BioPen to rewrite orthopaedic implants surgery
A handheld “bio pen” developed in the labs of the University of Wollongong will allow surgeons to repair damaged and diseased bone material by delivering live cells and growth factors directly to the site of injury, accelerating the regeneration of functional bone and cartilage.
Researchers from the UOW-headquartered Australian Research Council Centre of Excellence for Electromaterials Science (ACES) have developed the prototype BioPen that will give surgeons greater control over where the materials are deposited while also reducing the time the patient is in surgery.
Delivery of stem cells and/or growth factors into the injury site is currently through injection using a biomaterial carrier.
The BioPen works similar to 3D printing methods by delivering cell material inside a biopolymer such as alginate, a seaweed extract, protected by a second, outer layer of gel material. The two layers of gel are combined in the pen head as it is extruded onto the bone surface and the surgeon “draws” with the ink to fill in the damaged bone section.
A low powered ultra-violet light source is fixed to the device, allowing for the inks to be cured during dispensing and built up layer-by-layer. Following curing, the shell material will maintain its form, and allow the surgeon to construct a 3D scaffold in the wound site.
The composition of the cell-loaded material also provides greater protection and retention of cells and can be surrounded by a polymer core to add structural strength to the surgical site. It can also be seeded with growth factors or other drugs to assist regrowth and recovery.
All components in the implantable material are non toxic and tuned to biodegrade as the cells begin to populate the injured bone area. The design of the device allows it to be easily transported and the surgeon can operate with ease and precision in theatre.
The BioPen prototype was designed and built using the 3D printing equipment in the labs at the University of Wollongong and was this week handed over to clinical partners at St Vincent’s Hospital Melbourne, led by Professor Peter Choong, who will work on optimising the cell material for use in clinical trials.
The BioPen will help build on recent work by ACES researchers where they were able to grow new knee cartilage from stem cells on 3D-printed scaffolds to treat cancers, osteoarthritis and traumatic injury.
Professor Peter Choong, Director of Orthopaedics at St Vincent’s Hospital Melbourne and the Sir Hugh Devine Professor of Surgery, University of Melbourne said:
“This type of treatment may be suitable for repairing acutely damaged bone and cartilage, for example from sporting or motor vehicle injuries. Professor Wallace’s research team brings together the science of stem cells and polymer chemistry to help surgeons design and personalise solutions for reconstructing bone and joint defects in real time.”
The BioPen will be transferred to St Vincent’s for clinical projects to be carried out at the proposed Aikenhead Centre for Medical Discovery in Melbourne.
“The combination of materials science and next-generation fabrication technology is creating opportunities that can only be executed through effective collaborations such as this,” ACES Director Professor Gordon Wallace said. “What’s more, advances in 3D printing are enabling further hardware innovations in a rapid manner.”
Design expertise and fabrication of the BioPen was supported by the Materials Node of the Australian National Fabrication Facility, hosted at the University of Wollongong’s Innovation Campus.
A class of materials called hydrogels are selected as the ink for the BioPen. These materials provide the cells with a hydrated environment in which they are embedded and can protect them from the harsh printing pressures at the nozzle tip
A low powered ultra-violet light source is fixed to the device which cures or solidifies the inks during dispensing providing protection for the embedded cells.
Once the cells are “drawn” onto the surgery site they’ll multiply, become differentiated into nerve cells, muscle cells or bone cells. Eventually, they’ll turn from individual cells into a thriving community of cells in the form of a functioning a tissue, such as nerves, or a muscle.
The handheld BioPen allows surgeons to design customised implants on-site and at the time of surgery.
Media are invited to obtain interviews with Professor Peter Choong (SVHM) and Professor Gordon Wallace (UOW) and take vision and photographs of the BioPen at a demonstration of the device at the ACES labs at UOW’s Innovation Campus.
When: 1.30pm, Wednesday, 4 December 2013
Where: AIIM Facility, Innovation Campus, Squires Way, North Wollongong. VIEW MAP.
Note: All visitors must wear covered shoes to enter the labs. Please report to reception upon arrival.
Media are also invited to attend the public event 3D Print Wollongong
A scientist, a surgeon, a jeweller and an ethicist will speak about how 3D printing will have a real impact on your life be it through scientific breakthroughs, new forms of creative arts and revolutionary surgical techniques. You will have the opportunity to watch a 3D Printer in action, discover a range of 3D Printed objects and ask questions of experts in the field.
When: 4.30pm, Wednesday, 4 December
Where: Wollongong City Gallery, Burelli Street, Wollongong
More information: electromaterials.edu.au
Media passes available
Grant Reynolds, Media Officer, UOW, ARC Centre of Excellence for Electromaterials Science University of Wollongong | St Vincent’s Hospital Melbourne | University of Tasmania | Monash University | Deakin University 02 4221 4743 || 0403 212 259 || firstname.lastname@example.org
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