Your search keyword '"Barriga-Rivera A"' showing total 26 results

1. An arbitrary waveform neurostimulator for preclinical studies: design and verification.

Author

Guzman-Miranda H and Barriga-Rivera A

Abstract

Neural electrostimulation has enabled different therapies to treat a number of health problems. For example, the cochlear implant allows for recovering the hearing function and deep brain electrostimulation has been proved to reduce tremor in Parkinson's disease. Other approaches such as retinal prostheses are progressing rapidly, as researchers continue to investigate new strategies to activate targeted neurons more precisely. The use of arbitrary current waveform electrosimulation is a promising technique that allows exploiting the differences that exist among different neural types to enable preferential activation. This work presents a two-channel arbitrary waveform neurostimulator designed for visual prosthetics research. A field programmable gate array (FPGA) was employed to control and generate voltage waveforms via digital-to-analog converters. Voltage waveforms were then electrically isolated and converted to current waveforms using a modified Howland amplifier. Shorting of the electrodes was provided using multiplexers. The FPGA gateware was verified to a high level of confidence using a transaction-level modeled testbench, achieving a line coverage of 91.4%. The complete system was tested in saline using silver electrodes with diameters from 200 to 1000 µm. The bandwidth obtained was 30 kHz with voltage compliance ± 15 V. The neurostimulator can be easily scaled up using the provided in/out trigger ports and adapted to other applications with minor modifications., Competing Interests: Declarations. Competing Interest: The authors declare no competing interests., (© 2024. The Author(s).)

Published

2024

2. Polarimetric imaging for the detection of synthetic models of SARS-CoV-2: A proof of concept.

Author

Gomez-Gonzalez E, Muñoz O, Gomez-Martin JC, Aceituno-Castro J, Fernandez-Muñoz B, Navas-Garcia JM, Barriga-Rivera A, Fernandez-Lizaranzu I, Munoz-Gonzalez FJ, Parrilla-Giraldez R, Requena-Lancharro D, Gil-Gamboa P, Ramos JL, Rosell-Valle C, Gomez-Gonzalez C, Martin-Lopez M, Relimpio-Lopez MI, Perales-Esteve MA, Puppo-Moreno A, Garcia-Cozar FJ, Olvera-Collantes L, de Los Santos-Trigo S, Gomez E, Sanchez-Pernaute R, Padillo-Ruiz J, and Marquez-Rivas J

Abstract

Objective: To conduct a proof-of-concept study of the detection of two synthetic models of severe acute respiratory syndrome coronavirus 2 (SARS-CoV-2) using polarimetric imaging., Approach: Two SARS-CoV-2 models were prepared as engineered lentiviruses pseudotyped with the G protein of the vesicular stomatitis virus, and with the characteristic Spike protein of SARS-CoV-2. Samples were prepared in two biofluids (saline solution and artificial saliva), in four concentrations, and deposited as 5-µL droplets on a supporting plate. The angles of maximal degree of linear polarization (DLP) of light diffusely scattered from dry residues were determined using Mueller polarimetry from87 samples at 405 nm and 514 nm. A polarimetric camera was used for imaging several samples under 380-420 nm illumination at angles similar to those of maximal DLP. Per-pixel image analysis included quantification and combination of polarization feature descriptors in 475 samples., Main Results: The angles (from sample surface) of maximal DLP were 3° for 405 nm and 6° for 514 nm. Similar viral particles that differed only in the characteristic spike protein of the SARS-CoV-2, their corresponding negative controls, fluids, and the sample holder were discerned at 10-degree and 15-degree configurations., Significance: Polarimetric imaging in the visible spectrum may help improve fast, non-contact detection and identification of viral particles, and/or other microbes such as tuberculosis, in multiple dry fluid samples simultaneously, particularly when combined with other imaging modalities. Further analysis including realistic concentrations of real SARS-CoV-2 viral particles in relevant human fluids is required. Polarimetric imaging under visible light may contribute to a fast, cost-effective screening of SARS-CoV-2 and other pathogens when combined with other imaging modalities., Competing Interests: Emilio Gomez-Gonzalez reports financial support was provided by Spanish Ministry of Science and Innovation, Institute of Health ‘Carlos III’. Emilio Gomez-Gonzalez reports financial support was provided by Spanish Ministry of Science and Innovation and ERDF. Francisco Jose Garcia-Cozar reports financial support was provided by Spanish Ministry of Science and Innovation, Institute of Health ‘Carlos III’. Alejandro Barriga-Rivera reports financial support was provided by Spanish Ministry of Science and Innovation and ERDF. Olga Muñoz reports financial support was provided by Center of Excellence ‘Severo Ochoa’. Juan Carlos Gomez-Martin reports financial support was provided by Center of Excellence ‘Severo Ochoa’. Jose Luis Ramos reports financial support was provided by Center of Excellence ‘Severo Ochoa’. Olga Muñoz reports financial support was provided by Spanish Ministry of Science and Innovation (LEONIDAS Grant). Juan Carlos Gomez-Martin reports financial support was provided by Spanish Ministry of Science and Innovation (LEONIDAS Grant). Jose Luis Ramos reports financial support was provided by Spanish Ministry of Science and Innovation (LEONIDAS Grant). Emilio Gomez-Gonzalez has patent Apparatus and method for the optical detection of pathogens at a distance pending to Universidad de Sevilla and Andalusian Health Service. Alejandro Barriga-Rivera has patent Apparatus and method for the optical detection of pathogens at a distance pending to Universidad de Sevilla and Andalusian Health Service. Javier Marquez-Rivas has patent Apparatus and method for the optical detection of pathogens at a distance pending to Universidad de Sevilla and Andalusian Health Service. One coauthor serves as Handling Associate Editor for the Journal of Quantitative Spectroscopy & Radiative Transfer - Olga Muñoz, (© 2023 The Author(s).)

