Cardiovascular disease (CVD) accounts for nearly one-third of all global fatalities, establishing itself as a leading cause of death. To address this pressing issue, there is a growing demand for improved diagnostic methods and secure, non-invasive imaging techniques that can deliver precise insights into the progression of CVD. The success of personalized therapy for CVD depends on a couple of critical factors: accurate diagnosis and early detection. Therapeutic options for conditions like CVD, which develop over several decades, are highly specific to the individual's condition and the stage of the disease. In the field of biomedicine, nanotechnology has become increasingly prominent as a tool with diverse applications, including diagnostics, biosensing, and drug delivery. This review article offers an in-depth look at the most recent developments in the utilization of nanotechnology for detecting and managing prevalent cardiovascular diseases, providing valuable insights into this crucial area of healthcare research.