Distal Access, LLC
Designs and develops single-use, hand-actuated medical devices and mechanical controllers for interventional procedures. Focus areas include mechanical high-torque controllers for guidewire manipulation, manual bone access and biopsy tools, and manual tissue resection instruments. The company emphasizes devices that increase torque, speed, or control while preserving clinician tactile feedback and minimizing dependence on powered electromechanical systems.
Industries
N/A
Products
SPINR controller
A non‑powered, hand‑actuated mechanical controller that delivers predictable multi‑turn clockwise and counterclockwise guidewire rotation to increase torque and clinician control during coronary and peripheral procedures.
PILOT access & biopsy device
Single‑use, non‑powered, hand‑held bone access and percutaneous biopsy instrument actuated by squeeze/release to provide clinician‑controlled advancement and cutting.
SHAVR tissue resection device
Single‑use, non‑powered, hand‑manipulated tissue resection instrument actuated by squeeze/release; compatible with aspiration via wall suction or aspiration pump.
SPINR controller
A non‑powered, hand‑actuated mechanical controller that delivers predictable multi‑turn clockwise and counterclockwise guidewire rotation to increase torque and clinician control during coronary and peripheral procedures.
PILOT access & biopsy device
Single‑use, non‑powered, hand‑held bone access and percutaneous biopsy instrument actuated by squeeze/release to provide clinician‑controlled advancement and cutting.
SHAVR tissue resection device
Single‑use, non‑powered, hand‑manipulated tissue resection instrument actuated by squeeze/release; compatible with aspiration via wall suction or aspiration pump.
Expertise Areas
- Interventional device design
- Mechanical actuation mechanisms for manual devices
- Biopsy and bone access instruments
- Tissue resection devices
Key Technologies
- Hand‑actuated mechanical driver for device actuation
- High‑torque guidewire rotation control
- Single‑use disposable device design
- Manual squeeze‑release actuation mechanism