Published

2023

3. In Reply: Contactless Ultrasonic Cavitation for the Prevention of Shunt Obstruction in Hydrocephalus: A Proof-of-Concept Study.

Author

Barriga-Rivera A, Gomez-Gonzalez E, and Marquez-Rivas J

Subjects

Humans, Ventriculoperitoneal Shunt, Ultrasonics, Hydrocephalus diagnostic imaging, Hydrocephalus surgery

Published

2023

4. Contactless Ultrasonic Cavitation for the Prevention of Shunt Obstruction in Hydrocephalus: A Proof-of-Concept Study.

Author

Gomez-Gonzalez E, Munoz-Gonzalez FJ, Barriga-Rivera A, Perales-Esteve MA, Guerrero-Claro M, Fernandez-Lizaranzu I, Requena-Lancharro D, Rosales-Martinez M, and Marquez-Rivas J

Subjects

Cerebrospinal Fluid Shunts methods, Humans, Powders, Ultrasonics, Water, Graphite, Hydrocephalus diagnostic imaging, Hydrocephalus etiology, Hydrocephalus surgery

Abstract

Background: Obstructive failure of implanted shunts is the most common complication in the treatment of hydrocephalus. Biological material and debris accumulate in the inner walls of the valve and catheters block the normal flow of the drained cerebrospinal fluid causing severe symptoms with high morbidity and mortality. Unfortunately, at present, there is no effective preventive protocol or cleaning procedure available., Objective: To assess whether externally applied, focused ultrasound beams can be used to resuspend deposits accumulated in brain shunts safely., Methods: A computational model of an implanted brain shunt was implemented to test the initial design parameters of a system comprising several ultrasound transducers. Under laboratory conditions, configurations with 3 and 4 transducers were arranged in a triangle and square pattern with their radiation axis directed towards a target model of the device, 2 catheters and a brain shunt filled with water and deposited graphite powder. The ultrasound beams were then concentrated on the device across a head model., Results: The computational model revealed that by using only 3 transducers, the acoustic field intensity on the valve was approximately twice that on the brain surface suggesting that acoustic cavitation could be selectively achieved. Resuspension of graphite deposits inside the catheters and the valve were then physically demonstrated and video-recorded with no temperature increase., Conclusion: The technology presented here has the potential to be used routinely as a noninvasive, preventive cleaning procedure to reduce the likelihood of obstruction-related events in patients with hydrocephalus treated with an implanted shunt., (Copyright © The Author(s) 2022. Published by Wolters Kluwer Health, Inc. on behalf of Congress of Neurological Surgeons.)

Published

2022

5. Implications of Neural Plasticity in Retinal Prosthesis.

Author

Caravaca-Rodriguez D, Gaytan SP, Suaning GJ, and Barriga-Rivera A

Subjects

Humans, Retinitis Pigmentosa physiopathology, Retinitis Pigmentosa rehabilitation, Treatment Outcome, Neuronal Plasticity physiology, Retinal Degeneration physiopathology, Retinal Degeneration rehabilitation, Visual Prosthesis

Abstract

Retinal degenerative diseases such as retinitis pigmentosa cause a progressive loss of photoreceptors that eventually prevents the affected person from perceiving visual sensations. The absence of a visual input produces a neural rewiring cascade that propagates along the visual system. This remodeling occurs first within the retina. Then, subsequent neuroplastic changes take place at higher visual centers in the brain, produced by either the abnormal neural encoding of the visual inputs delivered by the diseased retina or as the result of an adaptation to visual deprivation. While retinal implants can activate the surviving retinal neurons by delivering electric current, the unselective activation patterns of the different neural populations that exist in the retinal layers differ substantially from those in physiologic vision. Therefore, artificially induced neural patterns are being delivered to a brain that has already undergone important neural reconnections. Whether or not the modulation of this neural rewiring can improve the performance for retinal prostheses remains a critical question whose answer may be the enabler of improved functional artificial vision and more personalized neurorehabilitation strategies.

Published

2022

6. Cross-modal activation of the primary visual cortex by auditory stimulation in RCS rats: considerations in visual prosthesis.

