Vasodilation device

Our company has provided engineering advice and required knowledge for a number of vascular devices so far.

The challenges for this type of medical device include construction for maximum sterilization to allow safe use in open surgery, precise springs, resistance to high pressure, a high level of reliability, as well as the selection of biologically appropriate materials with the necessary physical properties.

Company:

ES Vascular

product:

CLI-EVAS

Project description

An endovascular clamp whose purpose is to replace manual sewing of the implant.

The clamp is inserted into the superficial femoral artery along with the graft. Pins are shot into the end of the femur to connect the implant to the blood vessels.

The result is the replacement of the open surgical procedure with a simpler invasive procedure.

The duration of hospitalization is short and recovery is fast.

Key points in the engineering solution:

Our friend designed the clamp device and took a central part in the initial business development to raise investment.

Special considerations in the design of the device are:

>> Ergonomic shape and finish for maximum comfort in use.

>> Optimal leverage in order to prevent the surgeon from straining.

>> Exact physical values of the spring mechanism.

>> Precise spring mechanism for quick and precise release action.

>> Resistance to the high pressure created during stretching and release.

Key points in business development:

Besides leading the product planning, our company took care of the initial requirements for the business development of the start-up company.

The rule: analyzing and writing a business plan that will be a road map for the company, presenting the business potential to investors by presenting the abstract of the idea (elevator pitch) and investor presentation.

Another vascular device from our friend:

Company:

privileged.

A surgical device for dilating arteries before stent insertion.