An improved genetic algorithm for designing optimal temporal patterns of neural stimulation

Cassar, Isaac R.; Titus, Nathan D.; Grill, Warren M.

doi:10.1088/1741-2552/aa8270

Cited by 43 publications

(36 citation statements)

References 34 publications

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“…Therefore, this group is developing flexible, high density electrodes to chronically interface with the vagus nerve in the awake state (Caravaca et al 2017;Li et al 2017). These implants will increase the amount of information obtained from the nerve and also can be used to create unique stimulation patterns to potentially target different nerve fibers (Cassar et al 2017).…”

Section: Discussionmentioning

confidence: 99%

A wrappable microwire electrode for awake, chronic interfacing with small diameter autonomic peripheral nerves

Goldman

et al. 2018

Preprint

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Bioelectronic medicine requires the ability to monitor and modulate nerve activity in awake patients over time. The vagus nerve is a promising stimulation target, and preclinical models often use mice. However, an awake, chronic mouse vagus nerve interface has yet to be demonstrated. Here, we developed a functional wrappable microwire electrode to chronically interface with the small diameter mouse cervical vagus nerve (~100 μ m). In an acute setting, the wrappable microwire had similar recording performance to commercially available electrodes. A chronic, awake mouse model was then developed to record spontaneous compound action potentials (CAPs). Viable signal-to-noise ratios (SNRs) were obtained from the wrappable microwires between 30 and 60 days (n = 8). Weekly impedance measurements showed no correlation between SNR or time. The wrappable microwires successfully interfaced with small diameter nerves and has been validated in a chronic, awake preclinical model, which can better facilitate clinical translation for bioelectronic medicine.

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Section: Discussionmentioning

confidence: 99%

A wrappable microwire electrode for awake, chronic interfacing with small diameter autonomic peripheral nerves

Goldman

et al. 2018

Preprint

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“…Additionally, the integration of non-planar electrode arrays that provide improved electrical access to the nerve -either by increasing efficacy of contact with the epineurim (Robinson et al, 2012;Shmoel et al, 2016) or by penetrating into the intraneural space (Angle et al, 2015;Gillis et al, 2018;Vitale et al, 2015) -may allow for greater recording and stimulating specificity with low risk of increased host tissue trauma (Salatino et al, 2017). And finally, we showed that current-steering-based stimulation can achieve a high degree of modulatory specificity within the small geometry of the nanoclip, but our results also highlight the challenge of identifying multi-channel stimulation parameters that will produce and maintain a specific physiological or end effector state (Cassar et al, 2017;Grill et al, 1991;Veraart et al, 1993). Thus, full realization of multi-channel neuromodulation for precise control of PNS activity will require closed-loop, unsupervised methods for mapping stimulation patterns to functional outputs such that robust control of end state is possible.…”

Section: Discussionmentioning

confidence: 60%

Printable microscale interfaces for long-term peripheral nerve mapping and precision control

Otchy

Michas

Lee

et al. 2019

Preprint

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The nascent field of bioelectronic medicine seeks to decode and modulate peripheral nervous system signals to obtain therapeutic control of targeted end organs and effectors. Current approaches rely heavily on electrodebased devices, but size scalability, material and microfabrication challenges, limited surgical accessibility, and the biomechanically dynamic implantation environment are significant impediments to developing and deploying advanced peripheral interfacing technologies. Here, we present a microscale implantable device -the nanoclipfor chronic interfacing with fine peripheral nerves in small animal models that begins to meet these constraints.We demonstrate the capability to make stable, high-resolution recordings of behaviorally-linked nerve activity over multi-week timescales. In addition, we show that multi-channel, current-steering-based stimulation can achieve a high degree of functionally-relevant modulatory specificity within the small scale of the device. These results highlight the potential of new microscale design and fabrication techniques for the realization of viable implantable devices for long-term peripheral interfacing.

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“…The GA is a stochastic technique to find a solution that mimics the principles of natural genetics [76,77]. The GA is inspired by biological evolution, Charles Darwin's theory of natural evolution [78], which uses propagation, random mutation, genetic diversity, and natural selection [79]. This algorithm reflects the process of natural selection where the best individuals are selected for breeding to give offspring in the next generation [72].…”

Section: Genetic Algorithmmentioning

confidence: 99%

Review of Nature-Inspired Optimization Algorithms Applied in Civil Engineering

Obradović

2018

e-GFOS

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Nature has always been an example of perfection and inspiration. In nature, everything has reasons why it is happening exactly the way it does. Nature-inspired optimization algorithms have become a rapidly growing area of research in all areas of life. Ant colonies find the shortest path to food, the evolution of the living world shows adaptation to the world around it. For example, bees find the optimal path to food and back to the hive. Optimization algorithms contribute significantly to solving many complex issues and achieving optimal results. This research paper outlines nature-inspired optimization algorithms, such as ant colonies, artificial immune system s, artificial neural networks, flocks of bats, bee swarms, firefly algorithms, genetic algorithms, and particle swarms. The purpose of this brief overview is to provide an easy-to-understand list of the basic features of the most common nature-inspired optimization algorithms as well as the potential applications of the aforementioned algorithms in civil engineering.

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An improved genetic algorithm for designing optimal temporal patterns of neural stimulation

Cited by 43 publications

References 34 publications

A wrappable microwire electrode for awake, chronic interfacing with small diameter autonomic peripheral nerves

A wrappable microwire electrode for awake, chronic interfacing with small diameter autonomic peripheral nerves

Printable microscale interfaces for long-term peripheral nerve mapping and precision control

Review of Nature-Inspired Optimization Algorithms Applied in Civil Engineering

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