, Hybrid BioMicromotors, Appl
, Phys. Rev, vol.4, p.31301, 2017.
Mobile microrobots for 11 bioengineering applications, Lab Chip, vol.17, pp.1705-1724, 2017. ,
, , p.13
Biohybrid actuators for robotics: A review of 14 devices actuated by living cells, Sci. Robot, vol.2, 2017. ,
Simulation and Planning of a Magnetically 16 ,
, Actuated Microrobot Navigating in the Arteries, IEEE Trans. BioMed. Eng, vol.60, pp.994-1001, 2013.
Endovascular Magnetically Guided Robots: 19 Navigation Modeling and Optimization, IEEE Trans. BioMed. Eng, vol.59, 2012. ,
, Science, vol.190, pp.377-379, 1975.
,
, , p.5
, Magnetotactic bacterial cages as safe and smart gene delivery vehicles, OpenNano, vol.6, issue.1, pp.36-45, 2016.
Covalent 8 Binding of Nanoliposomes to the Surface of Magnetotactic Bacteria for the 9 Synthesis of Self-Propelled Therapeutic Agents, ACS Nano, vol.8, pp.5049-5060, 2014. ,
,
,
, , p.13
, Magneto-aerotactic bacteria deliver drug-containing nanoliposomes to tumour 14 hypoxic regions, Nat. Nanotech, vol.11, pp.941-947, 2016.
A compound magnetic 16 field generating system for targeted killing of Staphylococcus aureus by 17 magnetotactic bacteria in a microfluidic chip, J. Magn. Magn. Mater, vol.427, p.18, 2017. ,
Assessment of navigation control strategy for 20 magnetotactic bacteria in microchannel: toward targeting solid tumors ,
Simultaneous Variable-Slab Dual-Echo TOF MR 5 ,
, Angiography and Susceptibility-Weighted Imaging, IEEE Trans. Med. Imag, vol.37, issue.6, pp.1632-1640, 2018.
,
, Tomography-Based Thrombus Imaging for the Prediction of Recanalization after 9
, Reperfusion Therapy in Stroke, J. Stroke, vol.19, pp.40-49, 2017.
, Tumor Blood Vessel Visualization, vol.11, pp.163-173, 2016.