Ciro Zinno scite author profile

Ciro Zinno

4Publications

6Citation Statements Received

45Citation Statements Given

How they've been cited

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109

Affiliations

Sant'Anna School of Advanced Studies, University of Pisa

Publications

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Implantable Fiber Bragg Grating Sensor for Continuous Heart Activity Monitoring: Ex-Vivo and In-Vivo Validation

et al. 2021

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Continuous and reliable cardiac function monitoring could improve medication adherence in patients at risk of heart failure. This work presents an innovative implantable Fiber Bragg Grating-based soft sensor designed to sense mechanical cardiac activity. The sensor was tested in an isolated beating ovine heart platform, with 3 different hearts operated in wide-ranging conditions. In order to investigate the sensor capability to track the ventricular beats in real-time, two causal algorithms were proposed for detecting the beats from sensor data and to discriminate artifacts. The first based on dynamic thresholds while the second is a hybrid convolutional and recurrent Neural Network. An error of 2.7 ± 0.7 beats per minute was achieved in tracking the heart rate. Finally, we have confirmed the sensor reliability in monitoring the heart activity of healthy adult minipig with an error systematically lower than 1 Bpm.

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Cardiovascular Response to Intraneural Right Vagus Nerve Stimulation in Adult Minipig

Agnesi¹,

Zinno²,

Strauss³

et al. 2024

Neuromodulation: Technology at the Neural Interface

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Adaptation and Optimization of an Intraneural Electrode to Interface with the Cervical Vagus Nerve

Strauss

Zinno

Giannotti

et al. 2021

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Neural stimulation hardware for the selective intrafascicular modulation of the vagus nerve

Strauss

Agnesi

Zinno

et al. 2023

Preprint

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The neural stimulation of the vagus nerve is able to modulate various functions of the parasympathetic response in different organs. The stimulation of the vagus nerve is a promising approach to treating inflammatory diseases, obesity, diabetes, heart failure, and hypertension. The complexity of the vagus nerve requires highly selective stimulation, allowing the modulation of target-specific organs without side effects. Here, we address this issue by adapting a neural stimulator and developing an intraneural electrode for the particular modulation of the vagus nerve. The neurostimulator parameters such as amplitude, pulse width, and pulse shape were modulated. Single-, and multi-channel stimulation was performed at different amplitudes. For the first time, I polyimide thin-film neural electrode was designed for the specific stimulation of the vagus nerve. In vivo experiments were performed in the adult minipig to validate to elicit electrically evoked action potentials and to modulate physiological functions selectively, validating the selectivity of intraneural stimulation. Electrochemical tests of the electrode and the neurostimulator showed that the stimulation hardware was working correctly. Stimulating the porcine vagus nerve resulted in selective modulation of the vagus nerve. Alpha, beta, and theta waves could be distinguished during single- and multi-channel stimulation. We have shown that the here presented system is able to activate the vagus nerve selectively and can therefore modulate the heart rate, diastolic pressure, and systolic pressure. The here presented system may be used to restore the cardiac loop after denervation by implementing biomimetic stimulation patterns. Presented methods may be used to develop intraneural electrodes adapted for various applications.

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Ciro Zinno

Implantable Fiber Bragg Grating Sensor for Continuous Heart Activity Monitoring: Ex-Vivo and In-Vivo Validation

Cardiovascular Response to Intraneural Right Vagus Nerve Stimulation in Adult Minipig

Adaptation and Optimization of an Intraneural Electrode to Interface with the Cervical Vagus Nerve

Neural stimulation hardware for the selective intrafascicular modulation of the vagus nerve

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