Neurosensory Prosthetics: An Integral Neuromodulation Part of Bioelectronic Device

Bioelectronic medicines (BEMs) constitute a branch of bioelectronic devices (BEDs), which are a class of therapeutics that combine neuroscience with molecular biology, immunology, and engineering technologies. Thus, BEMs are the culmination of thought processes of scientists of varied fields and her...

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Veröffentlicht in:Frontiers in neuroscience Jg. 15; S. 671767
Hauptverfasser: Ezeokafor, Ifeoma, Upadhya, Archana, Shetty, Saritha
Format: Journal Article
Sprache:Englisch
Veröffentlicht: Lausanne Frontiers Research Foundation 16.11.2021
Frontiers Media S.A
Schlagworte:
auditory implants
Auditory pathways
bioelectronic devices
bioelectronic medicine
Biomedical materials
Carbon
Chronic illnesses
Deep brain stimulation
Diagnostic agents
Electrodes
Inflammation
Mimicry
Nervous system
Neural networks
Neuromodulation
Neurons
Neuroscience
Optic nerve
Photoreceptors
Physical properties
Prostheses
Prosthetics
Proteins
Quality of life
Retina
retinal implants
Sensory systems
Spinal nerves
Transplants & implants
Vagus nerve
vagus nerve stimulation
ISSN:1662-453X, 1662-4548, 1662-453X
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Abstract Bioelectronic medicines (BEMs) constitute a branch of bioelectronic devices (BEDs), which are a class of therapeutics that combine neuroscience with molecular biology, immunology, and engineering technologies. Thus, BEMs are the culmination of thought processes of scientists of varied fields and herald a new era in the treatment of chronic diseases. BEMs work on the principle of neuromodulation of nerve stimulation. Examples of BEMs based on neuromodulation are those that modify neural circuits through deep brain stimulation, vagal nerve stimulation, spinal nerve stimulation, and retinal and auditory implants. BEDs may also serve as diagnostic tools by mimicking human sensory systems. Two examples of in vitro BEDs used as diagnostic agents in biomedical applications based on in vivo neurosensory circuits are the bioelectronic nose and bioelectronic tongue. The review discusses the ever-growing application of BEDs to a wide variety of health conditions and practices to improve the quality of life.
AbstractList Bioelectronic medicines (BEMs) constitute a branch of bioelectronic devices (BEDs), which are a class of therapeutics that combine neuroscience with molecular biology, immunology, and engineering technologies. Thus, BEMs are the culmination of thought processes of scientists of varied fields and herald a new era in the treatment of chronic diseases. BEMs work on the principle of neuromodulation of nerve stimulation. Examples of BEMs based on neuromodulation are those that modify neural circuits through deep brain stimulation, vagal nerve stimulation, spinal nerve stimulation, and retinal and auditory implants. BEDs may also serve as diagnostic tools by mimicking human sensory systems. Two examples of in vitro BEDs used as diagnostic agents in biomedical applications based on in vivo neurosensory circuits are the bioelectronic nose and bioelectronic tongue. The review discusses the ever-growing application of BEDs to a wide variety of health conditions and practices to improve the quality of life.Bioelectronic medicines (BEMs) constitute a branch of bioelectronic devices (BEDs), which are a class of therapeutics that combine neuroscience with molecular biology, immunology, and engineering technologies. Thus, BEMs are the culmination of thought processes of scientists of varied fields and herald a new era in the treatment of chronic diseases. BEMs work on the principle of neuromodulation of nerve stimulation. Examples of BEMs based on neuromodulation are those that modify neural circuits through deep brain stimulation, vagal nerve stimulation, spinal nerve stimulation, and retinal and auditory implants. BEDs may also serve as diagnostic tools by mimicking human sensory systems. Two examples of in vitro BEDs used as diagnostic agents in biomedical applications based on in vivo neurosensory circuits are the bioelectronic nose and bioelectronic tongue. The review discusses the ever-growing application of BEDs to a wide variety of health conditions and practices to improve the quality of life.
