| Jun 12, 2024 |
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(Nanowerk Information) Engineers on the College of California San Diego have developed microscopic robots, often known as microrobots, able to swimming via the lungs to ship cancer-fighting medicine on to metastatic tumors. This strategy has proven promise in mice, the place it inhibited the expansion and unfold of tumors that had metastasized to the lungs, thereby boosting survival charges in comparison with management therapies.
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The findings are detailed in a paper revealed in Science Advances (“Biohybrid microrobots locally and actively deliver drug-loaded nanoparticles to inhibit the progression of lung metastasis”).
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The microrobots are an ingenious mixture of biology and nanotechnology. They’re a joint effort between the labs of Joseph Wang and Liangfang Zhang, each professors within the Aiiso Yufeng Li Household Division of Chemical and Nano Engineering on the UC San Diego Jacobs College of Engineering.
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| Coloured SEM picture of a microrobot product of an algae cell (inexperienced) coated with drug-filled nanoparticles (orange) coated with crimson blood cell membranes. Scale bar: 2 µm. (Picture: Zhengxing Li)
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To create the microrobots, researchers chemically connected drug-filled nanoparticles to the floor of inexperienced algae cells. The algae, which offer the microrobots with their motion, allow the nanoparticles to effectively swim round within the lungs and ship their therapeutic payload to tumors.
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The nanoparticles are product of tiny biodegradable polymer spheres, that are loaded with the chemotherapeutic drug doxorubicin and coated with crimson blood cell membranes. This coating serves a important operate: it protects the nanoparticles from the immune system, permitting them to remain within the lungs lengthy sufficient to exert their anti-tumor results.
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“It acts as a camouflage,” mentioned research co-first creator Zhengxing Li, who’s a nanoengineering Ph.D. pupil in each Wang and Zhang’s analysis teams. “This coating makes the nanoparticle look like a red blood cell from the body, so it will not trigger an immune response.”
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This formulation of nanoparticle-carrying algae is secure, the researchers famous. The supplies used to make the nanoparticles are biocompatible whereas the inexperienced algae employed, Chlamydomonas reinhardtii, are acknowledged as secure to be used by the U.S. Meals and Drug Administration.
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This research builds on prior work by Wang and Zhang’s groups utilizing related microrobots to deal with lethal pneumonia in mice (“Tiny swimming robots treat deadly pneumonia in mice”). “Those were the first microrobots to be safely tested in the lungs of live animals,” mentioned Wang.
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In earlier work, the microrobots fought the unfold of pneumonia-causing micro organism utilizing a unique drug and cell membrane mixture for the nanoparticles. By tweaking these elements, the crew has now tailor-made the microrobots to battle the unfold of most cancers cells within the lungs.
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“We demonstrate that this is a platform technology that can actively and efficiently deliver therapeutics throughout the entire lung tissue to combat different types of deadly diseases in the lungs,” mentioned Zhang.
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Within the present research, mice with melanoma that had metastasized to the lungs had been handled with the microrobots, which had been administered to the lungs via a small tube inserted into the windpipe. Handled mice skilled a median survival time of 37 days, an enchancment over the 27-day median survival time noticed in untreated mice, in addition to mice that acquired both the drug alone or drug-filled nanoparticles with out algae.
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“The active swimming motion of the microrobots significantly improved distribution of the drug to the deep lung tissue, while prolonging retention time,” mentioned Li. “This enhanced distribution and prolonged retention time allowed us to reduce the required drug dosage, potentially reducing side effects while maintaining high survival efficacy.”
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Shifting ahead, the crew is engaged on advancing this microrobot therapy to trials in bigger animals, with the last word aim of human scientific trials.
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