Proliferation effects of 42-kHz radio frequency energy on human foreskin fibroblasts

Chun Yi Chiu; Po Hsiang Tsui; Chao Ming Su; Shyh Liang Lou

doi:10.5405/jmbe.1334

Proliferation effects of 42-kHz radio frequency energy on human foreskin fibroblasts

Chun Yi Chiu, Po Hsiang Tsui, Chao Ming Su, Shyh Liang Lou^*

^*Corresponding author for this work

Chung Yuan Christian University

Research output: Contribution to journal › Journal Article › peer-review

1 Scopus citations

Abstract

Radio frequency (RF), which can penetrate the dermis to induce cell responses, has been frequently used in the field of skin regeneration. This study examines the potential of using RF treatment for skin wound healing. Human fibroblasts were exposed to a 42-kHz RF at various intensities for 30min. The cell cycle progression, cell viability, and c-fos and c-jun gene expressions were evaluated using flow cytometry, an MTT assay, and reverse-transcription polymerase chain reaction after individual exposures. The results show that the DNA synthesis, cell viability, and gene expressions were upregulated by low-level RF, especially at 350 and 450 A/m² of electromagnetic field exposures. Therefore, RF may play a predominant role in inducing cell proliferation through cell cycle progression and c-fos and c-jun mRNA activation. Non-thermal RF may be the major cause of generating the cell response.

Original language	English
Pages (from-to)	356-362
Number of pages	7
Journal	Journal of Medical and Biological Engineering
Volume	34
Issue number	4
DOIs	https://doi.org/10.5405/jmbe.1334
State	Published - 2014

Keywords

Bio-effects
Fibroblasts
Radio frequency

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10.5405/jmbe.1334

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title = "Proliferation effects of 42-kHz radio frequency energy on human foreskin fibroblasts",

abstract = "Radio frequency (RF), which can penetrate the dermis to induce cell responses, has been frequently used in the field of skin regeneration. This study examines the potential of using RF treatment for skin wound healing. Human fibroblasts were exposed to a 42-kHz RF at various intensities for 30min. The cell cycle progression, cell viability, and c-fos and c-jun gene expressions were evaluated using flow cytometry, an MTT assay, and reverse-transcription polymerase chain reaction after individual exposures. The results show that the DNA synthesis, cell viability, and gene expressions were upregulated by low-level RF, especially at 350 and 450 A/m2 of electromagnetic field exposures. Therefore, RF may play a predominant role in inducing cell proliferation through cell cycle progression and c-fos and c-jun mRNA activation. Non-thermal RF may be the major cause of generating the cell response.",

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T1 - Proliferation effects of 42-kHz radio frequency energy on human foreskin fibroblasts

AU - Chiu, Chun Yi

AU - Tsui, Po Hsiang

AU - Su, Chao Ming

AU - Lou, Shyh Liang

PY - 2014

Y1 - 2014

N2 - Radio frequency (RF), which can penetrate the dermis to induce cell responses, has been frequently used in the field of skin regeneration. This study examines the potential of using RF treatment for skin wound healing. Human fibroblasts were exposed to a 42-kHz RF at various intensities for 30min. The cell cycle progression, cell viability, and c-fos and c-jun gene expressions were evaluated using flow cytometry, an MTT assay, and reverse-transcription polymerase chain reaction after individual exposures. The results show that the DNA synthesis, cell viability, and gene expressions were upregulated by low-level RF, especially at 350 and 450 A/m2 of electromagnetic field exposures. Therefore, RF may play a predominant role in inducing cell proliferation through cell cycle progression and c-fos and c-jun mRNA activation. Non-thermal RF may be the major cause of generating the cell response.

AB - Radio frequency (RF), which can penetrate the dermis to induce cell responses, has been frequently used in the field of skin regeneration. This study examines the potential of using RF treatment for skin wound healing. Human fibroblasts were exposed to a 42-kHz RF at various intensities for 30min. The cell cycle progression, cell viability, and c-fos and c-jun gene expressions were evaluated using flow cytometry, an MTT assay, and reverse-transcription polymerase chain reaction after individual exposures. The results show that the DNA synthesis, cell viability, and gene expressions were upregulated by low-level RF, especially at 350 and 450 A/m2 of electromagnetic field exposures. Therefore, RF may play a predominant role in inducing cell proliferation through cell cycle progression and c-fos and c-jun mRNA activation. Non-thermal RF may be the major cause of generating the cell response.

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Proliferation effects of 42-kHz radio frequency energy on human foreskin fibroblasts

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Keywords

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