SKELETOUS develops patient-specific solutions for orthopaedics, oncology, and other medical and healthcare specialties, tailored to the unique anatomy, pathology, and clinical requirements of each patient. By integrating anatomy visualization, clinical insight, and advanced 3D engineering design, we transform clinical needs into personalized solutions that aim to improve fit, functionality, usability, and clinical performance. In addition to anatomical models, our expertise spans the design and development of instruments, implants & prostheses, orthotic devices, and other medical devices, supporting fast delivery of more precise and individualized healthcare.
Instruments:
Surgical guides, jigs, and custom tools are developed to facilitate the accurate execution of planned surgical procedures, supporting bone resections, drilling, implant positioning, alignment, reconstruction, and other complex workflows, enabling greater precision, efficiency, and surgical confidence.
Implants and prostheses:
Restore anatomy, provide fixation and stabilization, replace missing or damaged bone and joints, reconstruct complex defects, and support limb-salvage and revision procedures where conventional solutions may be inadequate.
Orthotic devices:
Support, stabilize, protect, or correct anatomical structures based on individual patient anatomy and clinical requirements. Deformity correction, joint stabilization, rehabilitation, post-operative care, pressure offloading, and mobility enhancement. These solutions aim to optimize fit, comfort, function, and patient outcomes.
SKELETOUS leverages engineering analysis, advanced optimization techniques, and computational simulations to gain deeper insight into the behavior, function, and performance of anatomical systems, medical devices, and patient-specific solutions. Through biomechanical assessment, finite element analysis, and computational modeling, we support evidence-based design, optimization, risk reduction, and clinical decision-making. These technologies enable the exploration, evaluation, and refinement of concepts before physical realization, helping to improve safety, functionality, and clinical performance. By transforming complex clinical and engineering questions into actionable insights, simulation facilitates more informed decisions and the development of more effective patient-specific solutions.
SKELETOUS bridges the gap between digital engineering and clinical practice by transforming digital designs into virtual and physical patient-specific solutions through advanced xR platforms and fabrication technologies, including 3D printing. These technologies enable clinicians, researchers, and healthcare organizations to visualize, evaluate, and interact with patient-specific solutions before their implementation in clinical practice. Virtual and physical models facilitate communication, design verification, surgical planning, education, training, and informed decision-making, while supporting iterative refinement throughout the development process. By integrating immersive visualization with rapid prototyping and manufacturing, SKELETOUS helps accelerate the translation of digital concepts into clinically meaningful solutions.
