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NANO ROBOTICS
ABSTRACT
Nanorobots are nanodevices that
will be used for the purpose of maintaining and protecting the human body
against pathogen
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| Nanorobot designed to perform cell surgery |
There is no technology for the treatment of AIDS. Some of
the drugs of specific composition are given to the patients depending on the
intensity of the disease. The drugs using nowadays are able to increase the
lifetime to a few years only. To make the treatment more specific, we use the
nanodevices that use nanosensors to sense the AIDS infected WBC’s. In this we
are using nanorobots to get back the HIV infected WBC’s. By doing so constant
levels of WBC’s are maintained in the blood stream.
In India more than 50 lakhs of people are
infected by this dreaded disease and it constitutes 10% of the total infected.
We are doing research on this paper and we hope that this theoretical approach
can be made practical in the near future, so that the killer disease AIDS could
also be made in control on the hands of Human with the emerging new technology
like NANOTECHONOLOGY which has a Bi o-medical Application.
Nano is one billionth of one. Now we have
the so NANOTECHNOLOGY called microprocessors and microarray technology that
would reach the nano level within a few decades, we suppose. Some call this
technology to be nanotechnology and some others name it the molecular nanotechnology,
to be specific.
REASONS FOR APPLYING
NANOTECH TO BIOLOGICAL SYSTEMS
Most animal cells are 10,000 to 20,000
nanometers in diameter. This means that nanoscale devices (having at least one
dimension less than 100 nanometers) can enter cells and the organelles inside
them to interact with DNA and proteins. Tools developed through nanotechnology
may be able to detect disease in a very small amount of cells or tissue. They
may also be able to enter and monitor cells within a living body.
Miniaturization will allow the tools for many different tests to be situated
together on the same small device. This means that nanotechnology could make it
possible to run many diagnostic tests simultaneously with more sensitivity. In
general, nanotechnology may offer a faster and more efficient means for us to
do much of what we do now
NANOMEDICINE
The emerging field of nanorobotics is aimed
at overcoming the shortcomings present in the traditional way of treatment of
patients. Our bodies are filled with intricate, active molecular
structures. When those structures are damaged, health suffers. Modern medicine
can affect the work of the body in many ways, but from a molecular viewpoint it
remains crude. Molecular manufacturing can construct a range of medical
instruments and devices with greater abilities. The human body can be seen as a
workyard, construction site and battleground form molecular machines. It works
remarkably well; using systems so complex that medical science still doesn’t
understand many of them.
BIOMEDICAL APPILICATIONS OF
NANOROBOTS
The enormous potential in the biomedical
capabilities of nanorobots and the imprecision and side effects of medical
treatments today make nanorobots very desirable. But today, in this
revolutionary era we propose for nanomedical robots, since they will have no
difficulty in identifying the target site cells even at the very early stages
which cannot be done in the traditional treatment and will ultimately be able
to track them down and destroy them wherever they may be growing. By having
these Robots, we can refine the treatment of diseases by using biomedical,
nanotechnological engineering.
WHAT IS A MEDICINAL
NANOROBOT
?
According
to current theories, nanorobots will possess at least rudimentary two-way
communication; will respond to acoustic signals; and will be able to receive
power or even re-programming instructions from an external source via sound
waves. A network of special stationary nanorobots might be strategically
positioned throughout the body, logging each active nanorobot as it passes,
then reporting those results, allowing an interface to keep track of all of the
devices in the body.
A doctor could not only monitor a patient’s progress but change the instructions of the nanorobots in vivo to progress to another stage of healing. When the task is completed, the nanorobots would be flushed from the body.
A doctor could not only monitor a patient’s progress but change the instructions of the nanorobots in vivo to progress to another stage of healing. When the task is completed, the nanorobots would be flushed from the body.
