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Nanorobotics: future of medicine
- 1. A Presentation On “Nanorobotics: Future of Medicine” By Mr. Krushnakant K. Wable Under the Guidance of Dr. Sonali Mahaparale Dr. D. Y. Patil college of Pharmacy, Department of Quality Assurance Technique, (Semester-II) Akurdi, district- Pune Maharashtra 2017-2018
- 2. 2 CONTENTS: • Introduction • Types of Nano Robots • Structure of Nano Robots • Components of Nano Robots • Size & Shape of Nano Robots • How Nano Robot Works • Medical Application • Advantages • Disadvantages • Conclusion
- 3. 3 Introduction: Robotics is branch of technology which deals with design, construction, operation, structural disposition, manufacture & application of robots. Robotics related to science of engineering, electronics, mechanics & software.
- 4. 4 What are Nano Robots ? Nanorobots are machines used to cure disease in human or any organism. Perform task at nanoscale level. Size of nanorobot is 0.5 to 3 micron with 1 to 100 nm parts. ‘Nano’ means ‘billionth’.
- 5. 5 Types of Nanorobots: 1.Nubot 2.Bacteria Based Nanorobat 3.Virus Based Nanorobot 4.Surface Bound System
- 7. 7 Components of Nanorobots: Payload / Medicine cavity Micro-camera Electrodes Laser Ultrasonic signal generator Swimming tail
- 8. 8 Size & Shape of Nanorobot: Nanobots Nanoids Nanites Nanomachines Nanomites Nano-spiders
- 9. 9 Nanobots
- 10. 10 Nanomachine
- 11. 11 Nanites
- 12. 12 Nanoids
- 13. 13 Nano-spiders
- 14. 14 How Nanorobot Works ? • A tiny robot implanted into bloodstream. • The robot detects cause of your fever, travel to appropriate system & provide dose of medication to appropriate area. • Nanorobots are controllable machine to nanometer scale and composed of nanoscale components. • They are introduced into body by surgery.
- 15. 15 Advantages: Rapid elimination of disease. Nanorobot might also produce copies of themselves to replace worn-out units, a process is called self replication. They can remain in operation for years. Durability.
- 16. 16 Disadvantages: Nanorobot should be accurate otherwise harmful event may occur. Design cost is very high. Design is very complicated. Regulatory issue.
- 17. 17 Medical Application of Nanorobots: Surgery. Nanorobot in gene therapy krushnananorobot drug delievery systemNanorobot inside living cell repair DNA molecule.mp4 Successfully used in cancer treatment. Diabetes. Parasite removal. Breaking up kidney stones.
- 18. 18 Continue… Atherosclerosis. krushnananorobot drug delievery systemNanorobot for atherosclerosis plaques removing_HIGH.mp4 Breaking up blood clots. Used to treat fungal infection. krushnananorobot drug delievery systemAntibacterial nanorobot animation.mp4 DNA repair. krushnananorobotdrugdelieverysystemNanorobot inside living cellrepair DNA molecule.mp4 Diagnosis & testing.
- 19. 19 Conclusion: The most challenging task to create nanorobot is to design whole set of specialized machine tool to speed up the process of Nanorobot building. This method used to cure many diseases which are not cured by ancient method. Nanorobots are going to revolutionize the medical industry in future.
- 20. 20 References: 1.J.J.Craig, “Introduction to Robotics: Mechanics and Control”,3rd edition, Pearson Prentice Hall, Upper Saddle River,2005. 2.Ricotti L. and Menciassi, A. 2015. “Nanotechnology in Biorobotics: Opportunities and challenges.” Journal of Nanoparticle Research 17 (2): 1-10. 3.Hussain Reza K, Aishwarya G, Radhika G and Bardalai D. 2011.“Nanorobots: The future Trend of Drug Delivery and Therapeutics.” International Journal of Pharmaceutical Sciences Review and Research 10 (1): 60-8. 4.Lagzi, I. 2013. “Chemical Robotics Chemotactic Drug Carriers.” Open Medicine 8 (4): 377-82.
- 21. 21 Thank You…!!!