REAC Technology: Neuro and Biomodulation Protocols.
| Autor(a) principal: | |
|---|---|
| Data de Publicação: | 2021 |
| Outros Autores: | , |
| Tipo de documento: | Artigo |
| Idioma: | por |
| Título da fonte: | Brazilian Journal of Implantology and Health Sciences |
| Texto Completo: | https://bjihs.emnuvens.com.br/bjihs/article/view/195 |
Resumo: | The Asymmetric Radioelectric Converter - REAC (acronym of the term in English Radioelectric Asymmetric Conveyer) is a radiofrequency equipment whose interaction with the body allows the reorganization of cell polarity, through the rebalancing of endogenous bioelectric fields, functionally modulating adaptive responses. 1,2,3 The uniqueness of the REAC is not exactly the emission of radiofrequency waves, but the physical link created between the patient's body and the device whose contact it establishes. The therapeutic use of REAC technology is established through an electrical gradient that adjusts ionic fluxes and optimizes molecular mechanisms, regulating the asymmetry and polarity of cells. 1,4,5 REAC neuromodulation emits a radiofrequency field in the 5.8 GHz band applied through a handle acting at cortical levels, whereas biomodulation protocols are used locally based on a 2.4 Hz frequency, applied by cables multiprobes in a body area limited by a laminar probe.1,2 Thus, the difference between the protocols is the frequency used and not necessarily the applied area, such as the Cervicobrachial Neuropsychophysical Optimization (NPPO-CB), which is a neuromodulation protocol applied in a region limited by a laminar probe 3 (Figure 1). Figure 1. Schematic representation of the application of biomodulation and neuromodulation protocols by REAC technology. REAC Technology (A); Emission of radio frequency waves (B); Handle for applying neuromodulation (C); Specific point of the neuropostural optimization protocol (NPO), in the direction of the draft in the pinna, indicated by the green dot in the numeral 1 (D); Seven application points of the neuropsychophysical optimization protocol (NPPO) in the pinna (E); Multiprobe cables connected to the laminar sheet in the tissue secured by a mesh for the application of biomodulation protocols (F). GHz. Source: Authors, 2021. Biomodulation consists of a set of protocols called Basic Tissue Optimization (TO-B), Reparative Tissue Optimization (TO-RPR), Regenerative Tissue Optimization (TO-RGN), Neuro-Regenerative Tissue Optimization (TO-RGN-N) and Optimization Chondral Regenerative Tissue (TO-RGN-C), these protocols are applied through a laminar probe, connected by multi-probe cables directly to the equipment, over a specific area of the body. 4,5,6,7,8,9,10,11 Studies have shown the effects of neuro and radioelectric biomodulation by REAC technology in reducing neuronal damage, with positive results for the nervous system, neurological and neurodegenerative diseases 10, as well as in the treatment of generalized anxiety disorders,12 effects of proliferation, migration and cell organization and healing, 9,11 expression of cardiogenic, myogenic, adipogenic, osteogenic, vasculogenic and neuronal genes,2,7,13 immune response modulation, 14,10 cell antisenescence 14,9 and induction of cell differentiation are among the results observed 15 The reprogramming and optimization of endogenous bioelectricity allows accessing epigenetic processes and therefore gene expression, in contrast to inflammatory, senescent and neurodegenerative patterns, thus establishing a range of perspectives and options for applicability in various health conditions for REAC technology, leaving move towards a greater contingent of clinical trials 16,4,17 |
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REAC Technology: Neuro and Biomodulation Protocols.Tecnologia REAC: Protocolos de Neuro e Biomodulação. BiomodulaçãoTecnologia REACLaserBiomodulation; REAC Technology; LaserThe Asymmetric Radioelectric Converter - REAC (acronym of the term in English Radioelectric Asymmetric Conveyer) is a radiofrequency equipment whose interaction with the body allows the reorganization of cell polarity, through the rebalancing of endogenous bioelectric fields, functionally modulating adaptive responses. 1,2,3 The uniqueness of the REAC is not exactly the emission of radiofrequency waves, but the physical link created between the patient's body and the device whose contact it establishes. The therapeutic use of REAC technology is established through an electrical gradient that adjusts ionic fluxes and optimizes molecular mechanisms, regulating the asymmetry and polarity of cells. 