Platelet-derived porous nanomotor for thrombus therapy

Wan, Mimi; Wang, Qi; Wang, Rongliang; Wu, Rui; Li, Ting; Fang, Dan; Huang, Yangyang; Yu, Yueqi; Fang, Leyi; Wang, Xingwen; Zhang, Yinghua; Miao, Zhuoyue; Zhao, Bo; Wang, Fenghe; Mao, Chun; Jiang, Qing; Xu, Xingquan; Shi, Dongquan

doi:10.1126/sciadv.aaz9014

Cited by 172 publications

(175 citation statements)

References 47 publications

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“…[ 217 ] In vivo studies using near infrared powered nanorobot reported an increased efficacy urokinase toward thrombus therapy, when compared to passive delivery. [ 218 ] Chemically triggered microrobots do not require external stimuli to improve the therapeutic outcome. Therefore, they do not need expensive and bulky external systems commonly used for triggering other active delivery, such as occurring with previously described magnetic micromotors.…”

Section: Targeted Deliverymentioning

confidence: 99%

Medical Micro/Nanorobots in Precision Medicine

et al. 2020

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Advances in medical robots promise to improve modern medicine and the quality of life. Miniaturization of these robotic platforms has led to numerous applications that leverages precision medicine. In this review, the current trends of medical micro and nanorobotics for therapy, surgery, diagnosis, and medical imaging are discussed. The use of micro and nanorobots in precision medicine still faces technical, regulatory, and market challenges for their widespread use in clinical settings. Nevertheless, recent translations from proof of concept to in vivo studies demonstrate their potential toward precision medicine.

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Section: Targeted Deliverymentioning

confidence: 99%

Medical Micro/Nanorobots in Precision Medicine

et al. 2020

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“…The RBC morphology results showed that after incubation of Fe 3 O 4 @DMSA with RBCs, the RBCs still had the normal morphology ( Fig. S2B ), illustrating that Fe 3 O 4 @DMSA would not cause significant damage to RBCs [ 68 ]. Activated partial thromboplastin time/prothrombin time/thrombin time (APTT/PT/TT) results proved that Fe 3 O 4 @DMSA had no significant effect on the coagulation system compared with blank plasma ( Fig.…”

Section: Resultsmentioning

confidence: 99%

Nanomotor-based adsorbent for blood Lead(II) removal in vitro and in pig models

Wang

Bao

Yan

et al. 2021

Bioactive Materials

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Blood lead (Pb(II)) removal is very important but challenging. The main difficulty of blood Pb(II) removal currently lies in the fact that blood Pb(II) is mainly complexed with hemoglobin (Hb) inside the red blood cells (RBCs). Traditional blood Pb(II) removers are mostly passive particles that do not have the motion ability, thus the efficiency of the contact between the adsorbent and the Pb(II)-contaminated Hb is relatively low. Herein, a kind of magnetic nanomotor adsorbent with movement ability under alternating magnetic field based on Fe 3 O 4 nanoparticle modified with meso-2, 3-dimercaptosuccinic acid (DMSA) was prepared and a blood Pb(II) removal strategy was further proposed. During the removal process, the nanomotor adsorbent can enter the RBCs, then the contact probability between the nanomotor adsorbent and the Pb(II)-contaminated Hb can be increased by the active movement of nanomotor. Through the strong coordination of functional groups in DMSA, the nanomotor adsorbent can adsorb Pb(II), and finally be separated from blood by permanent magnetic field. The in vivo extracorporeal blood circulation experiment verifies the ability of the adsorbent to remove blood Pb(II) in pig models, which may provide innovative ideas for blood heavy metal removal in the future.

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“…[113] In addition to the autonomous motion, the intelligent micro/nanomotors with taxis facilitate themselves to deliver to areas that are not easy to target, such as thrombus sites and stomach. [100,114] Despite great potentials of micro/nanomotors, there are still many challenges in the future for biomedical applications.…”

Section: Discussionmentioning

confidence: 99%

Self‐Propelled Micro/Nanomotors for Tumor Targeting Delivery and Therapy

Lin

Chen

et al. 2020

Adv Healthcare Materials

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Cancer is still one of the most serious diseases with threats to health and life. Although some advances have been made in targeting delivery of antitumor drugs over the past number of years, there are still many problems needing to be solved, such as poor efficacy and high systemic toxicity. Micro/nanomotors capable of self‐propulsion in fluid provide promising platforms for improving the efficiency of tumor delivery. Herein, the recent progress in micro/nanomotors for tumor targeting delivery and therapy is reviewed, with special focus on the contributions of micro/nanomotors to the different stages of tumor targeting delivery as well as the combination therapy by micro/nanomotors. The present limitations and future directions are also put forward for further development.

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Platelet-derived porous nanomotor for thrombus therapy

Cited by 172 publications

References 47 publications

Medical Micro/Nanorobots in Precision Medicine

Medical Micro/Nanorobots in Precision Medicine

Nanomotor-based adsorbent for blood Lead(II) removal in vitro and in pig models

Self‐Propelled Micro/Nanomotors for Tumor Targeting Delivery and Therapy

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