Abstract: A modular surgical device is disclosed for efficient tissue dissection and fluid evacuation during surgical procedures. The device comprises a first portion with a cutting end tapered to a sharpened tip, a fluidic channel, and a uniquely shaped aperture. The aperture features an elliptical cross-section oriented at an angle relative to the device's longitudinal axis, potentially enhancing fluid flow dynamics. A releasable locking assembly securely connects the first portion to a second handle portion containing a fluidic channel and an angled external port for evacuation hose attachment. The device's modularity allows for customization and its angled port configuration is designed to minimize interference during surgical procedures.