RECONCEPTUALIZING MEDICAL FACILITIES USING NANOBOTS

Abstract The concept in this paper aims to provide healthcare facilities to the unreached areas where health experts cannot hitch up regularly, We will be using nanobots which will perform the task of sophisticated and huge machines such as X-ray, MRI, treat tumor's, orthopedic problems and blockages.

This methodology will help in better treatment of patients as internal images are obtained easily and experts can access reports immediately from anywhere and take earliest remedies.

Nanobot are a one-time investment and the credit of performing minor orthopedic and myocardial curing and minor surgeries goes to nanobots.

Hence these nanobots can be a boon to a diverse nation which has got rough terrains such as India and can bring effective changes specially, in rural health standards and facilities.

Nanotechnology Is the study of manipulating matter on an atomic and

molecular scale, generally

nanotechnology deals with

structures sized between sized 1

to 100 nanometer in at least one

dimension involves

developing materials or

devices within that sizes

Nanobot Issues

Sensors

Computer and control

Power

Communication

Interfaces and integration

Programming and coordination

All the issues are raised by the Nanobot for the nano electro mechanical system

Glyco Protein based (Ig) structure enters human blood or tissue by

means of intravenous vaccination

• Molecular Sorting Rotor

• Propellers

• Fins

• Jet pump

• Membrane propulsion

Works with the

following components

Structure and Working of Nanobot

Provides real-time information about antibodies to antigens, cell receptors to their glands etc.

Used for drug detection.

To detect chemical vapors at low concentration based on surface stress.

Charge of the system

battery made of a single nano wire which is 7000 times thinner than human hair is used.

various source of power

Source within the body

Body heat

Power from the bloodstream

External to the body

Physical connection

Induced magnetic

Cameras and Lasers in Nanobots

Disposable micro camera for navigation and view of internal

images. It will be accessed by CMOS

sensors for transmission of images

Laser made out of nanoroids and a semiconductor

chip is used. Laser can be used

for removing clots and blocks and minor surgeries

and wounds.

Programming in Nanobots

OODMS is created with the

help of C, C++ language.

It helps the medical

authorities to keep data of

nanobots inoculated

Nanobots would be tagged with a primary identity barcode or code.

Reduces delay in healthcare &

treatment

Inoculated using a stalk solution with a layer of drug covering.

Mass basis implantation is

preferred

Connected with database

managements.

Breaking up blood clots

Fighting cancer

Parasite removal

Internal Images

Breaking up of kidney stones

arteriosclerosis

Advantages and Disadvantages

Risk of cancer

May affect human health by introducing

toxicity in blood

Replication may become out of control

The microscopic size of the nan machines translates into high operational speeds.

Durability is another potential asset

Individual units require only a tiny

amount of energy to operate.

conclusion It is an absolute approach to welfare of health care

system of our nation and for a sustainable growth and development of India.

It can be handled by NGOS

Hospitals

Health departments and ministry.

References

Design and Control of a sensor guided nan robot by

Markus Brunner and Andreas Stemmer

Nano-robotics in medical application by

Constantinos Mavroidis.

Current status of nan medicine and medical nan

robotics by Robert A Freitas

Worlds smallest semi-conductor laser created by

University of Texas.

Lets boost our nation to utmost prosperity