In a collaborative project scientists from the Animal Health Trust and the University of East Anglia have made 3D printed scaffolds that can be used to turn induced pluripotent stem (iPS) cells into bone in the laboratory.
Bone fractures occur commonly in horses through traumatic injuries and bone overloading. Severe fractures can be difficult to treat due to a horse’s need to bear weight on all of its limbs. Surgical approaches to fracture repair are constantly improving and bone grafting is often carried out in human patients to help the repair of the fracture site. However, the harvesting of bone from another site can have catastrophic consequences and it is not commonly used in horses.
In work funded by the Petplan Charitable Trust, Paul Mellon Foundation and Anne Duchess of Westminster Charitable Trust a scaffold was produced that enabled horse iPS cells to be turned into bone to provide a 3D structure. The scaffold material is inexpensive and can be printed to any size or shape, treated to encourage the attachment of cells to its surface and it is transparent, which allowed the scientists to see what was happening to the stem cells over time and determine that they turned into bone cells.
Dr. Guest added “this work paves the way towards the laboratory production of bone constructs that could be used to aid fracture repair in horses; so could ultimately benefit many horses in the future”.
Read the full study
You can read a copy of the study “Biocompatible Three-Dimensional Printed Thermoplastic Scaffold for Osteoblast Differentiation of Equine Induced Pluripotent Stem Cells” published in Tissue Engineering Part C , here