3D Printed Vaccine Patch Offers Vaccination Without a Shot – Outperforms Needle Jab in Boosting Immunity

3D Printed Microneedle Vaccine Patch

Scientists at the University of North Carolina at Chapel Hill and Stanford University use 3D printer to produce microneedle vaccine patch that dissolves into the skin to boost immunity. Credit: University of North Carolina at Chapel Hill

Stanford University and the University of North Carolina Chapel Hill develop microneedle vaccine patch that outperforms needle jab to boost immunity.

Scientists at Stanford University and the University of North Carolina at Chapel Hill have created a 3D-printed vaccine patch that provides greater protection than a typical vaccine shot.

The trick is applying the vaccine patch directly to the skin, which is full of immune cells that vaccines target.

The resulting immune response from the vaccine patch was 10 times greater than vaccine delivered into an arm muscle with a needle jab, according to a study conducted in animals and published by the team of scientists in the Proceedings of the National Academy of Sciences.

Considered a breakthrough are the 3D-printed microneedles lined up on a polymer patch and barely long enough to reach the skin to deliver vaccine.

“In developing this technology, we hope to set the foundation for even more rapid global development of vaccines, at lower doses, in a pain- and anxiety-free manner,” said lead study author and entrepreneur in 3D print technology Joseph M. DeSimone, professor of translational medicine and chemical engineering at Stanford University and professor emeritus at UNC-Chapel Hill.

The ease and effectiveness of a vaccine patch sets the course for a new way to deliver vaccines that’s painless, less invasive than a shot with a needle, and can be self-administered.

Study results show the vaccine patch generated a significant T-cell and antigen-specific antibody response that was 50 times greater than a subcutaneous injection delivered under the skin.

That heightened immune response could lead to dose sparing, with a microneedle vaccine patch using a smaller dose to generate a similar immune response as a vaccine delivered with a needle and syringe.

While microneedle patches have been studied for decades, the work by Carolina and Stanford overcomes some past challenges: through 3D printing, the microneedles can be easily customized to develop various vaccine patches for flu, measles, hepatitis, or COVID-19 vaccines.

Advantages of the vaccine patch

The COVID-19 pandemic has been a stark reminder of the difference made with timely vaccination. But getting a vaccine typically requires a visit to a clinic or hospital.

There a health care provider obtains a vaccine from a refrigerator or freezer, fills a syringe with the liquid vaccine formulation and injects it into the arm.

Although this process seems simple, there are issues that can hinder mass vaccination – from cold storage of vaccines to needing trained professionals who can give the shots.

Meanwhile vaccine patches, which incorporate vaccine-coated microneedles that dissolve into the skin, could be shipped anywhere in the world without special handling and people can apply the patch themselves.

Moreover, the ease of using a vaccine patch may lead to higher vaccination rates.

How the microneedles are made

It’s generally a challenge to adapt microneedles to different vaccine types, said lead study author Shaomin Tian, researcher in the Department of Microbiology and Immunology in the UNC School of Medicine.

“These issues, coupled with manufacturing challenges, have arguably held back the field of microneedles for vaccine delivery,” she said.

Most microneedle vaccines are fabricated with master templates to make molds. However, the molding of microneedles is not very versatile, and drawbacks include reduced needle sharpness during replication.

“Our approach allows us to directly 3D print the microneedles which gives us lots of design latitude for making the best microneedles from a performance and cost point-of-view,” Tian said.

The microneedles were produced at the University of North Carolina at Chapel Hill using a CLIP prototype 3D printer that DeSimone invented and is produced by CARBON, a Silicon-Valley company he co-founded.

The team of microbiologists and chemical engineers are continuing to innovate by formulating RNA vaccines, like the Pfizer and Moderna COVID-19 vaccines, into microneedle patches for future testing.

“One of the biggest lessons we’ve learned during the pandemic is that innovation in science and technology can make or break a global response,” DeSimone said. “Thankfully we have biotech and health care workers pushing the envelope for us all.”

Reference: “Transdermal vaccination via 3D-printed microneedles induces potent humoral and cellular immunity” by Cassie Caudill, Jillian L. Perry, Kimon Iliadis, Addis T. Tessema, Brian J. Lee, Beverly S. Mecham, Shaomin Tian and Joseph M. DeSimone, 22 September 2021, Proceedings of the National Academy of Sciences.
DOI: 10.1073/pnas.2102595118

Additional study authors include Cassie Caudill, Jillian L. Perry, Kimon lliadis,  Addis T. Tessema and Beverly S. Mecham of UNC-Chapel Hill and Brian J. Lee of Stanford.

Funding: Defense Threat Reduction Agency, Sponsored Research Agreement from Carbon, Inc., Stanford University Innovative Medicines Accelerator, Joseph M. DeSimone Start-up Funds at Stanford University

6 Comments on "3D Printed Vaccine Patch Offers Vaccination Without a Shot – Outperforms Needle Jab in Boosting Immunity"

  1. Very nice. Don’t expect to see it anytime soon. Big Pharma would not be happy.

  2. Wow, that’s a very good idea & study that these brilliant scientists are inventing and doing research on. I hope these researchers & scientists keep up on the work that there doing. It’s a very good idea.

  3. Wow, that’s a very good idea & study that these brilliant scientists are inventing and doing research on. It’s a very good idea.

  4. This is wrong. In the longterm it will be used to jab someone quickly in a crowd. It goes against human rights. This is a weasel way to attack and run as a weapon.

  5. What are the side affects? Once you have the 3D patch on..?. And how long do you have it on ?

  6. Seems like an easy way to ‘vaccinate’ those not wanting to be done. A sticker to kids, a Band-Aid, who cares about person rights, o wait, that’s right, its only personal rights if you are wanting to murder your child. Forgot

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