Nanorobot
performing operations on blood cells
Nanorobotic phagocytes called microbivores
could patrol the bloodstream, seeking out and digesting unwanted pathogens
including bacteria, viruses or fungi. Each nanorobot could
completely destroy one pathogen in just 30 seconds - about 100 times faster
than natural leukocytes or macrophages - releasing a harmless effluent of amino
acids, mononucleotides, fatty acids and sugars. No matter that a bacterium has
acquired multiple drug resistance to antibiotics or to any other traditional
treatment. The microbivore will eat it anyway, achieving complete clearance of
even the most severe septicemic infections in minutes to hours, as compared to
weeks or even months for antibiotic-assisted natural phagocytic defenses,
without increasing the risk of sepsis or septic shock. Related nanorobots could
be programmed to recognize and digest the cancer cells and to clear circulatory
obstructions within a minute in order to rescue stroke patients from ischemic
damage.
More sophisticated medical nanorobots will be
able to intervene at the cellular level, performing surgery within cells.
Physician-controlled nanorobots could extract existing chromosomes from a
diseased cell and insert newly manufactured ones in their place, a process
called chromosome replacement therapy. This would allow a permanent cure of any
pre-existing genetic disease, and permit cancerous cells to be reprogrammed to
a healthy state.
IMPLEMENTATION
ANTI - HIV USING NANOTECHNOLOGY
AIDS
Next
ANTI - HIV USING NANOTECHNOLOGY
AIDS
The
virus responsible for the condition known as AIDS (Acquired Immunodeficiency
Syndrome), is named HIV (Human Immunodeficiency Virus). AIDS is the condition
whereby the body's specific defense system against all infectious agents no
longer functions properly. There is a focused loss over time of immune cell
function, which allows intrusion by several different infectious agents, the
result of which is loss of the ability of the body to fight infection and the
subsequent acquisition of diseases such as pneumonia.
The immune system is a system within all vertebrates , which in general terms, is comprised of two important cell types namely B-cell and T-cell. B-cell is responsible for the production of antibodies (proteins which can bind to specific molecular shapes), and the T-cell (two types) is responsible either for helping the B-cell to make antibodies, or for the killing of damaged or "different" cells (all foreign cells except bacteria) within the body. The two main types of T-cells are the "helper-cell and the cytotoxic T-cell. The T-helper population is further divided into those which help B-cells (Th2) and those which help cytotoxic T-cells (Th1). Therefore, in order for a B-cell to do its job requires the biochemical help of Th2 helper T-cells; and, for a cytotoxic T-cell to be able to eliminate a damaged cell requires the biochemical help of a Th1 helper T-cell.
The immune system is a system within all vertebrates , which in general terms, is comprised of two important cell types namely B-cell and T-cell. B-cell is responsible for the production of antibodies (proteins which can bind to specific molecular shapes), and the T-cell (two types) is responsible either for helping the B-cell to make antibodies, or for the killing of damaged or "different" cells (all foreign cells except bacteria) within the body. The two main types of T-cells are the "helper-cell and the cytotoxic T-cell. The T-helper population is further divided into those which help B-cells (Th2) and those which help cytotoxic T-cells (Th1). Therefore, in order for a B-cell to do its job requires the biochemical help of Th2 helper T-cells; and, for a cytotoxic T-cell to be able to eliminate a damaged cell requires the biochemical help of a Th1 helper T-cell.
Whenever any foreign substance or
agent enters our body, the immune system is activated. Both B- and T-cell
members respond to the threat, which eventually results in the elimination of
the substance or agent from our bodies. If the agent is one which goes inside
one of our cells and remains there most of the time (intracellular pathogens
like viruses or certain bacteria which require the inside of one of our cells
in order to live), the "best" response is the activation of cytotoxic
T-cells (circulate in the bloodstream and lymph), which eliminate the agent
through killing of the cell which contains the agent (agent is otherwise
"hidden"). Both of these kinds of responses (B-cell or cytotoxic
T-cell) of course require specific helper T-cell biochemical information as
described above. Usually, both B-cell and cytotoxic T-cell responses occur
against intracellular agents which provides a two-pronged attack. Normally,
these actions are wonderfully protective of us. The effect of HIV on the immune
system is the result of a gradual (usually) elimination of the Th1 and Th2
helper T-cell sub- populations.
