Small molecules are frontline therapeutics for many diseases; however, they are often limited by their poor solubility. Therefore, hydrophobic small molecules are often encapsulated or prepared as pure drug nanoparticles. Navitoclax, used to eliminate senescent cells, is one such small molecule that faces challenges in translation due to its hydrophobicity and toxic side effects. Further, as senescent cells exhibit context-dependent pathologic or beneficial properties, it is preferable to eliminate senescent cells locally. To formulate navitoclax and enable local treatment, we designed an injectable hydrogel loaded with navitoclax nanoparticles as a senolytic delivery vehicle. Navitoclax nanoparticles (Ø ∼ 110 nm) were prepared via solvent-antisolvent nanoprecipitation and formulated in an injectable polymer-nanoparticle (PNP) hydrogel to create a local senolytic depot. Navitoclax-loaded PNP hydrogels selectively cleared senescent cells in vitro in senescent endothelial monolayers. This work demonstrates the value of formulating lipophilic small molecules and the potential of localized drug delivery strategies to improve senolytic therapies.