- Work Hours : Mon to Sat : 09:30- 18:30
Regraft is a next generation digital reconstruction solution built to support modern, precision driven surgery. Regraft creates customized surgical solutions for every patient by combining high resolution medical imaging, virtual surgical planning, and advanced 3D printing. From customized bone and organ replicas to cutting and drilling guides, Regraft supports every stage of the surgical workflow by guiding the surgeons. It enhances accuracy, reduces operative time, and improves clinical outcomes.
Regraft - Artibone
Patient-Specific Bone Reconstruction Powered by Digital Precision
Artibone represents the next generation of digitally planned, patient-specific bone regrafts designed to restore anatomy, function, and aesthetics. By integrating virtual surgical planning (VSP), advanced biomaterials, and 3D printing, Artibone enables durable and precise reconstruction across craniofacial, maxillofacial, and orthopedic applications.
Manufactured using medical-grade titanium, PEEK, PMMA and PC, Artibone delivers strength, precision, and long-term biocompatibility customised for every patient.
Regraft – Customised Plates
Virtual Surgical Planning (VSP) plates use advanced 3D imaging and CAD/CAM technology to create patient-specific titanium plates and surgical guides for facial bone and jaw reconstruction. In orthognathic surgery and facial trauma management, customized plates ensure exact skeletal repositioning with reduced operative time. This allows surgeons to plan and execute jaw movements and facial bone reconstruction with minimal intraoperative adjustments. This approach enhances functional outcomes, facial aesthetics, and long-term stability.
Regraft - Bonerip
Precision Engineered Bone Replicas for Smarter Surgery
Bonerip is a custom 3D Printed anatomical model used for training, simulation, and mock-up surgery. It is created from 3D Printing technology by segmenting patient medical scans, such as CT, CBCT, and MRI, into 3D Models, providing medical professionals with a realistic and detailed representation of human bone for a better understanding of complex anatomy.
Regraft - Organrip
Soft Tissue Replicas for Surgical Simulation
Regraft extends its expertise beyond bone replicas to develop soft organ replicas designed for advanced surgical simulation and preoperative planning. Created using flexible, medical grade plastic materials, these models replicate the look and feel of real organs. By offering tactile and visual accuracy, Organrip or soft organ replicas help improve surgical performance, reduce intraoperative complications, and support better clinical outcomes.
Regraft - Digiprun
Digital Cutting Guides for Precision Bone Surgery
Digiprun is an advanced digital cutting guide designed to bring accuracy and control to complex bone surgeries. Developed using patient-specific imaging and virtual surgical planning, Digiproon enables surgeons to define and execute bone cuts with confidence. Digiprun helps preserve healthy tissue and improve surgical outcomes by guiding surgeons to remove the affected or infected bone,
Regraft - Digilumin
Digital Drill Guides for Optimized Implant Stability
Digilumin is an advanced digital drill guide designed to enhance precision in implant placement and bone drilling procedures. Digilumin identifies optimal drilling locations within high-density bone regions by combining patient specific 3D imaging with virtual surgical planning. This ensures improved implant stability, greater surgical accuracy, and more predictable surgical outcomes.
Regraft -ArtiNose & ArtiEar
Artificial nose and ear grafts made of medical-grade silicone that provide a natural appearance. They are custom designed to match the patient’s facial anatomy, skin tone, and contours. These prostheses restore aesthetics following trauma, disease, or congenital loss.
Regraft - ArtiLeg
Silicone-based artificial leg and socket grafts create a soft, adaptive interface between the limb and prosthesis. They ensure even load distribution, minimize skin irritation, and enhance stability. This leads to improved comfort, control, and long-term prosthetic performance.