Projects
End-to-end Solutions for Medical innovation Projects.
Our Medical Device Projects
Zygomatic Implants
Design, Development, and Industrialization of the Zygomatic Implant System.
The zygomatic implants must be designed to insert into the cheekbone and address mandibular atrophy.
Broken Screw Kit
Design, Development, and Industrialization of a Broken Screw Rescue Kit, adaptable to various work settings and capable of addressing the most common breakage points in prosthetic screws.
Hair Fue Punch
Design, Development, Industrialization, and CE Certification of the Needle Range for Follicular Extraction using the FUE (Follicular Unit Extraction) Method.
The experimentation and creation of hair extraction needles require high precision in cutting and follicle preservation. Therefore, it is essential to design and determine the optimal geometry for the various types of needle tips.
Arthroscopic Throcars
Engineering, Development, and Industrialization of an Arthroscopic Trocar. The primary function of arthroscopic trocars is to facilitate the insertion of surgical instruments during arthroscopic procedures, enabling precise access to joints while minimizing tissue damage.
Regeneration Bone Kit
Design, development, and manufacturing of bone tacks and osteosynthesis screws for bone regeneration surgery. These innovative components are engineered to enhance the healing process and provide secure fixation during surgical procedures aimed at restoring bone integrity.
Steam Cure
Design and Development of a medical vaporizer for delivering substances for therapeutic purposes via inhalation. This device allows users to monitor and control the active ingredients in the inhaled dosage.
Mixed Lingual Orthodontic System
Design, Development and Industrialization of a mixed lingual orthodontic system, a project that combines the dental movement capabilities of brackets with those of invisible aligners. The system includes a fixed part attached to the tooth and a removable part that incorporates the aligner, the wire, and the brackets.
Modular System For Intramedullar Implants
Prototyping of the NELA Modular Implant System intended to provide a customized fit for each patient, avoiding conventional techniques that rely on impact press-fit or the use of bone cement for fixation.
Angled Grip System
Design, Development, Industrialization and Manufacturing of the Angled Grip System. The Angled Grip system features an innovative design, carefully developed to allow key entry at an angle from 0º to 40º. The screw and key offer a retention function, making it a unique system on the market.
High Precision Robotic Surgery
Design, development, manufacturing, and assembly of components for a surgical robotic arm, aimed at improving precision, surgical dexterity, and maneuverability during minimally invasive procedures.
Adjustable Needle Holder
Design and industrialization of a versatile needle holder. The device is engineered to accommodate various needle sizes and references, enhancing usability and adaptability in diverse applications.
Orthodontic Systems Kit
Design, Development, and Industrialization of an orthodontic micro-screw application kit. The project includes the development of a manual screwdriver handle, instruments for orthodontic micro-screw insertion, and the complete surgical kit.
Dental Implant System
Design, Development, and Manufacturing of several complete ranges of customized dental implants and prosthetic abutments. Designing these implants requires achieving the perfect balance between insertion capability, stability, product osseointegration, and prosthetic adaptation.
Cardiopulmonary Resuscitation Support Device (DARCP)
Engineering and advisory support in the development, industrialization, and certification of the DARCP Device – an innovative solution that enables a single operator, with just 8 hours of training, to complete the basic life support protocol in under one minute. This mobile, compact CPR emergency unit operates without the need for electrical power or software, significantly enhancing the efficiency and effectiveness of the survival chain.
