The Journal of Engineering and Medical Devices is an academic journal providing an opportunity to researchers and scientists to explore the advanced and latest research developments in the field of Engineering and related disciplines. The Journal is of highest standards in terms of quality.

Medical devices, implantable in particular, need components that are the best of the best. Companies that are well established in other industries are now adding their expertise to create innovative medical devices.

REV.1 Engineering handled medical device product development for more than 120 products for 60+ clients. They specialize in complex, new-to-market products that require our innovative engineering approach.

REV.1 Engineering entire staff is always excited to work on a product that is considered a challenge and power transfer are the main challenges in critical medical devices. “Many of customers have a core skill in medical device development, what is new to them, is the radio design aspect of it; how to get electromagnetic energy from inside of the body to the outside and vice versa. That is Rev.1 Engineering expertise.” Rev.1 Engineers develop medical devices integrating state of the art technologies, while focusing on satisfying all customer requirements, market demands and patient needs.

REV.1 Engineering work to develop your innovation into a market-ready product…so you can do everything else

· Seamless integration into your company.

· Unique ecosystem from innovation to manufacturing.

· Critical team member for funding.

· Physician device acceptance.

· Complex product development

· Share your mission: improve and save lives.

REV.1 Engineering dedicated medical device design and engineering teams bring broad application experience and technical versatility to each medical device development effort. REV.1 has a history of offering unique processes and materials to meet unique needs. Here are some recent examples of REV.1 innovation at work:

· Nitinol ribbon wire combined with a novel plastic sheathing and flex circuitry to make mapping catheters. While many companies can handle these individual processes, REV.1 brings them all together and makes them work.

· Engineers used the science of electrical fields to develop FEA models to develop a multi-phase commercial-ready cancer treatment product to stimulate cellular uptake via combined biologic injection and electroporation.

· Deep knowledge of fluid dynamics and microfluidics from a theoretical and practical standpoint allowed us to create a product that could inject a micro-dose of therapeutic solution circumferentially into the renal perivascular space.

· Identification of novel material sets and a customized bench test regimen to ensure the success of an innovative implant that could endure delivery to the gastric system. Novel electronics integrated into a minimally invasive interventional device with a profile that initially seemed un-achievable (the client had been through a few other development firms that either passed or failed previously – REV.1 brought it to proof-of-feasibility in 4 months).

· Combined molded and converted parts using advanced materials to create an advanced surgical wound care product. Developed innovative bench models to vet prototypes and test preliminary product against rigorous requirements prior to human use.