Other Biological Implanted Sensors and Devices EE 4611
Other Biological Implanted Sensors and Devices EE 4611 Tzaddik Oltman 4/20/2016 Abstract: This presentation introduces some basic advantages of electronic biological implants as well as some of the associated problems. A number of examples of these devices is given along with a brief explanation of the functionality and purpose.
Outline • Introduction to “Electroceuticals” • Advantages over Conventional Medicines • Design Problems • Proposed Solutions • Current Examples • Future Outlook • Summary
Electroceuticals • Used to describe biologically implanted electronic devices that are made to alter the way the human body acts or reacts using electrical stimulation. Photo courtesy of www. wired. co. uk Photo courtesy of bostonscientific. com
Advantages of Electronic Implants • Highly localized treatment • Minimal side effects • Much faster reaction time • Ability to react to changes • Ability to adapt to different patients • Single procedure Photo courtesy of www. neurologyadvisor. com
Design Problems • Supplying power • Batteries - bulky • Disposable - many surgeries • Rechargeable - implant may be too deep 4. 45 cm Photo courtesy of bostonscientific. com
Solutions • External power - no batteries • Mid field power transfer Photos courtesy of web. stanford. edu
Solutions • Temporary, biodegradable components Photo courtesy of www. nature. com
Examples • Nerve stimulation - rheumatoid arthritis • Settles overactive immune systems • Potential for wireless charging/communication Photos courtesy of www. technologyreview. com
Examples • Nerve stimulation - weight loss • Signals brain to stop hunger Photos courtesy of scienceline. org
Examples • Muscle stimulation - sleep apnea
Examples • Wireless midfield powered electrostimulator • Tested at 4. 5 cm below skin surface • Delivers 2 m. W of power • Can be powered through various tissues • WIthin safe human threshold Photo courtesy of www. businessinsider. com Photo courtesy of www. wired. co. uk
Examples • Biodegradable Implants - cranial sensor • PLGA - bioresorbable polymer • Uses Silicon nanomembrane strain-gauge • Measures cranial pressure and • temperature Used to monitor patients after brain surgery
Future Possibilities • More accurate brain monitoring • More understanding of electrical signals in the human body • More disorders helped and possibly cured • Psychological disorders • Chronic pain • Addictions • Less intrusive techniques • Nano-scale implants
Summary • Electrical implants used to alter biological functions using electrostimulation are known as “electroceuticals” • Electroceuticals have traditionally been powered with disposable batteries which has some downfalls • New techniques of powering electronic implants such as wireless charging and external midfield sources are being developed to overcome these downfalls • There are many current uses for electroceutical devices including relief of arthritis pain, helping sleep apnea, aiding weight loss, calming epileptic symptoms, and monitoring post-op patients • There also many future possibilities for these technologies as they are developed
References N. S. Artan et al. , “A High-Performance Transcutaneous Battery Charger for Medical Implants, ” in Annu. Int. Conf. IEEE Engineering in Medicine and Biology, Buenos Aires, 2010, pp. 1581 -1584. http: //scienceline. org/2015/01/fda-approves-implanted-weight-loss-device/ https: //www. technologyreview. com/s/518511/implanted-device-controls-rheumatoid-arthritis/ http: //www. nature. com/news/biodegradable-battery-could-melt-inside-the-body-1. 14919 J. S. Ho, K. Sanghoek, SY. P. Ada, “Midfield wireless powering for implantable systems, ” Proc. IEEE, vol. 101. 6, pp. 1369 -1378, Apr. 2013. J. S. Ho et al. “Wireless power transfer to deep-tissue microimplants, ” Proc. Nat. Academy of Sciences of the United States of America, vol. 111. 22, pp 7974 -7979, Feb. 2014. S. K. Kang et al. , “Bioresorbable silicon electronic sensors for the brain, ” Nature, vol. 530. 7588, pp 71 -76, Nov. 2015.
Five Key Concepts • Electronic implants used for electrical stimulation are known as electroceuticals • Electroceuticals have benefits over traditional medications such as more localized treatment and fewer side effects • Another important benefit to electrical implants is the ability to react to bodily changes and differences between patients • The main problem with the development of electroceuticals is power supply • The most promising solution to the power supply problem is midfield wireless power
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