This comprehensive study undertook a thorough evaluation of the biochemical composition and stability of eye drops manufactured at Mengo Hospital. A range of analytical tests were conducted to assess the eye drops' pH, osmolarity, viscosity, protein content, and susceptibility to microbial contamination. Additionally, stability testing was performed under various storage conditions to simulate real-world scenarios. The results of the study revealed that the eye drops manufactured at Mengo Hospital largely conformed to regulatory standards for pH and osmolarity. However, significant variations were observed in viscosity and protein content, indicating inconsistencies in the manufacturing process. Furthermore, stability testing under accelerated conditions demonstrated degradation of the eye drops, highlighting concerns regarding their shelf life and potency. Notably, microbial contamination was detected in some samples, raising concerns about the risk of eye infections and the need for improved sterilization protocols. A comparative analysis with commercial eye drops revealed similarities in biochemical composition but distinct differences in stability profiles. This suggests that while the Mengo Hospital eye drops may possess similar characteristics to commercial products, their stability and longevity may be compromised. The findings of this study have significant implications for quality improvement initiatives at Mengo Hospital. Recommendations include optimizing the manufacturing process to minimize variations in viscosity and protein content, implementing enhanced sterilization protocols to prevent microbial contamination, and conducting regular stability testing to ensure the eye drops' potency and shelf life. By addressing these areas, Mengo Hospital can enhance the quality and safety of its eye drops, ultimately benefiting patients and maintaining trust in its products.