21.04.2009
РОССИЙСКАЯ АКАДЕМИЯ НАУК

УРАЛЬСКОЕ ОТДЕЛЕНИЕ

ИНСТИТУТ ХИМИИ TBEPДОГО ТЕЛА
   
| | | | |
| | | | | |
 21.04.2009   Карта сайта     Language По-русски По-английски
Новые материалы
Экология
Электротехника и обработка материалов
Медицина
Статистика публикаций


21.04.2009

Medical Micro-robots Made As Small As Bacteria



ScienceDaily (Apr. 19, 2009) — For the first time, ETH Zurich researchers have built micro-robots as small as bacteria. Their purpose is to help cure human beings.


They look like spirals with tiny heads, and screw through the liquid like miniature corkscrews. When moving, they resemble rather ungainly bacteria with long whip-like tails. They can only be observed under a microscope because, at a total length of 25 to 60 µm, they are almost as small as natural flagellated bacteria. Most are between 5 and 15 µm long, a few are more than 20 µm.


Mimicking nature


The tiny spiral-shaped, nature-mimicking lookalikes of E. coli and similar bacteria. are called “Artificial Bacterial Flagella” (ABFs), the “flagella” referring to their whip-like tails. They were invented, manufactured and enabled to swim in a controllable way by researchers in the group led by Bradley Nelson, Professor at the Institute of Robotics and Intelligent Systems at ETH Zurich. In contrast to their natural role model, some of which cause diseases, the ABFs are intended to help cure diseases in the future.


The practical realization of these artificial bacteria, the smallest yet created, with a rigid flagellum and external actuation, was made possible mainly by the self-scrolling technique from which the spiral-shaped ABFs are constructed. ABFs are fabricated by vapor-depositing several ultra-thin layers of the elements indium, gallium, arsenic and chromium onto a substrate in a particular sequence. They are then patterned from it by means of lithography and etching. This forms super-thin, very long narrow ribbons that curl themselves into a spiral shape as soon as they are detached from the substrate, because of the unequal molecular lattice structures of the various layers. Depending on the deposited layer thickness and composition, a spiral is formed with different sizes which can be precisely defined by the researchers. Nelson says, “We can specify not only how small the spiral is, but even the scrolling direction of the ribbon that forms the spiral.”


External propulsion via magnetic field


Even before releasing the ribbon that will afterwards form the artificial flagellum, a kind of head for the mini-robot is attached to one of its ends. It consists of a chromium-nickel-gold tri-layer film, also vapor-deposited. Nickel is soft-magnetic, in contrast to the other materials used, which are non-magnetic. Nelson explains that, “This tiny magnetic head enables the ABF to move in a specific way in a magnetic field.” The spiral-shaped ABF swim through the liquid and its movements can be observed and recorded under a microscope.


With the software developed by the group, the ABF can be steered to a specific target by tuning the strength and direction of the rotating magnetic field which is generated by several coils. The ABFs can move forwards and backwards, upwards and downwards, and can also rotate in all directions. Brad Nelson says “There’s a lot of physics and mathematics behind the software.” The ABFs do not need energy of their own to swim, nor do they have any moving parts. The only decisive thing is the magnetic field, towards which the tiny head constantly tries to orientate itself and in whose direction it moves. The ABFs currently swim at a speed of up to 20 µm, i.e. up to one body length, per second. Nelson expects that it will be possible to increase the speed to more than 100 µm per second. For comparison: E. coli swims at 30 µm per second.


Possible applications in medicine


The ABFs have been designed for biomedical applications. For example, they could carry medicines to predetermined targets in the body, remove plaque deposits in the arteries or help biologists to modify cellular structures that are too small for direct manipulation by researchers. In initial experiments, the ETH Zurich researchers have already made the ABFs carry around polystyrene micro-spheres.


At the moment, however, the group is still carrying out basic research. Further investigations will be needed before there can be any practical applications. Nelson explains that, “For applications in the human body, it would first of all be necessary to steer the ABFs precisely, track their route without optical monitoring and guarantee their localization at all times.” If ABFs are to deliver drugs, they would first of all have to be functionalized in a feasible way and then need to be able to release the drugs precisely in situ. The plan is for the ABFs themselves to become even faster and smaller. Nelson is enthusiastic about how ingeniously nature has designed natural bacteria. He is happy that his group’s ABFs already resemble the originals so closely.




Adapted from materials provided by ETH Zurich.

Email or share this story:  






Artificial bacterial flagella are about half as long as the thickness of a human hair. They can swim at a speed of up to one body length per second. This means that they already resemble their natural role models very closely. (Credit: Institute of Robotics and Intelligent Systems/ETH Zurich)



Дизайн и программирование N-Studio 
А Б В Г Д Е Ё Ж З И Й К Л М Н О П Р С Т У Ф Х Ц Ч Ш Щ Ъ Ы Ь Э Ю Я © 2004-2024 ИХТТ УрО РАН
беременность, мода, красота, здоровье, диеты, женский журнал, здоровье детей, здоровье ребенка, красота и здоровье, жизнь и здоровье, секреты красоты, воспитание ребенка рождение ребенка,пол ребенка,воспитание ребенка,ребенок дошкольного возраста, дети дошкольного возраста,грудной ребенок,обучение ребенка,родить ребенка,загадки для детей,здоровье ребенка,зачатие ребенка,второй ребенок,определение пола ребенка,будущий ребенок медицина, клиники и больницы, болезни, врач, лечение, доктор, наркология, спид, вич, алкоголизм православные знакомства, православный сайт творчeства, православные рассказы, плохие мысли, православные психологи рождение ребенка,пол ребенка,воспитание ребенка,ребенок дошкольного возраста, дети дошкольного возраста,грудной ребенок,обучение ребенка,родить ребенка,загадки для детей,здоровье ребенка,зачатие ребенка,второй ребенок,определение пола ребенка,будущий ребенок