Bioprosthetic Corporation
Bioprosthetic Corporation
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    • Home
    • Team
    • Advisory Board
    • Innovation and Technology
    • Products
    • Career
    • Collaborators
    • Sales and Marketing
  • Home
  • Team
  • Advisory Board
  • Innovation and Technology
  • Products
  • Career
  • Collaborators
  • Sales and Marketing

Our Products

Dental Implant

The company has developed cutting-edge  innovative 3D printing technology for dental implants. These implants serve to restore and enhance jaw functions, offering effective solutions for the placement of dental and jaw implants, as well as providing bone grafting options for the restoration of damaged jaw bone structures. 

Craniomaxillofacial Bone Graft

 The company is dedicated to the development of advanced bone grafting solutions for intricate procedures involving facial reconstructions, repair of skull bones, and the correction of conditions such as cleft palate, craniosynostosis, and premature fusion of cranial sutures. These conditions are recognized as the two most common congenital causes of craniofacial bone defects or deformities, with prevalence rates estimated at approximately 1 in 600 and 1 in 2000 live births, respectively. Patients affected by these conditions often require bone reconstruction during the period of active facial growth. 

3D printed Bone grafts

3D Printed Distal End of Femur Bone

3D Printed Distal End of Femur Bone

3D Printed Distal End of Femur Bone

The distal end of the femur exhibits notable features, including the medial and lateral condyles, which establish articulation with the tibia and patella, thereby forming the knee joint. Achieving complete recuperation from femur fractures typically necessitates a timeframe of 6-8 months. These injuries present significant challenges for orthopedic surgeons due to their elevated incidence of complications, which can detrimentally affect the functioning of the lower limb.  

3D Printed Pieces of Bone Graft

3D Printed Distal End of Femur Bone

3D Printed Distal End of Femur Bone

The inherent porosity of the bone graft facilitates the development of vital components such as bone marrow and a vascular system. This characteristic renders the bone graft highly biocompatible, thereby enhancing its ability to fuse with the host bone. 

3D Printed Pieces of DE Femur Bone

3D Printed Distal End of Femur Bone

3D Printed Pieces of DE Femur Bone

The majority of femoral shaft fractures typically require a healing duration of approximately 6 months to achieve complete recovery. However, certain cases may necessitate a longer healing period, particularly when the fracture results in multiple bone fragments. The utilization of 3D printed bone grafts presents a promising advancement in orthopedic treatment, as it has demonstrated the potential to enhance the healing process and expedite the overall recovery time for femoral fractures.

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