How HIV specifically affects the
Immune System?
Remember about the proteins, which are part of the envelope of HIV?
Well, one of these proteins, named gp 120, (a sugar-containing protein called a glycoprotein, of approximately (120,000 molecular weight), "recognizes" a protein on helper T-cells named CD4, and physically associates with it. The CD4 [Cluster of Differentiation Antigen No. 4] protein is a normal part of a helper (both Th1 and Th2) T-cell's membrane.
Remember about the proteins, which are part of the envelope of HIV?
Well, one of these proteins, named gp 120, (a sugar-containing protein called a glycoprotein, of approximately (120,000 molecular weight), "recognizes" a protein on helper T-cells named CD4, and physically associates with it. The CD4 [Cluster of Differentiation Antigen No. 4] protein is a normal part of a helper (both Th1 and Th2) T-cell's membrane.
1. Method of infection of
HIV
The fight between the virus and the immune system for supremacy is continuous.
Our body responds to this onslaught through production of more T-cells, some of
which mature to become helper T-cells. The virus eventually infects these
targets and eliminates them, too. More T-cells are produced, these too become
infected and are killed by the virus. This fight may continue for up to ten
years before the body eventually succumbs, apparently because of the inability
to any-longer produce T-cells. This loss of helper T-cells finally results in
the complete inability of our body to ward-off even the weakest of organisms
(all kinds of bacteria and viruses other than HIV) which are normally not ever
a problem to us. This acquired condition of immunodeficiency is called, AIDS.
1. Structure
of AIDS virus
METHODOLOGY
AIDS by itself is not a killer disease. The
cause of AIDS is the HIV virus that is capable of destroying the immune system.
Thereby the host system is vulnerable to small diseases which will turn into a
fatal one but actually it is not a fatal disease. The HIV virus attack the
WBC’s by converting them into the HIV. Thereby all the WBC’s are converted into
HIV, so the immune system will fail. This is the reason for the death of the
patient. Our idea is to convert the AIDS affected WBC’s back into the original
form of the WBC by using a Nanorobot, thereby the patient is made to have a
constant amount of immune system. Nanorobot performs the inverse process of the
HIV.
CONVERSION RATE
The HIV convert the WBC in a faster manner
.So the conversion by the A-HIV Nanorobot should also be very much faster than
that of the HIV, so that a constant level of WBC’s are maintained in the blood
stream. Because of this ,an AIDS patient can defend himself from various
diseases .The conversion rate should be at least five times greater than that
of the HIV conversion rate.
BASIC EQUATION
The basic equation for the conversion of the HIV infected WBC’s back to its
original form is given below. The host system is the WBC and is converted by
the HIV into an infected WBC. This is the reason for AIDS.
CREATION OF NANO DEVICES
The creation of the nano
devices can be done using any of the two techniques that are available. They
are
· Top-down
approach
CHALLENGES FACED BY
NANOROBOTS
While designing
nonorobots in nanoscale dimensions there should be a better understanding of
how matter behaves on this small scale. Matter behaves differently on the
nanoscale than it does at larger levels. So the behavior of the nanorobots must
be taken care so that the do not affect us both inside and outside the body.
Other challenges apply specifically to the use of nanostructures within
biological systems. Nanostructures can be so small that the body may clear them
too rapidly for them to be effective in detection or imaging. Larger
nanoparticles may accumulate in vital organs, creating a toxicity problem. So
we need to consider these factors as they anticipate how nanostructures will
behave in the human body and attempt to create devices the body will accept.
