Abstract
Lung cancer remains the leading cause of cancer mortality worldwide, with progress limited by tumor heterogeneity, drug resistance, and conventional therapy limitations. Nanotechnology-enabled drug delivery offers a transformative approach, enabling the precise engineering of nanocarriers for selective targeting, controlled release, and reduced toxicity. Recent innovations include inhalable systems that achieve localized pulmonary deposition, stimuli-responsive nanocarriers that release drugs in response to tumor microenvironment cues, and nano-immunotherapies that synergize with immune checkpoint blockade. Exosome-based vesicles further offer biomimetic advantages of low immunogenicity and natural tissue tropism. In parallel, theranostic platforms integrate treatment with imaging to enable real-time monitoring of drug delivery and tumor response. This review synthesizes mechanistic advances and translational developments in lung cancer nanomedicine, with emphasis on strategies that overcome biological barriers such as hypoxia, extracellular matrix density, and efflux pump activity. Clinical progress between 2020 and 2025 highlights next-generation antibody-drug conjugates, nanoparticle vaccines, and gene-loaded systems, several of which have reached regulatory approval or advanced trial stages. Together, these advances highlight the potential of nanocarriers to transform lung cancer therapy into more precise, personalized, and less toxic interventions.