PANACEA: An Internet of Bio-NanoThings Application for Early Detection and Mitigation of Infectious Diseases

PANACEA: An Internet of Bio-NanoThings Application for Early Detection and Mitigation of Infectious Diseases

The Internet of Bio-NanoThings (IoBNT) concept envisions the connection between biological cells and the Internet. The ultimate goal of IoBNT is to catalyze a revolution in biomedical technologies through advances in molecular communication, integrated systems, bio-nanosensors and synthetic biology...

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Bibliographic Details
Published in:IEEE access Vol. 8; p. 1
Main Authors: Akyildiz, Ian F., Ghovanloo, Maysam, Guler, Ulkuhan, Ozkaya-Ahmadov, Tevhide, Sarioglu, A. Fatih, Unluturk, Bige D.
Format: Journal Article
Language:English
Published: Piscataway IEEE 01-01-2020
The Institute of Electrical and Electronics Engineers, Inc. (IEEE)
Subjects:
Actuation
Biomedical monitoring
Biosensor
Biosensors
Circuit design
Communication
Communications engineering
Communications systems
Computer networks
Electronic devices
Gateways (computers)
Implantable Medical Device
Infections
Infectious diseases
Internet
Internet of Bio-NanoThings
Internet of Things
Microorganisms
Molecular Communication
Monitoring
Optical sensors
Remote control
Remote sensing
Wearables
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Summary:The Internet of Bio-NanoThings (IoBNT) concept envisions the connection between biological cells and the Internet. The ultimate goal of IoBNT is to catalyze a revolution in biomedical technologies through advances in molecular communication, integrated systems, bio-nanosensors and synthetic biology to improve human health and quality of life. In this paper, an application of IoBNT called PANACEA (a solution or remedy for all difficulties or diseases in Latin) is presented as a solution for an end-to-end design towards realizing the IoBNT for the first time in the literature. The architecture of PANACEA is tailored to focus on diagnosis and therapy of infectious diseases. In PANACEA, to detect the communication within the cells of the body to deduce infection level, a submilimeter implantable bio-electronic device, a Bio-NanoThing, is proposed. BNT can transmit the detected infection data remotely to a wearable hub/gateway outside of the body. The hub can use mobile devices and the backbone network such as Internet or cellular systems to reach the healthcare providers who can remotely control the BNTs. Hence, PANACEA provides a system, where sensing, actuation and computing processes are tightly coupled to provide a reliable and responsive disease detection and infection recovery system. Incorporating molecular communication and conventional networks brings many challenges that are attacked in various fronts such as circuit and biosensor design, communications engineering, with novel solutions presented in this paper, accompanied with simulation results.
ISSN:2169-3536
2169-3536
DOI:10.1109/ACCESS.2020.3012139