1,4,5 REAC neuromodulation emits a radiofrequency field in the 5.8 GHz band applied through a handle acting at cortical levels, whereas biomodulation protocols are used locally based on a 2.4 Hz frequency, applied by cables multiprobes in a body area limited by a laminar probe.1,2 Thus, the difference between the protocols is the frequency used and not necessarily the applied area, such as the Cervicobrachial Neuropsychophysical Optimization (NPPO-CB), which is a neuromodulation protocol applied in a region limited by a laminar probe 3 (Figure 1). Figure 1. Schematic representation of the application of biomodulation and neuromodulation protocols by REAC technology. REAC Technology (A); Emission of radio frequency waves (B); Handle for applying neuromodulation (C); Specific point of the neuropostural optimization protocol (NPO), in the direction of the draft in the pinna, indicated by the green dot in the numeral 1 (D); Seven application points of the neuropsychophysical optimization protocol (NPPO) in the pinna (E); Multiprobe cables connected to the laminar sheet in the tissue secured by a mesh for the application of biomodulation protocols (F). GHz. Source: Authors, 2021. Biomodulation consists of a set of protocols called Basic Tissue Optimization (TO-B), Reparative Tissue Optimization (TO-RPR), Regenerative Tissue Optimization (TO-RGN), Neuro-Regenerative Tissue Optimization (TO-RGN-N) and Optimization Chondral Regenerative Tissue (TO-RGN-C), these protocols are applied through a laminar probe, connected by multi-probe cables directly to the equipment, over a specific area of the body. 4,5,6,7,8,9,10,11 Studies have shown the effects of neuro and radioelectric biomodulation by REAC technology in reducing neuronal damage, with positive results for the nervous system, neurological and neurodegenerative diseases 10, as well as in the treatment of generalized anxiety disorders,12 effects of proliferation, migration and cell organization and healing, 9,11 expression of cardiogenic, myogenic, adipogenic, osteogenic, vasculogenic and neuronal genes,2,7,13 immune response modulation, 14,10 cell antisenescence 14,9 and induction of cell differentiation are among the results observed 15 The reprogramming and optimization of endogenous bioelectricity allows accessing epigenetic processes and therefore gene expression, in contrast to inflammatory, senescent and neurodegenerative patterns, thus establishing a range of perspectives and options for applicability in various health conditions for REAC technology, leaving move towards a greater contingent of clinical trials 16,4,17 O Conversor Radioelétrico Assimétrico - REAC (acrônimo do termo em inglês Radioelectric Asymmetric Conveyer) é um equipamento de radiofrequência cuja interação com o organismo permite reorganizar a polaridade celular, por meio do reequilíbrio dos campos bioelétricos endógenos, modulando funcionalmente as respostas adaptativas. 1,2,3 A singularidade do REAC não é propriamente a emissão das ondas de radiofrequência, mas sim o elo físico criado entre o corpo do paciente e o dispositivo cujo contato estabelece. O uso terapêutico da tecnologia REAC se estabelece por meio de um gradiente elétrico que ajusta fluxos iônicos e otimiza os mecanismos moleculares, regulando a assimetria e polaridade das células. 1,4,5 A neuromodulação REAC emite um campo de radiofrequência na faixa de 5,8 GHz aplicados por meio de um manípulo atuando em níveis corticais, já os protocolos de biomodulação são utilizados de forma local com base em uma frequência de 2,4 Hz, aplicados por cabos multisondas em uma área corporal limitada por uma sonda laminar.1,2 Dessa forma, a diferença entre os protocolos é a frequência utilizada e não necessariamente a área aplicada, como por exemplo, a Otimização Neuropsicofísica Cervicobraquial (NPPO-CB), que é um protocolo de neuromodulação aplicado em uma região limitada por uma sonda laminar 3 (Figura 1). Figura 1. Representação esquemática da aplicação dos protocolos de biomodulação e neuromodulação pela tecnologia REAC. Tecnologia REAC (A); Emissão de ondas de radiofrequência (B); Manípulo para aplicação da neuromodulação (C); Ponto específico do protocolo de otimização neuropostural (NPO), na direção do trago no pavilhão auricular, indicado pelo ponto em verde no algarismo 1 (D); Sete pontos de aplicação do protocolo de otimização neuropsicofísica (NPPO) no pavilhão auricular (E); Cabos multisonda conectados à folha laminar no tecido presos por uma malha para aplicação dos protocolos de biomodulação (F). GHz. Fonte: Autores, 2021. A biomodulação consiste em um conjunto de protocolos denominados Otimização Tecidual Base (TO-B), Otimização Tecidual Reparativa (TO-RPR), Otimização Tecidual Regenerativa (TO-RGN), Otimização Tecidual Neuro-Regenerativa (TO-RGN-N) e Otimização Tecidual Regenerativa Condral (TO-RGN-C), estes protocolos são aplicados por meio de uma sonda laminar, conectada por cabos multisonda diretamente ao equipamento, sobre uma área específica do corpo. 