Author

Caravaca-Rodriguez D, Suaning GJ, and Barriga-Rivera A

Subjects

Acoustic Stimulation, Animals, Brain Mapping, Mice, Neuronal Plasticity physiology, Photic Stimulation, Primary Visual Cortex, Rats, Auditory Cortex physiology, Deafness, Retinal Degeneration, Visual Prosthesis

Abstract

An important brain re-wiring, the so-called cross-modal plasticity, occurs during progression of retinal degenerative diseases to compensate for lack of visual input. The visual cortex does not go 'unused', instead it is devoted to processing other sensory modalities. In this study we recorded, in the visual cortex, visual- and auditory-evoked potentials in an anesthetized murine model of retinal degeneration. The latency to the first peak of the recorded local field potentials was used to assess the speed of the response. Visual responses occurred significantly faster in the control group. Conversely, auditory responses appeared significantly faster in animals with retinal degeneration. This suggests the compensatory neural rewiring is optimizing the performance of other sensory modalities, hearing in this case. This phenomenon may play an important role in visual neuro-rehabilitation. Whether or not it can promote or deter the interpretation of artificially encoded neural signals from a visual prosthesis remains to be studied.

Published

2022

7. Optical imaging spectroscopy for rapid, primary screening of SARS-CoV-2: a proof of concept.

Author

Gomez-Gonzalez E, Barriga-Rivera A, Fernandez-Muñoz B, Navas-Garcia JM, Fernandez-Lizaranzu I, Munoz-Gonzalez FJ, Parrilla-Giraldez R, Requena-Lancharro D, Gil-Gamboa P, Rosell-Valle C, Gomez-Gonzalez C, Mayorga-Buiza MJ, Martin-Lopez M, Muñoz O, Gomez-Martin JC, Relimpio-Lopez MI, Aceituno-Castro J, Perales-Esteve MA, Puppo-Moreno A, Garcia-Cozar FJ, Olvera-Collantes L, Gomez-Diaz R, de Los Santos-Trigo S, Huguet-Carrasco M, Rey M, Gomez E, Sanchez-Pernaute R, Padillo-Ruiz J, and Marquez-Rivas J

Subjects

Humans, Point-of-Care Testing, Proof of Concept Study, Exudates and Transudates virology, Mass Screening methods, SARS-CoV-2 isolation & purification, Saliva virology, Spectroscopy, Near-Infrared

Abstract

Effective testing is essential to control the coronavirus disease 2019 (COVID-19) transmission. Here we report a-proof-of-concept study on hyperspectral image analysis in the visible and near-infrared range for primary screening at the point-of-care of SARS-CoV-2. We apply spectral feature descriptors, partial least square-discriminant analysis, and artificial intelligence to extract information from optical diffuse reflectance measurements from 5 µL fluid samples at pixel, droplet, and patient levels. We discern preparations of engineered lentiviral particles pseudotyped with the spike protein of the SARS-CoV-2 from those with the G protein of the vesicular stomatitis virus in saline solution and artificial saliva. We report a quantitative analysis of 72 samples of nasopharyngeal exudate in a range of SARS-CoV-2 viral loads, and a descriptive study of another 32 fresh human saliva samples. Sensitivity for classification of exudates was 100% with peak specificity of 87.5% for discernment from PCR-negative but symptomatic cases. Proposed technology is reagent-free, fast, and scalable, and could substantially reduce the number of molecular tests currently required for COVID-19 mass screening strategies even in resource-limited settings., (© 2022. The Author(s).)

Published

2022

8. Hyperspectral image processing for the identification and quantification of lentiviral particles in fluid samples.

Author

Gomez-Gonzalez E, Fernandez-Muñoz B, Barriga-Rivera A, Navas-Garcia JM, Fernandez-Lizaranzu I, Munoz-Gonzalez FJ, Parrilla-Giraldez R, Requena-Lancharro D, Guerrero-Claro M, Gil-Gamboa P, Rosell-Valle C, Gomez-Gonzalez C, Mayorga-Buiza MJ, Martin-Lopez M, Muñoz O, Martin JCG, Lopez MIR, Aceituno-Castro J, Perales-Esteve MA, Puppo-Moreno A, Cozar FJG, Olvera-Collantes L, de Los Santos-Trigo S, Gomez E, Pernaute RS, Padillo-Ruiz J, and Marquez-Rivas J

Subjects

HEK293 Cells, Humans, Image Processing, Computer-Assisted standards, Lentivirus isolation & purification, Lentivirus pathogenicity, Lentivirus Infections virology, Molecular Diagnostic Techniques standards, Point-of-Care Systems, Saliva virology, Sensitivity and Specificity, Spectroscopy, Near-Infrared standards, Image Processing, Computer-Assisted methods, Lentivirus Infections diagnosis, Molecular Diagnostic Techniques methods, Spectroscopy, Near-Infrared methods

Abstract

Optical spectroscopic techniques have been commonly used to detect the presence of biofilm-forming pathogens (bacteria and fungi) in the agro-food industry. Recently, near-infrared (NIR) spectroscopy revealed that it is also possible to detect the presence of viruses in animal and vegetal tissues. Here we report a platform based on visible and NIR (VNIR) hyperspectral imaging for non-contact, reagent free detection and quantification of laboratory-engineered viral particles in fluid samples (liquid droplets and dry residue) using both partial least square-discriminant analysis and artificial feed-forward neural networks. The detection was successfully achieved in preparations of phosphate buffered solution and artificial saliva, with an equivalent pixel volume of 4 nL and lowest concentration of 800 TU·[Formula: see text]L -1 . This method constitutes an innovative approach that could be potentially used at point of care for rapid mass screening of viral infectious diseases and monitoring of the SARS-CoV-2 pandemic., (© 2021. The Author(s).)

