Past and current research highlights the detriments that space dust has on equipment, habitats, and astronauts. Despite our knowledge of the adverse impact space dust can have, there is not yet a cost effective and efficient way to address it. During six Apollo missions from 1969 to 1973, debrief reports recorded seventy-four unique references to dust. Results showed that almost every mission objective was negatively impacted by dust, with the nature of its effects varying widely. This paper is a meta-analysis of NASA publications between 2005 and 2025 which specifically focuses on technologies for reducing the effects of space dust on mission operations and astronaut health. Information from existing reports was compiled and examined to determine the overall most energy and resource efficient way to remove lunar dust from various surfaces. After compilation, results show that the current most promising active method for removing space dust is a high-voltage Electrodynamic Dust Sheild (EDS), which uses the charged properties of the dust to repel up to 90% of surface particles in a vacuum. Further integration of EDS knowledge and related technologies into lunar will result in improved long-term health and mission outcomes.