Suction‐Cup‐Inspired Adhesive Micromotors for Drug Delivery

Cai, Lijun; Zhao, Cheng; Chen, Hanxu; Liu, Fan; Zhao, Yuanjin; Qian, Xiaoyun; Chai, Renjie

doi:10.1002/advs.202103384

Cited by 59 publications

(62 citation statements)

References 32 publications

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“…In contrast, the therapeutic drugs delivered by autonomous motor are evenly distributed throughout the stomach due to their erratic and continuous motion, which is usually suitable for the treatment of H. pylori and gastric ulcer. ,, …”

Section: Delivery In Gastrointestinal Tractmentioning

confidence: 99%

Microrobots for Targeted Delivery and Therapy in Digestive System

et al. 2022

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Untethered miniature robots enable targeted delivery and therapy deep inside the gastrointestinal tract in a minimally invasive manner. By combining actuation systems and imaging tools, significant progress has been made toward the development of functional microrobots. These robots can be actuated by external fields and fuels while featuring real-time tracking feedback toward certain regions and can perform the therapeutic process by rational exertion of the local environment of the gastrointestinal tract (e.g., pH, enzyme). Compared with conventional surgical tools, such as endoscopic devices and catheters, miniature robots feature minimally invasive diagnosis and treatment, multifunctionality, high safety and adaptivity, embodied intelligence, and easy access to tortuous and narrow lumens. In addition, the active motion of microrobots enhances local penetration and retention of drugs in tissues compared to common passive oral drug delivery. Based on the dissimilar microenvironments in the various sections of the gastrointestinal tract, this review introduces the advances of miniature robots for minimally invasive targeted delivery and therapy of diseases along the gastrointestinal tract. The imaging modalities for the tracking and their application scenarios are also discussed. We finally evaluate the challenges and barriers that retard their applications and hint on future research directions in this field.

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Section: Delivery In Gastrointestinal Tractmentioning

confidence: 99%

Microrobots for Targeted Delivery and Therapy in Digestive System

et al. 2022

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“…Moreover, many bionic nano/micromotors could overcome extrinsic forces. Cai et al [ 37 ] designed a magnesium-based hydrogel nano/micromotor inspired by the sucking disc of an octopus ( Figure 1 c, Table 1 ) In the acidic environment of gastric juice, Mg reacted with hydrogen ions to form hydrogen to drive the nano/micromotor, and due to the special sucking-disk-like structure, it could be effectively adsorbed on the gastric mucosa to achieve efficient drug delivery. Even after rinsing 10 times, the micromotors still adhered to the stomach wall tissue ex vivo.…”

Section: Nano/micromotors In the Gastrointestinal Tractmentioning

confidence: 99%

Applications of Nano/Micromotors for Treatment and Diagnosis in Biological Lumens

et al. 2022

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Natural biological lumens in the human body, such as blood vessels and the gastrointestinal tract, are important to the delivery of materials. Depending on the anatomic features of these biological lumens, the invention of nano/micromotors could automatically locomote targeted sites for disease treatment and diagnosis. These nano/micromotors are designed to utilize chemical, physical, or even hybrid power in self-propulsion or propulsion by external forces. In this review, the research progress of nano/micromotors is summarized with regard to treatment and diagnosis in different biological lumens. Challenges to the development of nano/micromotors more suitable for specific biological lumens are discussed, and the overlooked biological lumens are indicated for further studies.

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“…[ 23 , 24 , 25 , 26 , 27 ] In contrast, various adhesive stratagems have been employed by natural creatures to guarantee their survival. [ 28 , 29 ] For instance, the suction‐cup‐structured prolegs of abalones feature with extraordinary adhesion capacity underwater, making them able to stick to rocks in the sea stably. [ 30 ] These features provide many bio‐inspirations for creating adhesive matters.…”

Section: Introductionmentioning

confidence: 99%

Abalone‐Inspired Adhesive and Photo‐Responsive Microparticle Delivery Systems for Periodontal Drug Therapy

et al. 2022

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Antibiotics provide promising strategies for treating periodontitis, while their delivery and controllable release with desired oral retention remain challenging. Here, inspired by the unique suction-cup structures of abalones, a novel adhesive and photo-responsive microparticle (MP) delivery system is developed to treat periodontitis through microfluidic electrospray technology. Such MPs are generated by quickly ionic cross-linking of sodium alginate together with photo-curing of poly(ethylene glycol) diacrylate of the distorted microfluidic droplets during their high-speed dropping into calcium chloride solution. Attributing to their unique concave structures, the abalone-inspired MPs exhibit desired underwater adhesion ability and stability under running water. In addition, due to the loading of antibiotics minocycline hydrochloride and near-infrared (NIR)-responsive black phosphorus during their fabrication, the resultant MPs can not only eradicate bacteria directly, but also realize a controllable and effective drug release upon NIR irradiation. Based on these features, it is demonstrated from in vivo periodontitis that the abalone-inspired MPs are firmly adhesive and can controlled-release drugs on the tooth, and thus have outstanding antibacterial efficacy against Porphyromonas gingivalis. These results indicate the particular values of the abalone-inspired MPs for oral-related disease treatment.

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Suction‐Cup‐Inspired Adhesive Micromotors for Drug Delivery

Cited by 59 publications

References 32 publications

Microrobots for Targeted Delivery and Therapy in Digestive System

Microrobots for Targeted Delivery and Therapy in Digestive System

Applications of Nano/Micromotors for Treatment and Diagnosis in Biological Lumens

Abalone‐Inspired Adhesive and Photo‐Responsive Microparticle Delivery Systems for Periodontal Drug Therapy

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