Published

2021

9. Editorial: A Conversation With the Brain: Can We Speak Its Language?

Author

Barriga-Rivera A, Guo T, Hayashida Y, and Suaning GJ

Published

2020

10. Manometric recordings bring out post-stimulus refractory states in the anal canal in neonates.

Author

Lopez-Alonso M, Ribas J, and Barriga-Rivera A

Subjects

Hirschsprung Disease, Humans, Infant, Newborn, Rectum, Reflex, Anal Canal, Manometry

Abstract

Anorectal manometry is a diagnostic technique used to investigate the correct mechanical performance of the internal anal sphincter (IAS). By distending the rectal ampulla while recording changes in the luminal pressure, this method allows for characterizing the anorectal reflex. It can also provide, indirectly, information about the electrical activity of the IAS. In this study, seventeen neonates having 24-hour delayed passage of meconium or presenting distal intestinal obstruction symptoms underwent anorectal manometry to discard Hirschsprung's disease. All patients had normal anorectal reflex. The time delay between stimulation of the rectal ampulla and the relaxation of the anal canal was studied. The average period of the pressure fluctuations was 5.44 ± 0.13s. The overall duration of the relaxation time was 9.71 ± 0.21s. The maximum lag between the onset of the stimulus and the relaxation of the IAS was 2.90 s, and was achieved when the stimulus was applied following a local maximum of the pressure wave. The existence of a refractory period during the suprathreshold depolarization of smooth muscle cells can explain the evidence of a temporal delay between the stimulus and the mechanical response. In occasions, relaxation appeared first distally. This phenomenon can be explained by the arrangement and morphology of bipolar cells, which may evidence the anisotropic propagation of the mechanical activity. These data may contribute to depict the alterations in excitability underlying the relaxation reflex by means of manometric recording of the anal canal.

Published

2018

11. Optic nerve and retinal electrostimulation in rats: direct activation of the retinal ganglion cells.

Author

Barriga-Rivera A, Suaning GJ, Delgado-Garcia JM, and Gruart A

Subjects

Animals, Rats, Retina, Superior Colliculi, Electric Stimulation, Optic Nerve physiology, Retinal Ganglion Cells physiology

Abstract

Visual prosthesis is competing with biological approaches to restore vision to the blind. Understanding and developing the ability to replicate the neural code of the retina are key factors that can bring bionic vision significant advantage. Here, electrically evoked potentials were recorded in anesthetized rats from the dorsal surface of the superior colliculus. Electrical stimuli of different amplitudes were delivered at the retina and the optic nerve. An evoked potential appeared in both cases within the first 5 ms post-stimulus suggesting that this component of the response was initiated by direct activation of the retinal ganglion cells. However, in the case of retinal neurostimulation, a second evoked potential occurred $9.0 \pm 3.4$ ms after the stimulus delivery. Because this component was not present in the case of optic nerve electrostimulation, it is expected to be originated by the activation of other cells in the retinal network.

Published

2018

12. Visual prostheses, optogenetics, stem cell and gene therapies: splitting the cake.

Author

Barriga-Rivera A and Suaning GJ

Abstract

Competing Interests: None declared

Published

2018

13. Long-term anesthetic protocol in rats: feasibility in electrophysiology studies in visual prosthesis.

Author

Barriga-Rivera A, Tatarinoff V, Lovell NH, Morley JW, and Suaning GJ

Subjects

Anesthesia, Inhalation, Anesthesia, Intravenous, Animals, Biomedical Research, Brain surgery, Clinical Protocols, Electric Stimulation, Electrophysiology, Feasibility Studies, Female, Femur surgery, Injections, Intraperitoneal, Isoflurane administration & dosage, Male, Ophthalmologic Surgical Procedures, Rats, Rats, Long-Evans, Retina physiology, Anesthetics administration & dosage, Ketamine administration & dosage, Retina drug effects, Visual Prosthesis, Xylazine administration & dosage

Abstract

Electrical stimulation of excitable cells provides therapeutic benefits for a variety of medical conditions, including restoration of partial vision to those blinded via some types of retinal degeneration. To improve visual percepts elicited by the current technology, researchers are conducting acute electrophysiology experiments, mainly in cats. However, the rat can provide a model of a range of retinal diseases and possesses a sufficiently large eye to be used in this field. This article presents a long-term anesthetic protocol to enable electrophysiology experiments to further the development of visual prostheses. Six Long-Evans rats (aged between 14 and 16 weeks) were included in this study. Surgical anesthesia was maintained for more than 15 h by combining constant intravenous infusion of ketamine (24.0-34.5 mg/kg/h), xylazine (0.9-1.2 mg/kg/h), and inhaled isoflurane in oxygen (<0.5%). Overall heart rate, respiratory rate, and body temperature remained between 187-233 beats/min, 45-58 breaths/min, and 36-38 °C, respectively. Neural responses to 200-ms light pulses were recorded from the superior colliculus using a 32-channel neural probe at the beginning and before termination of the experiment. Robust responses were recorded from distinct functional types of retinal pathways. In addition, a platinum electrode was implanted in the retrobulbar space. The retina was electrically stimulated, and the activation threshold was determined to be 5.24 ± 0.24 μC/cm 2 . This protocol may be used not only in the field of visual prosthesis research, but in other research areas requiring longer term acute experiments., (© 2017 American College of Veterinary Ophthalmologists.)

