Comprehensive next-generation sequencing (NGS) panels designed to identify the tumor mutational profile are becoming the standard care to prescribe target therapies in developed countries. In non-small cell lung cancer (NSCLC), this approach significantly impacts the patient´s clinical results, measured as progression-free survival and/or overall survival, compared to conventional chemotherapies. However, as Latin American patients tend to experience more significant health disparities because of structural, sociodemographic, and psychosocial factors, in this work, our purpose is to measure the disparities in the access to NSCLC´s target therapies, specifically in Chile. DNAs and RNAs from 1643 NSCLC samples from Chile, Brazil, and Peru were sequenced to assess the mutational status in fifty-two cancer genes. After an NGS quality control, variants were called and annotated using the Variant Effect Predictor, Annovar, COSMIC, and OncoKB, to categorize somatic mutations. The following analysis focused on today’s actionable genes in NSCLC, with FDA-approved target therapies (EGFR, KRAS, ALK, MET, ERBB2, BRAF, ROS1, and RET). In this analysis, 46.5% of tumors evidenced driver mutations (764/1643); interestingly, from this subset, 86.9% showed one driver variant, 11.2% two drivers, 1.4% three drivers, and 0.5% evidenced between 4-6 driver mutations. However, 19.4% (495/1643) evidenced actionable variants. The most mutated genes and the most common actionable variants were 15.3% EGFR (37% EGFR L858R), followed by 4.9% KRAS (100% KRAS G12C), 4.5% ALK (95.4% EML4-ALK fusion), 3% MET (100% MET exon 14 skipping), and 2.3% ERBB2. Finally, 1.5% BRAF, 1% ROS1 gene fusions and 0.9% RET gene fusions. Considering the target therapies approved by Chile´s Instituto de Salud Publica until October 2021, and if all these patients were diagnosed in Chile, only 64% would receive a targeted drug. EGFR is the gene with more target therapies validated in Chile, although drugs against exon twenty insertion have not been approved yet. Chile does not account for any targeted treatment for patients with alterations in KRAS, MET, RET and ERBB2; although the FDA approved a specific drug against KRAS G12C very recently (May 28, 2021), different is the case of MET because the first inhibitor, crizotinib, was FDA approved four years ago. Interestingly, in 2021, two inhibitors against the most common MET alteration were FDA approved, but none have been approved in Chile yet. In Chile, almost all target therapies have been validated against EGFR, ALK, and BRAF; however, patients with KRAS, MET, RET, and ERBB2 cannot access specific drugs, so in these cases, the recommended therapeutic option is chemotherapy. It is important to note that the target drugs approval only ensures the availability of the drug in Chile. Still, few of the target drugs are part of financed drugs by the Chilean health system, so the question is, how could we increase the national access to existing target therapies?