Microscopic oxygen bubbles could help improve cancer therapeutics, speed wound healing
A Purdue University-patented technology shows promise in using microscopic bubbles filled with oxygen to help with various medical treatments, including improving cancer therapeutics and helping wounds heal faster.
Samara Biotech LLC, a Purdue startup, has developed an easy-to-use method to inject oxygen “nanobubbles” intravenously so they can be targeted precisely at wounds or cancerous tumors. The bubbles do not actually do the therapies, but enhance other therapies, such as improving chemotherapeutics or radiation efficacy, said Pushpak Bhandari, Samara Biotech founder.
“It’s an oxygen delivery system at its core that can be applied toward many diseased states,” Bhandari said “Oxygen is critical in almost every biological process, so this helps in a variety of ways.”
Studies have shown that a lack of oxygen in tumor cells changes how cells function, contributing to cancer growth. Low oxygen, or hypoxia, is a major challenge in treating some cancers because it is common in a majority of malignant tumors. Tumor cells are starved of oxygen, causing them to become resistant to conventional treatments such as radiation and chemotherapy. This can lead to a need to increase radiation doses or chemotherapy concentration, which often adversely affects patients.
The nanobubble shells disintegrate inside the tumor cells, increasing the cellular oxygen levels. The release of oxygen inside the hypoxic cells destabilizes the hypoxia-driven pathways and inhibit tumor growth, Bhandari said.
“Normal cells are two to three times more receptive to cancer therapies compared with hypoxic cells,” he said.
Early testing published in the journals Scientific Reports and ACS Nano shows that the oxygen nanobubbles are effective in significantly delaying tumor progression and improving survival rates in clinical trials. The nanobubbles can be guided precisely to a tumor using an ultrasound beam, which can lead to better efficacy while using a 50 percent lower concentration of a chemotherapeutic drug.
“The ability to precisely steer oxygen nanobubbles offers considerable promise for a wide range of biomedical applications,” Bhandari said.
Bhandari believes the oxygen nanobubbles could be particularly effective against brain cancer, bladder cancer and certain sarcomas that are most common in bones, muscles, tendons, cartilage, nerves, fat and blood vessels.
Bhandari, who earned a doctorate in biological engineering from Purdue in 2017, also believes the oxygen nanobubbles can be more effective at treating wounds than a hyperbaric chamber or topical oxygen therapy because the nanobubbles can be more precisely targeted.
Bhandari is continuing to look at other wound-healing applications, saying the method could be used to treat complications from diabetes and other illnesses.
He plans to begin his cancer studies in dogs initially because nearly half of all dogs die of cancer. He said he will be dealing only with naturally occurring cancer in dogs and hopes those studies will help advance and speed the research into human cancers. He said he has been working with Purdue’s College of Veterinary Medicine.
The oxygen nanobubbles also act as contrast agents for ultrasound imaging, allowing researchers to create highly sensitive, highly reliable detection agents to monitor therapy.
Bhandari started Samara Biotech in 2015, taking the name from a winged seed that allows the wind to carry it further from the parent. He said in Eastern philosophy it also connotes the circle of life.
The Purdue Office of Technology Commercialization filed a patent on the technology. The Purdue Foundry and the Purdue Research Foundation have been working with Bhandari to commercialize his research.
“We’re looking for potential strategic partners,” Bhandari said. “We want to get the word out that there is a new technology that been evaluated quite well for a lot of different applications and we’re looking for more.”
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