Published

2018

14. Visual Prosthesis: Interfacing Stimulating Electrodes with Retinal Neurons to Restore Vision.

Author

Barriga-Rivera A, Bareket L, Goding J, Aregueta-Robles UA, and Suaning GJ

Abstract

The bypassing of degenerated photoreceptors using retinal neurostimulators is helping the blind to recover functional vision. Researchers are investigating new ways to improve visual percepts elicited by these means as the vision produced by these early devices remain rudimentary. However, several factors are hampering the progression of bionic technologies: the charge injection limits of metallic electrodes, the mechanical mismatch between excitable tissue and the stimulating elements, neural and electric crosstalk, the physical size of the implanted devices, and the inability to selectively activate different types of retinal neurons. Electrochemical and mechanical limitations are being addressed by the application of electromaterials such as conducting polymers, carbon nanotubes and nanocrystalline diamonds, among other biomaterials, to electrical neuromodulation. In addition, the use of synthetic hydrogels and cell-laden biomaterials is promising better interfaces, as it opens a door to establishing synaptic connections between the electrode material and the excitable cells. Finally, new electrostimulation approaches relying on the use of high-frequency stimulation and field overlapping techniques are being developed to better replicate the neural code of the retina. All these elements combined will bring bionic vision beyond its present state and into the realm of a viable, mainstream therapy for vision loss.

Published

2017

15. Progress in artificial vision through suprachoroidal retinal implants.

Author

Bareket L, Barriga-Rivera A, Zapf MP, Lovell NH, and Suaning GJ

Subjects

Animals, Choroid diagnostic imaging, Choroid physiology, Clinical Trials as Topic methods, Humans, Microelectrodes trends, Photoreceptor Cells physiology, Retina diagnostic imaging, Retina physiology, Retinal Degeneration diagnostic imaging, Choroid surgery, Retina surgery, Retinal Degeneration surgery, Vision, Ocular physiology, Visual Prosthesis trends

Abstract

Retinal implants have proven their ability to restore visual sensation to people with degenerative retinopathy, characterized by photoreceptor cell death and the retina's inability to sense light. Retinal bionics operate by electrically stimulating the surviving neurons in the retina, thus triggering the transfer of visual sensory information to the brain. Suprachoroidal implants were first investigated in Australia in the 1950s. In this approach, the neuromodulation hardware is positioned between the sclera and the choroid, thus providing significant surgical and safety benefits for patients, with the potential to maintain residual vision combined with the artificial input from the device. Here we review the latest advances and state of the art devices for suprachoroidal prostheses, highlight future technologies and discuss challenges and perspectives towards improved rehabilitation of vision.

Published

2017

16. Retinal electrostimulation in rats: Activation thresholds from superior colliculus and visual cortex recordings.

Author

Barriga-Rivera A, Tianruo Guo, Morley JW, Lovell NH, and Suaning GJ

Subjects

Animals, Electric Stimulation, Rats, Rats, Long-Evans, Retinal Ganglion Cells, Superior Colliculi, Visual Cortex, Visual Prosthesis, Retina

Abstract

Retinal neuromodulation is an emerging therapeutic approach to restore functional vision to those suffering retinal photoreceptor degeneration. The retina encodes visual information and transmits it to the brain. Replicating this retinal code through electrical stimulation is essential to improving the performance of visual prostheses. In doing so, the first step relies on precise neural recordings from visual centers that allow studying the response of these neurons to electrical stimulation of the retina. This paper demonstrates the feasibility of a rat model to conduct highly reliable electrophysiological studies in the field of retinal neuromodulation. A disc electrode, implanted in the retrobulbar space was used to stimulate the retina of Long-Evans rats. Buzsaki multi-electro arrays were inserted in the superior colliculus (SC) to record electrical activity propagated from the retinal ganglion cells (RGCs). Activation thresholds calculated from local field potentials (visual cortex) and from neural spikes (SC) were contrasted. Both values were comparable to those in humans and in other animal models, and were slightly higher when estimated from SC recordings. However, differences were not statistically significant.

Published

2017

17. High-amplitude electrical stimulation can reduce elicited neuronal activity in visual prosthesis.

Author

Barriga-Rivera A, Guo T, Yang CY, Abed AA, Dokos S, Lovell NH, Morley JW, and Suaning GJ

Subjects

Animals, Cats, Electric Stimulation Therapy, Electrodes, Implanted, Female, Humans, Male, Mice, Prosthesis Implantation methods, Retinal Ganglion Cells cytology, Stereotaxic Techniques, Vision, Ocular physiology, Visual Cortex cytology, Electric Stimulation methods, Evoked Potentials, Visual physiology, Retinal Ganglion Cells physiology, Visual Cortex physiology, Visual Prosthesis

