We possess extensive expertise in designing custom silicone molded components. Our portfolio includes. diverse shapes and complexities, such as non-symmetrical, tapered, stepped, and multi-channel parts. Balloons, gaskets, and handles are just a few examples of the silicone components we've crafted. Additionally, we can produce dual-component silicone designs in a readily manufacturable structure.

We prioritize 'design for the working hand,' highlighting comfort, efficiency, and safety. This approach minimizes errors and injury risks, while improving precision, user satisfaction, and overall performance.

We have deep expertise with chip-on-tip solutions, including accelerometers, as well as temperature, ToF, pressure and ultrasound sensors. We regularly use miniature cameras, LEDs, and lenses.

We design electronic circuit boards that incorporate microminiature components, convert image or sensor signals & realize different data transmission solutions, suitable for handheld devices or controllers. These controllers manage HMI, data storage, motor & fluid control, and power supply functions.Our integrated approach to hardware and firmware, supported by a cross-functional team, ensures well-performing, fail-safe equipment with a focus on quality and quick turnaround.

Throughout the years we worked on various tissue removal solutions, including mechanical cutting and morcellation, radiofrequency ablation and electrosurgical technologies.

We are experienced in designing any mechanical movement, such as rotation, lifting, oscillation, tilting, activation, sliding, cutting or holding in our handheld devices. These movements are operated by small, but complex mechanical connections to enable single-handed surgery.

We have great experience machining, laser cutting and laser welding small diameter 304 and 316 stainless steel tubes, even with thin wall thicknesses down to 0.025 mm. We also have extensive expertise with complex layouts that retain a structure with cylindrical cutouts.

We use in-house 3D printing technologies, including FDM and SLA, for prototype development. These printed prototypes enable testing early in the development timeline, and the detection of design flaws that can be immediately addressed.

We have deep experience in designing plastic molded components, ranging from overmolding metal tubes to various other parts with different shapes and complexities. Our capabilities extend to developing and manufacturing molding tools, whether they are 3D printed or made from aluminum. This ensures swift iterations in R&D. Furthermore, we are adept at designing full-fledged injection molding tools for plastics.

We design fluid management solutions for in-cavity visualization support and purging, with integrated waste management. We're experienced in creating systems with redundant sensors and have expertise in developing different types of medical pumps, particularly peristaltic pumps with precise and adjustable flow control.

We develop software for real-time data and/or image processing and visualization, to enable automated control functions, semi-autonomous or autonomous operation, and to support operator decision making. Our expertise spans circuit simulations, printed circuit board design, algorithm development, and software code implementation, automatic testing, and system integration. We prioritize reliable and safe software with extensive code coverage, and our collaborative strategy for hardware and firmware, backed by a multidisciplinary team, guarantees high-performance, reliable equipment prioritizing quality and timely delivery.