban and rural areas, where it is associated with different social determinants such as poor sanitary and hygienic conditions and poverty, which is why it is among the main neglected tropical diseases. In addition to the above, the available diagnostic methods show variations in performance, some with low sensitivity and specificity, cross reactions with other diseases and between species of Taenia spp. Responding to the diagnostic problems, different tests have been developed from recombinant peptides that allow to overcome the operational characteristics of those available, however, there is still a need for studies that provide more information on the characteristics of the parasite proteins. In such a way that this serves to improve the diagnostic methods from feces, which are simple, cost-effective and rapid, to detect the carriers of T. solium in the field and thus support the elimination of the teniasis / cysticercosis complex. The excretion / secretion proteins of T. solium could be candidates to be identified in fecal matter, however the information on these proteins is scarce, mainly on their immunogenic characteristics, which is why this work aimed to evaluate the In silico immunogenic potential of the proteins of the egg and adult stage of Taenia solium. To this end, the evaluation of the in silico immunogenic potential of the protein sequences reported in the National Center for Biotechnology Information (NCBI) for Taenia solium and the identification of the excretion / secretion proteins was carried out, the BepiPred servers were used -2.0 and SignalP- 5.0 respectively. The classification of proteins by parasite stage and the prediction of the signal peptide were taken into account for the identification of excretion / secretion proteins. Of the 586 protein sequences reported by the NCBI and evaluated in silico, 88 sequences with immunogenic potential were obtained, equivalent to 22 T. solium proteins with their respective variants, which may also be part of the parasite's excretion / secretion system.