Abstract

Retinal electrostimulation is promising a successful therapy to restore functional vision. However, a narrow stimulating current range exists between retinal neuron excitation and inhibition which may lead to misperformance of visual prostheses. As the conveyance of representation of complex visual scenes may require neighbouring electrodes to be activated simultaneously, electric field summation may contribute to reach this inhibitory threshold. This study used three approaches to assess the implications of relatively high stimulating conditions in visual prostheses: (1) in vivo, using a suprachoroidal prosthesis implanted in a feline model, (2) in vitro through electrostimulation of murine retinal preparations, and (3) in silico by computing the response of a population of retinal ganglion cells. Inhibitory stimulating conditions led to diminished cortical activity in the cat. Stimulus-response relationships showed non-monotonic profiles to increasing stimulating current. This was observed in vitro and in silico as the combined response of groups of neurons (close to the stimulating electrode) being inhibited at certain stimulating amplitudes, whilst other groups (far from the stimulating electrode) being recruited. These findings may explain the halo-like phosphene shapes reported in clinical trials and suggest that simultaneous stimulation in retinal prostheses is limited by the inhibitory threshold of the retinal ganglion cells.

Published

2017

18. [The binomial symptom index for the evaluation of temporal association between cardiorespiratory symptoms and gastroesophageal reflux in neonates].

Author

Barriga-Rivera A, Moya MJ, and Lopez-Alonso M

Subjects

Child, Preschool, Female, Gastroesophageal Reflux surgery, Humans, Infant, Infant, Newborn, Male, Models, Statistical, Gastroesophageal Reflux complications, Gastroesophageal Reflux diagnosis, Heart Diseases complications, Respiration Disorders complications, Symptom Assessment

Abstract

Introduction: The evaluation of symptom association between gastroesophageal reflux and cardiorespiratory events in preterm infants remains unclear. This paper describes a conservative approach to decision-making of anti-reflux surgery through symptom association analysis., Methods: Forty-three neonates with potentially reflux-related cardiorespiratory symptoms underwent synchronized esophageal impedance-pH and cardiorespiratory monitoring. Three indices were considered to evaluate symptom association, the symptom index (SI), the symptom sensitivity index (SSI) and the symptom association probability (SAP). A conservative strategy was adopted regarding the decision of anti-reflux surgery, and therefore, patients were scheduled for laparoscopic Nissen fundoplication if the three indices showed a positive assessment of symptom association. Retrospectively, these indices and the binomial symptom index (BSI) were contrasted against the decision of anti-reflux surgery using different windows of association., Results: Thirteen patients showed positive symptom association but only two underwent anti-reflux surgery. The SI and the SSI showed an increasing trend with the width of the window of association. The SAP was affected randomly by slightly altering the windowing parameters. The BSI showed the best performance with the two-minute window (κ =0.78) CONCLUSIONS: The pathology under study is known to improve with maturity. However, the severity of cardiorespiratory symptoms may threaten the neonate's life and therefore, in some occasions, invasive treatments must be considered to protect life. The BSI provides a good prediction of a combination of positive SI, SSI and SAP, which may improve clinical decisions. However, further clinical studies are required to prove the BSI as an optimal predictor of clinical outcomes., (Copyright © 2015 Asociación Española de Pediatría. Publicado por Elsevier España, S.L.U. All rights reserved.)

Published

2016

19. Cortical responses following simultaneous and sequential retinal neurostimulation with different return configurations.

Author

Barriga-Rivera A, Morley JW, Lovell NH, and Suaning GJ

Subjects

Animals, Cats, Electric Stimulation, Retina physiology, Visual Cortex physiology, Visual Prosthesis

Abstract

Researchers continue to develop visual prostheses towards safer and more efficacious systems. However limitations still exist in the number of stimulating channels that can be integrated. Therefore there is a need for spatial and time multiplexing techniques to provide improved performance of the current technology. In particular, bright and high-contrast visual scenes may require simultaneous activation of several electrodes. In this research, a 24-electrode array was suprachoroidally implanted in three normally-sighted cats. Multi-unit activity was recorded from the primary visual cortex. Four stimulation strategies were contrasted to provide activation of seven electrodes arranged hexagonally: simultaneous monopolar, sequential monopolar, sequential bipolar and hexapolar. Both monopolar configurations showed similar cortical activation maps. Hexapolar and sequential bipolar configurations activated a lower number of cortical channels. Overall, the return configuration played a more relevant role in cortical activation than time multiplexing and thus, rapid sequential stimulation may assist in reducing the number of channels required to activate large retinal areas.

Published

2016

20. The Effect of Electric Cross-Talk in Retinal Neurostimulation.

Author

Matteucci PB, Barriga-Rivera A, Eiber CD, Lovell NH, Morley JW, and Suaning GJ

Subjects

Animals, Blindness physiopathology, Cats, Disease Models, Animal, Electric Stimulation instrumentation, Prosthesis Design, Retina physiopathology, Blindness rehabilitation, Electric Stimulation methods, Evoked Potentials, Visual physiology, Implantable Neurostimulators, Visual Prosthesis

