Numerous studies have described the efficacy of heat inactivation, gamma irradiation, or treatment with guanidium-based chaotropic salts (e.g. TRIzol®) for pathogen inactivation of biological samples to ensure biosafety and biosecurity. However, the effect of these methods on the greater serum proteome are less studied. Here we sought to comprehensively measure the effects of three routinely used pathogen inactivation methods on the serum proteome of Rhesus macaques by characterizing the serum proteome pre-and-post inactivation treatment. Using data independent aquisition-based shotgun LCMS/MS, we evaluated total peptide/protein detection and individual protein abundances (e.g. ALB, APOA1, and CRP) across inactivation methods and compared to their untreated controls. Specifically, we observed improved quantitative reproducibility in gamma-irradiated samples across biological, technical, and experimental replicates compared to chemical inactivation and different heat combinations. These findings represent the first direct, experimental comparisons of effective pathogen inactivation methods on the serologic profiles of non-human primates and provide useful criteria for evaluating methods for biological specimen inactivation prior to proteomic analysis.