Chinese researchers delve deeply into tissue engineering, releasing the findings of their recent study in ‘3D printing of gelatin methacrylate-based nerve guidance conduits with multiple channels.’
While there have been incredible strides forward in the worlds of bioprinting and tissue engineering, there has been much challenge too. Areas such as bone regeneration are known to be particularly difficult, along with basic premises like sustainability and viability of cells, but in this study, nerve tissue and peripheral nerve regeneration are the focus as the scientists develop a new bioink.
Usually, the result of trauma or a birth defect, peripheral nerve injury (PNI) is a serious medical issue in patients who may also lose sensory and motor function. Hundreds of thousands of nerve repair surgeries are performed around the world each year, with nerve autografts being common:
“However, limited supply, permanent donor site morbidity, size and geometrical mismatch, and additional surgical procedures restrict clinical alternatives,” stated the researchers.
“Mixed results yielded using this technique are another disadvantage, with most patients restoring limited function after the procedure. Thus, artificial alternatives to replace autografts with appropriate mechanical and biological properties need to be developed.”
As fabrication on the micro-scale has become possible via 3D printing, nerve guidance conduits have become a greater possibility over the autologous nerve graft. These tubular bridging sets provide cues for regeneration of axons, preventing scar tissue in situ, along with keeping nerves that are regenerating from being compressed.
So far, both extrusion and laser-based 3D printing have been used in creating NGCs—with extrusion-based printing being more preferred due to biocompatibility and versatility; however, the researchers point out that there are issues with such methods, like challenges with speed, stability in structures, and inferior resolution. Stereolithography (SLA) was investigated for use also, but still presented issues with speed:
“Therefore, a suitable 3D printing technique that can fabricate NGCs with complex architectures in a rapid and efficient manner urgently needs to be developed,” stated the researchers.
Digital light processing (DLP) offers superior performance, especially as the digital micro-mirror device (DMD) encourages crosslinking in a complete layer—as opposed to the SLA technique with just a single dot. In comparing the two, however, printing time is the same. There are other challenges too as biomaterial inks may not be suitable.
In this study, DLP 3D printing was used with gelatin methacrylate (GelMA) for ink. The researchers sought to optimize parameters in DLP printing in order to fabricate ‘high-quality bionic 3D structures.’ Samples were then tested for mechanical strength, biocompatibility, and neuronal differentiation.
Molds were designed in SolidWorks, sliced with Creation Workshop, and 3D printed on a commercial DLP 3D printer manufactured by Suzhou Intelligent Manufacturing Research Institute.
Benefits of using DLP included:
- Greater homogeneity
- Printing speed
- Output
The researchers experimented with parameters to assess the potential for GelMA NGCs with a 4-channel design. NGCs were influenced by the exposure, light, and layer thickness while 3D printing.
“The results demonstrate the feasibility of printing customized NGCs with pure GelMA,” concluded the researchers.
“The fabricated NGCs can support the survival, proliferation, and migration of PC-12 cells and induce NCSCs to differentiate into neurons. Therefore, using DLP printing in neural tissue engineering can develop GelMA NGCs that mimic natural architecture of the nerve and exhibit great potential for nerve regeneration.”
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