Abstract

Purpose: To investigate the efficacy of electric field shaping in modulating the extent and activation threshold in retinal neurostimulation. This study aims to quantify the interference of neighboring stimulation sites by assessing the shift in the activation threshold produced by a concomitant interfering stimulus., Methods: Electrical stimuli were applied to healthy retinae in a feline model (n = 4) using a 24-channel electrode array surgically implanted in the suprachoroidal space. A 96-channel penetrating electrode array was used for recording cortical responses to a number of stimulation paradigms. Data were analyzed offline. Concurrent monopolar and hexapolar stimuli were delivered at primary and interfering sites separated by up to 2.19 mm to evaluate electric cross-talk. The spike rate was fit to a sigmoidal curve to estimate the P50 threshold. The slope of the linear regression of the P50 value versus interfering current level was considered as a measure of cross-talk., Results: Concurrent monopolar stimulation produced a proportional drop in the P50 of approximately 20% of the interfering current level in presence of a primary monopolar and hexapolar stimulus. On the other hand, hexapolar interference did not alter activation thresholds at the primary site., Conclusions: Hexapolar stimulation reduces electric cross-talk between neighboring sites and represents a technique to reduce interference between individual stimulation sites. In contrast, concurrent monopolar stimulation produces a reduction of the activation threshold of stimuli delivered nearby. Thus, a single source of subthreshold monopolar charge injection can provide benefit in the form of significant threshold reduction simultaneously at multiple stimulation sites.

Published

2016

21. Inter-reflux and bolus clearance times in non-pathologic pediatric patients: data support computational models.

Author

Barriga-Rivera A, Moya MJ, Elena M, and Lopez-Alonso M

Subjects

Child, Preschool, Electric Impedance, Enteral Nutrition, Female, Humans, Hydrogen-Ion Concentration, Infant, Infant, Newborn, Infant, Premature, Likelihood Functions, Male, Monitoring, Physiologic methods, Monitoring, Physiologic statistics & numerical data, Poisson Distribution, Reference Values, Retrospective Studies, Esophagus physiology, Gastroesophageal Reflux physiopathology

Abstract

Previous contributions suggested that gastroesophageal reflux can be modeled in terms of a Poisson process. This study aims to provide empirical data to validate this statement in pediatric patients so that computational models can be broadly used as an alternative for research. A retrospective review of 63 pediatric patients who underwent 24-hour impedance-pH monitoring to discard gastroesophageal reflux disease was conducted in this study. Patients were grouped by age as preterm (21), infants (21), and children (21). All the tracings were analyzed by a trained physician who identified the reflux entry and the bolus clearance time of each episode. The time between reflux episodes was tested against three probability distributions (gamma, exponential and inverse Gaussian) whereas the bolus clearance time was tested against a normal probability distribution. Parameters were estimated using the maximum likelihood method. The Kolmogorov-Smirnov test and the Kullback-Leibler divergence were computed to evaluate the goodness of fit. One-way analysis of variance was applied to compare results along the three groups. Exponential fitting for inter-reflux time was successful in 90.48% of children older than 1 year. The overall reflux rate was 57.58 reflux episodes per day whereas the mean bolus clearance time ranged between 10.87 in preterm subjects and 12.05 in children, showing a good Gaussian fitting. The time between reflux episodes can be modeled in terms of a Poisson process in non tube-fed patients, whereas the bolus clearance time follows a normal distribution in all cases., (© 2014 International Society for Diseases of the Esophagus.)

Published

2015

22. Electrically evoked potentials in an ovine model for the evaluation of visual prosthesis efficacy.

Author

Barriga-Rivera A, Eiber CD, Dodds CW, Fung AT, Tatarinoff V, Lovell NH, and Suaning GJ

Subjects

Animals, Blindness, Choroid physiology, Electric Stimulation instrumentation, Equipment Design, Humans, Male, Retina physiology, Sheep, Vision, Ocular, Visual Cortex physiology, Electrodes, Implanted, Evoked Potentials physiology, Visual Prosthesis

Abstract

Visual prostheses are becoming a reality as a therapy to restore functional vision to the blind. New stimulation strategies and novel electrode designs are contributing to accelerate the development of such devices triggering the interest of scientists, clinicians and the blind community worldwide. In this scenario, there is a need for large animal models that are suitable for preclinical testing of retinal neuroprostheses. This study presents an electrophysiology assessment of an ovine model for single and simultaneous electrode stimulation from the suprachoroidal space, using symmetric biphasic current pulses with a monopolar return configuration. Visually and electrically evoked potentials were recorded using supradural surface electrodes, showing charge thresholds comparable to those in humans. This model represents an alternative to feline or canine models with analogous activation levels and an eye anatomy similar to that of humans.

