Releasing rate optimization in a single and multiple transmitter local drug delivery system with limited resources

Publication date: Available online 21 March 2017 Source:Nano Communication Networks Author(s): Shirin Salehi, Naghmeh S. Moayedian, Simon S. Assaf, Raul G. Cid-Fuentes, Josep Solé-Pareta, Eduard Alarcón Drug delivery is one of the most important applications of molecular communication. Drug transmitters have limited resources in terms of energy and reservoir and these limitations should be taken into consideration when designing a drug delivery system. Drug molecules may also be expensive and releasing a large amount of them can have harmful effects on the healthy parts of the body. In this paper, we consider a multiple transmitter local drug delivery system in which the nearest transmitters to a randomly located tumor are activated to release drug molecules and guarantee the Least Effective Concentration (LEC) in every part of the tumor. We propose two different scenarios: a single transmitter drug delivery system for which the optimal rate of the transmitting nanomachine and the optimal density of deployed nanomachines are derived through formulations and simulations. Poisson distributed as well as regular square and hexagon grid deployments are investigated. We then extend it to a multiple transmitter drug delivery system for which the optimal allocated rate to each releasing transmitter is derived in order to minimize the total rate of release and to maintain LEC in every part of the tumor. It is shown that activating multiple transmitters leads to a reduction i...
Source: Nano Communication Networks - Category: Nanotechnology Source Type: research
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