Chemotherapeutic treatment of breast cancer with Doxorubicin can induce tumor and stromal cell senescence leading to therapy-resistance. Senescence-associated secretory phenotype (SASP) promotes secretion of pro-inflammatory and tumorigenic factors causing systemic inflammation. Combined, this can result in immune suppression, tumor growth and secondary spread of cancer. Targeting and removing senescent and cancerous cells using a combination of chemotherapeutic and senolytic drugs may reduce systemic inflammation, improve therapeutic efficacy, and prevent metastasis. Treatment of both triple-negative breast cancer (MDA-MB-231) cells, and primary spine osteoblasts 0.25 uM Doxorubicin showed significant induction of senescence indicated by p21 positive cells. Doxorubicin and senolytics (RG-7112, o-Vanillin) treatment of mono-culture and co-culture spheroids showed a significant additive effect on decreased tumor sphere viability and growth. This was correlated with decreased p21 and Ki67 proliferation marker in both the breast cancer and osteoblast cells. In all cases, combined Doxorubicin and senolytics significantly reduced sphere size and cancer cell outgrowth, indicating reduced metastatic potential. Future chemotherapeutic treatment of breast cancer patients may be optimized by adding senolytic drugs to more effectively clear tumors and help regenerate surrounding stroma tissue such as in the bone metastatic environment.