Published

2015

23. Monte Carlo method for the evaluation of symptom association.

Author

Barriga-Rivera A, Elena M, Moya MJ, and Lopez-Alonso M

Subjects

Humans, Probability, Severity of Illness Index, Time Factors, Computer Simulation, Gastroesophageal Reflux complications, Models, Statistical, Monte Carlo Method

Abstract

Gastroesophageal monitoring is limited to 96 hours by the current technology. This work presents a computational model to investigate symptom association in gastroesophageal reflux disease with larger data samples proving important deficiencies of the current methodology that must be taking into account in clinical evaluation. A computational model based on Monte Carlo analysis was implemented to simulate patients with known statistical characteristics Thus, sets of 2000 10-day-long recordings were simulated and analyzed using the symptom index (SI), the symptom sensitivity index (SSI), and the symptom association probability (SAP). Afterwards, linear regression was applied to define the dependency of these indexes with the number of reflux, the number of symptoms, the duration of the monitoring, and the probability of association. All the indexes were biased estimators of symptom association and therefore they do not consider the effect of chance: when symptom and reflux were completely uncorrelated, the values of the indexes under study were greater than zero. On the other hand, longer recording reduced variability in the estimation of the SI and the SSI while increasing the value of the SAP. Furthermore, if the number of symptoms remains below one-tenth of the number of reflux episodes, it is not possible to achieve a positive value of the SSI. A limitation of this computational model is that it does not consider feeding and sleeping periods, differences between reflux episodes or causation. However, the conclusions are not affected by these limitations. These facts represent important limitations in symptom association analysis, and therefore, invasive treatments must not be considered based on the value of these indexes only until a new methodology provides a more reliable assessment., (© 2012 Copyright the Authors. Journal compilation © 2012, Wiley Periodicals, Inc. and the International Society for Diseases of the Esophagus.)

Published

2014

24. The binomial symptom index: toward an optimal method for the evaluation of symptom association in gastroesophageal reflux.

Author

Barriga-Rivera A, Elena M, Moya MJ, and Lopez-Alonso M

Subjects

Gastroesophageal Reflux physiopathology, Humans, Monitoring, Ambulatory methods, Time Factors, Gastroesophageal Reflux diagnosis, Models, Statistical, Monitoring, Ambulatory standards, Monte Carlo Method

Abstract

Background: The evaluation of symptom association in gastroesophageal reflux is an open problem. The scientific literature reports important deficiencies and clinicians are claiming a new methodology. This article provides an optimal method for the evaluation of symptom association, the binomial symptom index (BSI)., Methods: A mathematical description of the BSI was presented for the study of association and causality. A total of n = 850,000 patients were simulated using a Monte Carlo model to perform a two-way sensitivity analysis. The average and the standard deviation of the BSI were evaluated in groups of 5000 patients with the same values of the reflux rate, symptom rate, association ratio, window of association, and monitoring time in order to contrast their influence on the estimator., Key Results: The BSI decreased with the number of reflux episodes when there was association, and remained constant and below 40% when there was not. The standard deviation was no higher than 40% and decreased with the reflux or symptom rates, and more sharply with the monitoring time, reaching approximately 0% for 50 days. A window length matching the characteristic reflux-symptom lag maximized the overall BSI and minimized its dispersion. Twenty-four hour and 96-h monitorings allowed detecting association ratios of 50% and 25%, respectively., Conclusions & Inferences: The BSI is a simple and reliable index for the evaluation of symptom association that considers all the parameters under analysis. Defining an appropriate cut-off value, the BSI can provide a measure of probability and strength of association simultaneously., (© 2013 John Wiley & Sons Ltd.)

Published

2013

25. Software for symptom association analysis in pediatric gastroesophageal reflux disease.

Author

Barriga-Rivera A, Elena M, Moya MJ, and Lopez-Alonso M

Subjects

Apnea etiology, Bradycardia etiology, Electric Impedance, Esophageal pH Monitoring, Gastroesophageal Reflux complications, Humans, Hypoxia blood, Hypoxia etiology, Infant, Newborn, Monitoring, Physiologic, Oxygen blood, Diagnosis, Computer-Assisted statistics & numerical data, Gastroesophageal Reflux diagnosis, Software

Abstract

Gastroesophageal reflux (GER) disease is a serious complication of the upper gastrointestinal tract. Cardiorespiratory symptoms such as apnea, oxygen desaturation and bradycardia may be related to GER. Thus, the recommended diagnostic methodology in pediatric patients requires 24-h synchronized esophageal and cardiorespiratory monitoring. However, there is no computer tool available for this purpose and therefore, researchers and physicians are forced to seek for customized solutions. This paper presents an open source computer program for the analysis of symptom association. It allows a convenient visualization of the biological signals and implements the three main metrics for symptom association, that is, the symptom index, the symptom sensitivity index and the symptom association probability. This software represents a flexible solution and will facilitate caregivers an easy assessment of the existence of temporal association between GER and cardiorespiratory episodes. This would ideally reduce inappropriate medical and surgical treatments and would provide an early diagnosis of the medical condition., (Copyright © 2013 Elsevier Ireland Ltd. All rights reserved.)

Published

2013

26. Digital image processing for visual prosthesis: filtering implications.

Author

Barriga-Rivera A and Suaning GJ

Subjects

Algorithms, Electric Stimulation, Humans, Visual Prosthesis

Abstract

Investigators around the world are working on retinal neurostimulation as it may restore functional vision to the blind. The image is captured by a camera and after being processed, a series of electrical stimuli are applied to the surviving ganglion cells of the retina. This visual perception is expected to have low resolution. Therefore, there is a need of new algorithms that present the information contained in a visual scene understandable to humans. This study presents a novel multi-resolution algorithm based on wavelet analysis to extract the useful features of an image. Participants in this experiment were able to configure a filter bank to complete a set of everyday tasks. This study shows that wavelet-based algorithms may facilitate improved functional performance in prosthetic vision.

Published

2011