Coronary Artery Disease is the primary cause of mortality in the United States (US), ranking as the third leading cause of death globally. Coronary Artery Bypass Grafting (CABG) with left internal mammary artery to the left anterior descending artery is the gold standard for CABG with a patency rate of 90% at 15 years. The great saphenous vein (GSV) harvested by endoscopic vein harvesting (EVH) is the second most common vascular conduit used for CABG in the US. This is despite the poor long-term patency of this conduit due to vein graft failure (VGF). VGF is the number one technical problem associated with CABG, with 15-year patency rates of only 30 to 50%. While the "no touch" harvesting technique avoids VGF, with 15-year patency rates of 86%, it is technically demanding and results in increased leg wound healing, and not widely used. With this in mind, we developed the Minimally Invasive No Touch (MINT) technique that incorporates the best features of EVH and no touch. This procedure employs hydro dissection, a process that utilizes fluid pressure to gently harvest the GSV with minimal trauma. This approach effectively addresses two significant issues associated with using the GSV in CABG, namely VGF resulting from impaired endothelial function and excessive trauma to the GSV during the extended learning curve needed to master EVH. To evaluate this, harvesting was conducted by a PA, with over 2,000 standard EVH procedures. Our preliminary studies looked to evaluate the quality of GSVs harvested from patients using 1) standard EVH, 2) “no touch” harvesting techniques or 3) the MINT harvesting procedure, focused on evaluating the quality of the vessels by measuring the endothelial nitric oxide synthase (eNOS) activity and nitric oxide (NO) bioavailability. eNOS activity assays across harvested GSVs revealed a 3.4-fold increase in NO generation across MINT harvested samples compared to EVH and “no touch” samples, respectively. This data suggests that the GSVs harvested by the MINT procedure result in a structurally intact vein with elevated eNOS activity and NO bioavailability consistent with a functionally intact endothelium. Additional studies are necessary to uncover the array of vascular benefits associated with MINT GSV harvesting for CABG procedures.