4,5, 6,7,8,9,10,11 Estudos evidenciaram os efeitos da neuro e da biomodulação radioelétrica pela tecnologia REAC na redução de danos neuronal, com resultados positivos para o sistema nervoso, doenças neurológicas e neurodegenerativas 10, bem como no tratamento de transtornos de ansiedade generalizada,12 efeitos de proliferação, migração e organização celular e cicatrização, 9,11 expressão de genes cardiogênicos, miogênicos, adipogênicos, osteogênicos, vasculogênicos e neuronais,2,7,13 modulação de resposta imune, 14,10 antissenescência celular 14,9 e indução de diferenciação celular estão entre os resultados observados 15 A reprogramação e otimização da bioeletricidade endógena permite acessar processos epigenéticos e por conseguinte a expressão gênica, em contraste com padrões inflamatórios, senescentes e neurodegenerativos, estabelecendo assim um leque de perspectivas e opções de aplicabilidade em diversas condições de saúde para tecnologia REAC, restando-se avançar na direção de um maior contingente de estudos clínicos 16,4,17Specialized Dentistry Group2021-10-02info:eu-repo/semantics/articleinfo:eu-repo/semantics/publishedVersionapplication/pdfhttps://bjihs.emnuvens.com.br/bjihs/article/view/19510.36557/2674-8169.2021v3n9p01-05Brazilian Journal of Implantology and Health Sciences ; Vol. 3 No. 9 (2021): September 2021; 01-05Brazilian Journal of Implantology and Health Sciences ; Vol. 3 Núm. 9 (2021): Setembro de 2021; 01-05Brazilian Journal of Implantology and Health Sciences ; v. 3 n. 9 (2021): Setembro de 2021; 01-052674-8169reponame:Brazilian Journal of Implantology and Health Sciencesinstname:Grupo de Odontologia Especializada (GOE)instacron:GOEporhttps://bjihs.emnuvens.com.br/bjihs/article/view/195/259Copyright (c) 2021 Ester Suane Lima Monteiro , João Douglas Quaresma de Oliveira , Ana Rita Pinheiro Barcessathttps://creativecommons.org/licenses/by/4.0info:eu-repo/semantics/openAccessLima Monteiro , Ester Suane Quaresma de Oliveira , João Douglas Pinheiro Barcessat, Ana Rita 2023-03-03T16:36:29Zoai:ojs.bjihs.emnuvens.com.br:article/195Revistahttps://bjihs.emnuvens.com.br/bjihsONGhttps://bjihs.emnuvens.com.br/bjihs/oaijournal.bjihs@periodicosbrasil.com.br2674-81692674-8169opendoar:2023-03-03T16:36:29Brazilian Journal of Implantology and Health Sciences - Grupo de Odontologia Especializada (GOE)false |
| dc.title.none.fl_str_mv |
REAC Technology: Neuro and Biomodulation Protocols. Tecnologia REAC: Protocolos de Neuro e Biomodulação. |
| title |
REAC Technology: Neuro and Biomodulation Protocols. |
| spellingShingle |
REAC Technology: Neuro and Biomodulation Protocols. Lima Monteiro , Ester Suane Biomodulação Tecnologia REAC Laser Biomodulation; REAC Technology; Laser |
| title_short |
REAC Technology: Neuro and Biomodulation Protocols. |
| title_full |
REAC Technology: Neuro and Biomodulation Protocols. |
| title_fullStr |
REAC Technology: Neuro and Biomodulation Protocols. |
| title_full_unstemmed |
REAC Technology: Neuro and Biomodulation Protocols. |
| title_sort |
REAC Technology: Neuro and Biomodulation Protocols. |
| author |
Lima Monteiro , Ester Suane |
| author_facet |
Lima Monteiro , Ester Suane Quaresma de Oliveira , João Douglas Pinheiro Barcessat, Ana Rita |
| author_role |
author |
| author2 |
Quaresma de Oliveira , João Douglas Pinheiro Barcessat, Ana Rita |
| author2_role |
author author |
| dc.contributor.author.fl_str_mv |
Lima Monteiro , Ester Suane Quaresma de Oliveira , João Douglas Pinheiro Barcessat, Ana Rita |
| dc.subject.por.fl_str_mv |
Biomodulação Tecnologia REAC Laser Biomodulation; REAC Technology; Laser |
| topic |
Biomodulação Tecnologia REAC Laser Biomodulation; REAC Technology; Laser |
| description |
