An interdisciplinary team of researchers at the UCLA Jonsson Comprehensive Cancer Center has developed a cold plasma patch that can significantly prolong survival, inhibit growth of melanoma tumors in mice.
New medicated patch can deliver immune checkpoint inhibitors and cold plasma directly to tumors to help boost the immune response and kill cancer cells in melanoma patients. The thumb-sized patch has more than 200 hollow microneedles that can penetrate the skin and enter the tumor tissue. The cold plasma is delivered through the hollow structure, destroying cancer cells, which facilitates the release of tumor-specific antigens and boosts an immune response.
‘New cold plasma patch could help improve the effectiveness of cancer immunotherapy. It is a quite promising delivery system which benefits melanoma patients.’
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The immune checkpoint inhibitors -- antibodies that block checkpoint proteins, which interferes with immune system function and prevents the immune system from destroying cancer cells -- are also released from the sheath of microneedles to boost the T cell-mediated anti-cancer effects.Read More..
In the study, which is published in the Proceedings of the National Academy of Sciences, the UCLA researchers found that delivering the two therapies to mice with melanoma using the patch enabled the immune system to better attack the cancer, significantly inhibiting the growth of the tumor and prolonging the survival of the mice.
The team also found that the therapy not only inhibit the growth of the targeted tumor, but it also could inhibit the growth of tumors that had spread to other parts of the body.
"Immunotherapy is one of the most groundbreaking advances in cancer treatment," said study senior author Zhen Gu, professor of bioengineering at the UCLA Samueli School of Engineering and member of the Jonsson Cancer Center.
"Our lab has been working on engineering new ways to apply or deliver drugs to the diseased site that could help improve the effectiveness of cancer immunotherapy, and we found the patch to be a quite promising delivery system."
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"This study represents an important milestone for the field of plasma medicine," said co-senior author Richard Wirz, professor of mechanical and aerospace engineering at UCLA Samueli. "It demonstrates that the microneedle patch can realize the plasma delivery while also working with the drug to improve the effectiveness of cancer therapy."
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"Those cancers can then release tumor-associated antigens, which can enhance immune response to kill cancers," said Zhitong Chen, who is the other co-first author and a postdoctoral fellow in Wirz’s lab.
The team tested the cold plasma patch on mice with melanoma tumors. The mice that received the treatment showed an increased level of dendritic cells, which are a specific type of white blood cells that alert the immune system of a foreign invader and initiate a T cell-mediated immune response.
The group of mice also showed delayed tumor growth compared to the untreated group and 57% were still alive at 60 days, while mice in other control groups had all died.
"This treatment strategy can potentially go beyond cancer immunotherapy," said Gu, who is also a member of the California NanoSystems Institute at UCLA. "Integrated with other treatments, this minimally invasive method can be extended to treat different cancer types and a variety of diseases."
The patch will have to go through further testing and approvals before it could be used in humans. But the team members believe the approach holds great promise.
Source-Eurekalert