DESIGN OF NANOROBOTS
The nanorobots that
we describe here will be floating freely inside the body exploring and detect
the HIV virus. So, while designing such a nanorobot for AIDS treatment, the
main factors that are to be considered are given below.
TECHNIQUE USED
We use the bottom-up
approach, which involves assembling structures atom-by-atom or
molecule-by-molecule which will be useful in manufacturing devices used in
medicine.
SIZE
Nanorobots will typically
be 0.5 to 3 microns large with 1-100 nm parts. Three microns is the upper
limit of any nanorobot because nanorobots of larger size will block capillary
flow.
STRUCTURE
The nanorobot’s structure
will have two spaces that are
Interior
It will be a closed, vacuum
environment into which liquids from the outside cannot normally enter unless it
is needed for chemical analysis.
Exterior
It will be subjected to
various chemical liquids in our bodies.
CHEMICAL ELEMENTS
Carbon will likely be the
principal element comprising the bulk of a medical nanorobot, probably in the
form of diamond or diamondoid or fullerene nanocomposites largely because of
the tremendous strength and chemical inertness of diamond. Many other light
elements such as hydrogen, sulfur, oxygen, nitrogen, fluorine, silicon, etc.
may also be used.
ACQUIRING POWER
It could metabolize
local glucose and oxygen for energy. Another possibility is externally
supplied acoustic power, which is probably most
appropriate in a clinical setting. There are literally dozens of
useful power sources that are potentially available in the human body.
Having
nanorobots inside the body it is very essential to know the actions done by it.
There are many different ways to do this. One of the simplest ways to send
broadcast-type messages into the body, to be received by nanorobots, is
acoustic messaging. A device similar to an ultrasound probe would
encode messages on acoustic carrier waves at frequencies between
1-10 MHz.
TRACKING
A navigational network may be installed in
the body, with stationkeeping navigational elements providing high positional
accuracy to all passing nanorobots that interrogate them, wanting
to know their location. Physical positions can be reported continuously using
an in vivo communications network.
STRUCTURE OF NANOROBOT
The nanorobot
consists of three main parts like the DNA sensor,CPU,RNA converter and the
power system. The purpose of DNA sensor is to identify the HIV infected cell.
The RNA converter is used to change the RNA of the HIV. The CPU controls all
the activities .The power system provides the necessary energy for the working
of the nanorobot.
Carbon nanotube network field-effect transistors (NTNFETs) that function as selective detectors of DNA immobilization and hybridization. NTNFETs with immobilized synthetic oligonucleotides have been shown to specifically recognize target DNA sequences, including H63D single-nucleotide polymorphism (SNP) discrimination in the HFE gene, responsible for hereditary hemochromatosis. The electronic responses of NTNFETs upon single-stranded DNA immobilization and subsequent DNA hybridization events were confirmed by using fluorescence-labeled oligonucleotides and then were further explored for label-free DNA detection at picomolar to micromolar concentrations
POWER SYSTEM
The nanorobot uses the glucose molecules present
in the human body as the power source. The conversion of this glucose
molecule into the energy is accomplished by the energy converter, which is an
important part of the nanorobot.
REQIREMENTS OF THE NANOROBOT
1.
It should e very small so that the blood
capillary flow is not affected.
2.
It should not be affected by the WBC.
3.
It should be capable of sensing the HIV
infected WBC only and its action is restricted to the infected WBC only.
4.
It should make its operations in the RNA to
convert back to the original DNA of the WBC by suitably changing the bases like
the adenine, guanine.
5.
It should convert the infected WBC into the
original WBC in a very faster manner.
6.
It should be made of cheaper rates, so that
the patient can afford it easily.
The paper is just a theoretical
justification. But the recent advancement in the field of nanotechnology gives
the hope of the effective use of this technology in medical field. This paper
starts by giving an introduction to nanorobots and its importance as recognized
by various other technocrats. This is the beginning of nanoera and we could
expect further improvements such as a medicine to AIDS using nanotechnology .
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