The Asymmetric Radioelectric Converter - REAC (acronym of the term in English Radioelectric Asymmetric Conveyer) is a radiofrequency equipment whose interaction with the body allows the reorganization of cell polarity, through the rebalancing of endogenous bioelectric fields, functionally modulating adaptive responses. 1,2,3 The uniqueness of the REAC is not exactly the emission of radiofrequency waves, but the physical link created between the patient's body and the device whose contact it establishes. The therapeutic use of REAC technology is established through an electrical gradient that adjusts ionic fluxes and optimizes molecular mechanisms, regulating the asymmetry and polarity of cells. 1,4,5 REAC neuromodulation emits a radiofrequency field in the 5.8 GHz band applied through a handle acting at cortical levels, whereas biomodulation protocols are used locally based on a 2.4 Hz frequency, applied by cables multiprobes in a body area limited by a laminar probe.1,2 Thus, the difference between the protocols is the frequency used and not necessarily the applied area, such as the Cervicobrachial Neuropsychophysical Optimization (NPPO-CB), which is a neuromodulation protocol applied in a region limited by a laminar probe 3 (Figure 1). Figure 1. Schematic representation of the application of biomodulation and neuromodulation protocols by REAC technology. REAC Technology (A); Emission of radio frequency waves (B); Handle for applying neuromodulation (C); Specific point of the neuropostural optimization protocol (NPO), in the direction of the draft in the pinna, indicated by the green dot in the numeral 1 (D); Seven application points of the neuropsychophysical optimization protocol (NPPO) in the pinna (E); Multiprobe cables connected to the laminar sheet in the tissue secured by a mesh for the application of biomodulation protocols (F). GHz. Source: Authors, 2021. Biomodulation consists of a set of protocols called Basic Tissue Optimization (TO-B), Reparative Tissue Optimization (TO-RPR), Regenerative Tissue Optimization (TO-RGN), Neuro-Regenerative Tissue Optimization (TO-RGN-N) and Optimization Chondral Regenerative Tissue (TO-RGN-C), these protocols are applied through a laminar probe, connected by multi-probe cables directly to the equipment, over a specific area of the body. 4,5,6,7,8,9,10,11 Studies have shown the effects of neuro and radioelectric biomodulation by REAC technology in reducing neuronal damage, with positive results for the nervous system, neurological and neurodegenerative diseases 10, as well as in the treatment of generalized anxiety disorders,12 effects of proliferation, migration and cell organization and healing, 9,11 expression of cardiogenic, myogenic, adipogenic, osteogenic, vasculogenic and neuronal genes,2,7,13 immune response modulation, 14,10 cell antisenescence 14,9 and induction of cell differentiation are among the results observed 15 The reprogramming and optimization of endogenous bioelectricity allows accessing epigenetic processes and therefore gene expression, in contrast to inflammatory, senescent and neurodegenerative patterns, thus establishing a range of perspectives and options for applicability in various health conditions for REAC technology, leaving move towards a greater contingent of clinical trials 16,4,17 |
| publishDate |
2021 |
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2021-10-02 |
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info:eu-repo/semantics/article info:eu-repo/semantics/publishedVersion |
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article |
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https://bjihs.emnuvens.com.br/bjihs/article/view/195 10.36557/2674-8169.2021v3n9p01-05 |
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https://bjihs.emnuvens.com.br/bjihs/article/view/195 |
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10.36557/2674-8169.2021v3n9p01-05 |
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por |
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por |
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https://bjihs.emnuvens.com.br/bjihs/article/view/195/259 |
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Specialized Dentistry Group |
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Specialized Dentistry Group |
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Brazilian Journal of Implantology and Health Sciences ; Vol. 3 No. 9 (2021): September 2021; 01-05 Brazilian Journal of Implantology and Health Sciences ; Vol. 3 Núm. 9 (2021): Setembro de 2021; 01-05 Brazilian Journal of Implantology and Health Sciences ; v. 3 n. 9 (2021): Setembro de 2021; 01-05 2674-8169 reponame:Brazilian Journal of Implantology and Health Sciences instname:Grupo de Odontologia Especializada (GOE) instacron:GOE |
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Grupo de Odontologia Especializada (GOE) |
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Brazilian Journal of Implantology and Health Sciences |
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Brazilian Journal of Implantology and Health Sciences |
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Brazilian Journal of Implantology and Health Sciences - Grupo de Odontologia Especializada (GOE) |
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