Bioelectronic medicines (BEMs) constitute a branch of bioelectronic devices (BEDs), which are a class of therapeutics that combine neuroscience with molecular biology, immunology, and engineering technologies. Thus, BEMs are the culmination of thought processes of scientists of varied fields and herald a new era in the treatment of chronic diseases. BEMs work on the principle of neuromodulation of nerve stimulation. Examples of BEMs based on neuromodulation are those that modify neural circuits through deep brain stimulation, vagal nerve stimulation, spinal nerve stimulation, and retinal and auditory implants. BEDs may also serve as diagnostic tools by mimicking human sensory systems. Two examples of in vitro BEDs used as diagnostic agents in biomedical applications based on in vivo neurosensory circuits are the bioelectronic nose and bioelectronic tongue. The review discusses the ever-growing application of BEDs to a wide variety of health conditions and practices to improve the quality of life.
Bioelectronic medicines (BEMs) constitute a branch of bioelectronic devices (BEDs), are a class of therapeutics that combine neuroscience with molecular biology, immunology, and engineering technologies. Thus, BEMs are the culmination of the thought processes of scientists of varied fields and herald a new era in the treatment of chronic diseases. BEMs work on the principle of neuromodulation of nerve stimulation. Examples of BEMs based on neuromodulation are those which modify neural circuits through deep brain stimulation, vagal nerve stimulation, spinal nerve stimulation, retinal and auditory implants. BEDs may also serve as diagnostic tools by mimicking human sensory systems. Two examples of in-vitro BEDs used as diagnostic agents in biomedical applications based on in-vivo neuro-sensory circuits, are the bioelectronic nose and bioelectronic tongue. The review discusses the ever-growing applications of BEDs to a wide variety of health conditions and practices to improve quality of life.
Bioelectronic medicines (BEMs) constitute a branch of bioelectronic devices (BEDs), which are a class of therapeutics that combine neuroscience with molecular biology, immunology, and engineering technologies. Thus, BEMs are the culmination of thought processes of scientists of varied fields and herald a new era in the treatment of chronic diseases. BEMs work on the principle of neuromodulation of nerve stimulation. Examples of BEMs based on neuromodulation are those that modify neural circuits through deep brain stimulation, vagal nerve stimulation, spinal nerve stimulation, and retinal and auditory implants. BEDs may also serve as diagnostic tools by mimicking human sensory systems. Two examples of in vitro BEDs used as diagnostic agents in biomedical applications based on in vivo neurosensory circuits are the bioelectronic nose and bioelectronic tongue. The review discusses the ever-growing application of BEDs to a wide variety of health conditions and practices to improve the quality of life.
Author Ezeokafor, Ifeoma
Shetty, Saritha
Upadhya, Archana
AuthorAffiliation Shobhaben Pratapbhai Patel School of Pharmacy & Technology Management, Shri Vile Parle Kelavani Mandal (SVKM) Narsee Monjee Institute of Management Studies (NMiMS) (SVKM’S NMiMS) , Mumbai , India
AuthorAffiliation_xml – name: Shobhaben Pratapbhai Patel School of Pharmacy & Technology Management, Shri Vile Parle Kelavani Mandal (SVKM) Narsee Monjee Institute of Management Studies (NMiMS) (SVKM’S NMiMS) , Mumbai , India
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  surname: Ezeokafor
  fullname: Ezeokafor, Ifeoma
– sequence: 2
  givenname: Archana
  surname: Upadhya
  fullname: Upadhya, Archana
– sequence: 3
  givenname: Saritha
  surname: Shetty
  fullname: Shetty, Saritha
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Snippet Bioelectronic medicines (BEMs) constitute a branch of bioelectronic devices (BEDs), which are a class of therapeutics that combine neuroscience with molecular...
Bioelectronic medicines (BEMs) constitute a branch of bioelectronic devices (BEDs), are a class of therapeutics that combine neuroscience with molecular...
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StartPage 671767
SubjectTerms auditory implants
Auditory pathways
bioelectronic devices
bioelectronic medicine
Biomedical materials
Carbon
Chronic illnesses
Deep brain stimulation
Diagnostic agents
Electrodes
Inflammation
Mimicry
Nervous system
Neural networks
Neuromodulation
Neurons
Neuroscience
Optic nerve
Photoreceptors
Physical properties
Prostheses
Prosthetics
Proteins
Quality of life
Retina
retinal implants
Sensory systems
Spinal nerves
Transplants & implants
Vagus nerve
vagus nerve stimulation
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