TECHNOLOGY
Our 3D Bioprinted implant technology is built to scale and redefine the future of all human tissue repair
DISCLAIMER:
Brinter’s 3D tissue implants are investigational devices that have not yet been approved for commercial use in any country. The described design properties and intended purpose are subject to further validation.
VARIOUS IMPLANT APPLICATIONS
“At first, we aim to disrupt orthopedic repairs, then apply our expertise to aesthetics—and eventually, organs.”
– Dr. Matthew Brovold, Chief Science Officer.
Orthopedic IMPLANTS First
Rotator Cuff Repair
Our first implant targets rotator cuff repair, where nearly 50% of operations fail with regenerative materials and precise design.
Achilles Tendon Repair
Achilles injuries take 9–12 months to heal, with few good treatments. Our regenerative implants aim to speed up and improve recovery.
ACL Repair
We’re addressing key challenges like slow biological healing, long recovery times, high re-injury rates, and poor graft integration.
Aesthetic IMPLANTS next
BREAST RECONSTRUCTION
3D bioprinted implants for breast reconstruction enable natural tissue regeneration by guiding cell growth and vascularization, offering a safer, personalized alternative to synthetic implants.
NASAL RECONSTRUCTION
Bioprinted nasal implants mimic cartilage structure, support chondrocytes, and enable personalized, functional reconstruction.
SKIN AND WOUND HEALING
Bioprinted skin scaffolds support cell growth, boost angiogenesis, and speed up natural wound healing.
In the future
With Stem Cells
Adding patient stem cells to bioprinted implants boosts regeneration, integration, and personalized healing.
Personalized Fit
3D bioprinted implants can be tailored in size and shape for better fit, function, and healing.
Organ Replacement
Bioprinted organ implants use biomaterials and patient cells to create vascularized, transplant-ready tissues.
